Species Translation and Human Relevance

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Species Translation and Human Relevance

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  • 1Citationpaper:paper-9e019e94edbbThe oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...

  • 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...

  • 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference, target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference. Comparative single-nucleus RNA...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference, target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference. Comparative single-nucleus RNA...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference0, target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference1. Comparative single-nucleus RNA...

  • 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference2 The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference3, target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference4. Comparative single-nucleus RNA...

  • 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference5 The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference6, target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference7. Comparative single-nucleus RNA...

  • 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference8 The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference9, target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference0. Comparative single-nucleus RNA...

  • 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference1 At the developmental level, several recent studies have clarified the conserved features of SST neuron maturation. 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference2 resolved a critical gap by demonstrating heterogeneous GABAergic functional maturation within interneuron subpopulations across species. Spatial transcriptomics and differential gene expression analyses revealed that early KCC2-expressing interneurons localize predominantly to layer 5,...

  • 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference3 At the developmental level, several recent studies have clarified the conserved features of SST neuron maturation. 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference4 resolved a critical gap by demonstrating heterogeneous GABAergic functional maturation within interneuron subpopulations across species. Spatial transcriptomics and differential gene expression analyses revealed that early KCC2-expressing interneurons localize predominantly to layer 5,...

  • 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference5 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference6 identified cortical gradients for SST, Pvalb, VIP, and Lamp5 neuronal families that are present across species, establishing that spatial patterning of SST neurons follows conserved principles of areal specification. Similarly, 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference7 observed a localized gradient of SST+ interneurons alongside a widespread rostro-caudal gradient in 5-HT3AR-expressing cells, adding regional specificity to the cons...

