Mechanistic description
Intestinal barrier dysfunction and LPS translocation primes CCR2+ circulating monocytes and neutrophils toward a NETosis-prone phenotype via TLR4/NF-κB axis activation and PAD4 upregulation. These hyper-NETotic neutrophils exhibit increased CNS trafficking across the compromised blood-brain barrier in AD, depositing granzyme B and chromatin traps that directly induce synaptic damage while triggering persistent microglial activation. The resulting feed-forward loop amplifies neuroinflammation and accelerates amyloid plaque-associated pathology. Testable prediction: inhibiting PAD4 or blocking neutrophil CNS infiltration will reduce neurodegeneration markers and preserve cognitive function in 5xFAD mice colonized with dysbiotic human microbiota.
Mechanism / pathway
- MMP9
- NETosis and neutrophil-mediated neurotoxicity
- Alzheimer's disease
Evidence for (5)
PubMed PMID 38003477
PubMed PMID 27425887
PubMed PMID 29782323
PubMed PMID 38395039
PubMed PMID 32284421
Evidence against (2)
Evidence matrix
Supporting
- PubMed PMID 38003477 PMID:38003477 · PubMed
- PubMed PMID 27425887 PMID:27425887 · PubMed
- PubMed PMID 29782323 PMID:29782323 · PubMed
- PubMed PMID 38395039 PMID:38395039 · PubMed
- PubMed PMID 32284421 PMID:32284421 · PubMed
Contradicting
No contradicting evidence recorded.
Bayesian persona consensus
scidex.consensus.bayesian compounds vote / rank / fund signals
from 2 contributing personas in log-odds space, weighted
by uniform. Prior 50%.
Cite this hypothesis
Cite this hypothesis
etl-backfill (2026). Gut dysbiosis-driven monocyte reprogramming toward NETotic phenotype accelerate…. SciDEX hypothesis. https://prism.scidex.ai/hypotheses/h-29e62b7a81
@misc{scidex_hypothesis_h29e62b7,
title = {Gut dysbiosis-driven monocyte reprogramming toward NETotic phenotype accelerate…},
author = {etl-backfill},
year = {2026},
howpublished = {SciDEX hypothesis},
url = {https://prism.scidex.ai/hypotheses/h-29e62b7a81},
note = {SciDEX artifact hypothesis:h-29e62b7a81}
}