  • 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference8 3Citationpaper:paper-55a27a091252The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference9 identified cortical gradients for SST, Pvalb, VIP, and Lamp5 neuronal families that are present across species, establishing that spatial patterning of SST neurons follows conserved principles of areal specification. Similarly, 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference0 observed a localized gradient of SST+ interneurons alongside a widespread rostro-caudal gradient in 5-HT3AR-expressing cells, adding regional specificity to the cons...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference1 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference2 identified cortical gradients for SST, Pvalb, VIP, and Lamp5 neuronal families that are present across species, establishing that spatial patterning of SST neurons follows conserved principles of areal specification. Similarly, 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference3 observed a localized gradient of SST+ interneurons alongside a widespread rostro-caudal gradient in 5-HT3AR-expressing cells, adding regional specificity to the cons...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference4 Against this backdrop of conservation, several lines of evidence reveal meaningful species divergence that complicates direct translation from rodent models. 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5 noted that the primate brain shows an increase in the diversity and number of inhibitory GABAergic interneurons at the cellular level, a quantitative expansion that parallels the increased complexity of primate cortical circuits. This expansion is...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference6 The most striking example of species-specific divergence is SST-TH (tyrosine hydroxylase) co-expression switching, identified by 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7 in a cross-species analysis of more than 600,000 nuclei from the dorsolateral prefrontal cortex of four primate species. While most SST subtypes were conserved across these species, this study detected cell populations present in only some species and substantial molecular diverge...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference8 Conservation vs. divergence at fine resolution. Broad-scale analyses consistently find that major SST neuron subtypes (Martinotti, non-Martinotti, Chodl) are conserved across mammals 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference9. However, finer-grained molecular profiling reveals primate-specific SST populations and substantial within-type molecular divergence 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference0. The resolution of the classification — sup...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference1 Conservation vs. divergence at fine resolution. Broad-scale analyses consistently find that major SST neuron subtypes (Martinotti, non-Martinotti, Chodl) are conserved across mammals 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference2. However, finer-grained molecular profiling reveals primate-specific SST populations and substantial within-type molecular divergence 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference3. The resolution of the classification — sup...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference4 Conservation vs. divergence at fine resolution. Broad-scale analyses consistently find that major SST neuron subtypes (Martinotti, non-Martinotti, Chodl) are conserved across mammals 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5. However, finer-grained molecular profiling reveals primate-specific SST populations and substantial within-type molecular divergence 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference6. The resolution of the classification — sup...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7 Conservation vs. divergence at fine resolution. Broad-scale analyses consistently find that major SST neuron subtypes (Martinotti, non-Martinotti, Chodl) are conserved across mammals 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference8. However, finer-grained molecular profiling reveals primate-specific SST populations and substantial within-type molecular divergence 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference9. The resolution of the classification — sup...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference0 Conservation vs. divergence at fine resolution. Broad-scale analyses consistently find that major SST neuron subtypes (Martinotti, non-Martinotti, Chodl) are conserved across mammals 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference1. However, finer-grained molecular profiling reveals primate-specific SST populations and substantial within-type molecular divergence 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference2. The resolution of the classification — sup...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference3 The implications of regulatory divergence for translational neuroscience are substantial. If the same SST neuron type — defined by transcriptomic cluster identity — operates under different cis-regulatory programs in mouse versus human, then the transcriptional responses of these neurons to perturbation (disease, pharmacological intervention, optogenetic manipulation) may differ even when the baseline molecular iden...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference4 The implications of regulatory divergence for translational neuroscience are substantial. If the same SST neuron type — defined by transcriptomic cluster identity — operates under different cis-regulatory programs in mouse versus human, then the transcriptional responses of these neurons to perturbation (disease, pharmacological intervention, optogenetic manipulation) may differ even when the baseline molecular iden...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference6 showed that the abundance of different interneuron types varies across brain regions with distinct gene expression gradients, and critically, these gradients themselves differ between species. A gradient that positions SST neurons predominantly in deep layers across mouse cortical areas may be modified in primate frontal cortex, where expanded supragranular layers contain a denser representation of...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference8 showed that the abundance of different interneuron types varies across brain regions with distinct gene expression gradients, and critically, these gradients themselves differ between species. A gradient that positions SST neurons predominantly in deep layers across mouse cortical areas may be modified in primate frontal cortex, where expanded supragranular layers contain a denser representation of...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference9 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference0 showed that the abundance of different interneuron types varies across brain regions with distinct gene expression gradients, and critically, these gradients themselves differ between species. A gradient that positions SST neurons predominantly in deep layers across mouse cortical areas may be modified in primate frontal cortex, where expanded supragranular layers contain a denser representation of...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference1 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference2 showed that the abundance of different interneuron types varies across brain regions with distinct gene expression gradients, and critically, these gradients themselves differ between species. A gradient that positions SST neurons predominantly in deep layers across mouse cortical areas may be modified in primate frontal cortex, where expanded supragranular layers contain a denser representation of...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference3 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference4 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference6 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference8 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference9 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference0 Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference1 Beyond cell type conservation, recent studies have examined whether the regulatory elements controlling SST neuron gene expression are conserved across species — a question with direct relevance for whether genetic findings in rodent models can be extrapolated to human SST neurons. 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference2 performed snATAC-Seq to map chromatin accessibility in SST neurons across species, identifying both conserved and species-...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference3 Beyond cell type conservation, recent studies have examined whether the regulatory elements controlling SST neuron gene expression are conserved across species — a question with direct relevance for whether genetic findings in rodent models can be extrapolated to human SST neurons. 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference4 performed snATAC-Seq to map chromatin accessibility in SST neurons across species, identifying both conserved and species-...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5 Beyond cell type conservation, recent studies have examined whether the regulatory elements controlling SST neuron gene expression are conserved across species — a question with direct relevance for whether genetic findings in rodent models can be extrapolated to human SST neurons. 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference6 performed snATAC-Seq to map chromatin accessibility in SST neurons across species, identifying both conserved and species-...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7 Beyond cell type conservation, recent studies have examined whether the regulatory elements controlling SST neuron gene expression are conserved across species — a question with direct relevance for whether genetic findings in rodent models can be extrapolated to human SST neurons. 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference8 performed snATAC-Seq to map chromatin accessibility in SST neurons across species, identifying both conserved and species-...

  • 4Citationpaper:paper-a00b1971660bThe fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5Citationpaper:paper-59f2aacd6832The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference9 The functional consequences of regulatory divergence are potentially profound. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference0 identified Lhx6 as a key transcriptional regulator of both PV and SST interneuron development whose expression is reduced in schizophrenia — but whether Lhx6 occupies the same regulatory targets in human and mouse SST neurons is unknown. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference1 investigated how disruptions in inhibitory circuits manifest across neurologi...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference2 The functional consequences of regulatory divergence are potentially profound. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference3 identified Lhx6 as a key transcriptional regulator of both PV and SST interneuron development whose expression is reduced in schizophrenia — but whether Lhx6 occupies the same regulatory targets in human and mouse SST neurons is unknown. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference4 investigated how disruptions in inhibitory circuits manifest across neurologi...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5 The functional consequences of regulatory divergence are potentially profound. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference6 identified Lhx6 as a key transcriptional regulator of both PV and SST interneuron development whose expression is reduced in schizophrenia — but whether Lhx6 occupies the same regulatory targets in human and mouse SST neurons is unknown. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7 investigated how disruptions in inhibitory circuits manifest across neurologi...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference8 The functional consequences of regulatory divergence are potentially profound. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7Citationpaper:paper-8ca0085288d3The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference9 identified Lhx6 as a key transcriptional regulator of both PV and SST interneuron development whose expression is reduced in schizophrenia — but whether Lhx6 occupies the same regulatory targets in human and mouse SST neurons is unknown. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference0 investigated how disruptions in inhibitory circuits manifest across neurologi...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference1 A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference2 reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference3 A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference4 reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference5 A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference6 reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference7 A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference8 reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...

  • 6Citationpaper:paper-1f9e2fd192d2The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...content/11_species_translation.md:line 9Open reference9 A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference00 reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...

  • 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference01 A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference02 reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...

  • 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference03 A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. 2Citationpaper:paper-73b8238d3e24The oscillatory dynamics examined in {ref}sec-oscillatory-dynamics — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...content/11_species_translation.md:line 3Open reference04 reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...

  • ... 190 additional anchors in refs_json

References

  1. [Ma2022] paper:paper-9e019e94edbb “The oscillatory dynamics examined in {ref}`sec-oscillatory-dynamics` — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...”
  2. [Hanson2024] paper:paper-73b8238d3e24 “The oscillatory dynamics examined in {ref}`sec-oscillatory-dynamics` — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...”
  3. [Anderson2020] paper:paper-55a27a091252 “The oscillatory dynamics examined in {ref}`sec-oscillatory-dynamics` — particularly gamma-band deficits in schizophrenia and theta disruptions in temporal lobe epilepsy — represent circuit-level phenomena with direct clinical correlates. Yet the strength of these translational inferences depends on a prior question: how faithfully do rodent SST interneuron findings map onto the human brain? This section evaluates th...”
  4. [Bechelli2023] paper:paper-a00b1971660b “The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...”
  5. [Lim2026] paper:paper-59f2aacd6832 “The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...”
  6. [Rademacher2025] paper:paper-1f9e2fd192d2 “The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...”
  7. [Kallo2025] paper:paper-8ca0085288d3 “The fundamental organizational principles of SST interneuron biology appear conserved across mammals. SST neurons arise from the medial ganglionic eminence (MGE) in all species examined [Bechelli2023, Lim2026], target dendritic compartments of pyramidal neurons, and co-express characteristic neuropeptide combinations including calretinin and neuropeptide Y [Rademacher2025, Kallo2025]. Comparative single-nucleus RNA...”
  8. [Szrinivasan2025] paper:paper-e2d1deb9eeb2 “At the developmental level, several recent studies have clarified the conserved features of SST neuron maturation. [Szrinivasan2025] resolved a critical gap by demonstrating heterogeneous GABAergic functional maturation within interneuron subpopulations across species. Spatial transcriptomics and differential gene expression analyses revealed that early KCC2-expressing interneurons localize predominantly to layer 5,...”
  9. [HosseiniFin2025] paper:paper-3f5a1dcba2a8 “At the developmental level, several recent studies have clarified the conserved features of SST neuron maturation. [Szrinivasan2025] resolved a critical gap by demonstrating heterogeneous GABAergic functional maturation within interneuron subpopulations across species. Spatial transcriptomics and differential gene expression analyses revealed that early KCC2-expressing interneurons localize predominantly to layer 5,...”
  10. [Mathieu2026] paper:paper-110020e8344f “[Mathieu2026] identified cortical gradients for SST, Pvalb, VIP, and Lamp5 neuronal families that are present across species, establishing that spatial patterning of SST neurons follows conserved principles of areal specification. Similarly, [Kallo2025] observed a localized gradient of SST+ interneurons alongside a widespread rostro-caudal gradient in 5-HT3AR-expressing cells, adding regional specificity to the cons...”
  11. [Jackson2024] paper:paper-03297a8356d4 “[Mathieu2026] identified cortical gradients for SST, Pvalb, VIP, and Lamp5 neuronal families that are present across species, establishing that spatial patterning of SST neurons follows conserved principles of areal specification. Similarly, [Kallo2025] observed a localized gradient of SST+ interneurons alongside a widespread rostro-caudal gradient in 5-HT3AR-expressing cells, adding regional specificity to the cons...”
  12. [Williams2021] paper:paper-9c713b7e55fa “**Conservation vs. divergence at fine resolution.** Broad-scale analyses consistently find that major SST neuron subtypes (Martinotti, non-Martinotti, Chodl) are conserved across mammals [Ma2022, Williams2021]. However, finer-grained molecular profiling reveals primate-specific SST populations and substantial within-type molecular divergence [Ma2022, Joshi2024, Hanson2024]. The resolution of the classification — sup...”
  13. [Joshi2024] paper:paper-3f84809f7db4 “**Conservation vs. divergence at fine resolution.** Broad-scale analyses consistently find that major SST neuron subtypes (Martinotti, non-Martinotti, Chodl) are conserved across mammals [Ma2022, Williams2021]. However, finer-grained molecular profiling reveals primate-specific SST populations and substantial within-type molecular divergence [Ma2022, Joshi2024, Hanson2024]. The resolution of the classification — sup...”
  14. [Cameron2024] paper:paper-5743f67ceb96 “The implications of regulatory divergence for translational neuroscience are substantial. If the same SST neuron type — defined by transcriptomic cluster identity — operates under different cis-regulatory programs in mouse versus human, then the transcriptional responses of these neurons to perturbation (disease, pharmacological intervention, optogenetic manipulation) may differ even when the baseline molecular iden...”
  15. [Wang2025b] paper:paper-cedfd858fea7 “Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...”
  16. [Weidling2025] paper:paper-d76812e481b1 “Cross-species conservation and divergence of SST neuron features across mammals. (a) Conservation matrix showing that core features (co-expression patterns, dendritic targeting, MGE origin) are conserved from mouse to human, while morphological subtypes show partial modification in primates and molecular features such as SST-TH co-expression are human/primate-specific. (b) Key species-specific features identified in...”
  17. [Elam2024] paper:paper-74f938635b0e “The functional consequences of regulatory divergence are potentially profound. [Elam2024] identified Lhx6 as a key transcriptional regulator of both PV and SST interneuron development whose expression is reduced in schizophrenia — but whether Lhx6 occupies the same regulatory targets in human and mouse SST neurons is unknown. [Ikebara2025] investigated how disruptions in inhibitory circuits manifest across neurologi...”
  18. [Ikebara2025] paper:paper-7a51dedad63b “The functional consequences of regulatory divergence are potentially profound. [Elam2024] identified Lhx6 as a key transcriptional regulator of both PV and SST interneuron development whose expression is reduced in schizophrenia — but whether Lhx6 occupies the same regulatory targets in human and mouse SST neurons is unknown. [Ikebara2025] investigated how disruptions in inhibitory circuits manifest across neurologi...”
  19. [Zhang2025a] paper:paper-4e9f68306075 “A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. [Zhang2025a] reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...”
  20. [Morrone2022] paper:paper-532db5d51841 “A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. [Zhang2025a] reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...”
  21. [Cheng2025] paper:paper-1f9bc0c09ea7 “A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. [Zhang2025a] reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...”
  22. [Bayaraa2025] paper:caec88f9-fb04-4e06-bacb-cc0187e73510 “A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. [Zhang2025a] reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...”
  23. [Morgan2024] paper:paper-d7d15d1d3355 “A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. [Zhang2025a] reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...”
  24. [Cole2025] paper:paper-208bbf2a3ba6 “A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. [Zhang2025a] reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...”
  25. [Sandoval2024] paper:paper-b4028353a2a3 “A critical gap in the translational pipeline concerns age-related changes in SST neurons, which are relevant to both AD and schizophrenia given that disease onset or progression is age-dependent. [Zhang2025a] reported age-accelerated increases in reactive oxygen species in PV-deficient interneurons linked to mitochondrial dysfunction — findings that likely extend to SST neurons but have not been directly tested. [Mo...”

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