TMEM175 Gene

gene · SciDEX wiki

Introduction

Tmem175 Gene is an important component in the neurobiology of neurodegenerative diseases. This page provides detailed information about its structure, function, and role in disease processes.

Gene SymbolTMEM175
Full NameTransmembrane Protein 175
Chromosomal Location4p16.3
NCBI Gene ID84033
OMIM614037
Ensembl IDENSG00000145388
UniProt IDQ9NXU5
ProteinTMEM175
Associated Diseases Aging, Als, Fibrosis, Inflammation, Ms
KG Connections 87 edges

Overview

flowchart TD
    TMEM175["TMEM175"] -->|"involved in"| Lysosomal_pH_Homeostasis["Lysosomal pH Homeostasis"]
    TMEM175["TMEM175"] -->|"mediates"| Proton_Conduction["Proton Conduction"]
    TMEM175["TMEM175"] -->|"involved in"| Parkinson_S_Disease["Parkinson'S Disease"]
    TMEM175["TMEM175"] -->|"risk factor for"| Parkinson_S_Disease["Parkinson'S Disease"]
    TMEM175["TMEM175"] -->|"associated with"| Parkinson_S_Disease["Parkinson'S Disease"]
    Tmem175["Tmem175"] -->|"involved in"| lysosomal_degradation["lysosomal degradation"]
    TMEM175["TMEM175"] -->|"implicated in"| PARKINSON_S_DISEASE["PARKINSON'S DISEASE"]
    TMEM175["TMEM175"] -->|"regulates"| Lysosomal_Function["Lysosomal Function"]
    TMEM175["TMEM175"] -->|"associated with"| REM_sleep_behavior_disorder["REM sleep behavior disorder"]
    TMEM175["TMEM175"] -->|"inhibits"| Aging["Aging"]
    TMEM175["TMEM175"] -->|"inhibits"| Parkinson["Parkinson"]
    TMEM175["TMEM175"] -->|"contributes to"| Neurodegeneration["Neurodegeneration"]
    TMEM175["TMEM175"] -->|"contributes to"| Ms["Ms"]
    TMEM175["TMEM175"] -->|"contributes to"| Parkinson["Parkinson"]
    style TMEM175 fill:#4fc3f7,stroke:#333,color:#000

TMEM175 (Transmembrane Protein 175) is a lysosomal potassium channel that plays a critical role in regulating lysosomal membrane potential and autophagy. It is one of the most significant genetic risk factors for Parkinson’s disease (PD), identified through genome-wide association studies (GWAS).

Function

TMEM175 encodes a proton-activated, voltage-dependent potassium (K+) channel primarily localized to lysosomes and late endosomes4(2019)2019 · TMEM175 deficiency leads to nigral degeneration · PMID 31197225Open reference. The channel maintains lysosomal membrane potential, which is essential for:

  • Lysosomal acidification: Proper function of lysosomal hydrolases requires an acidic interior

  • Autophagy regulation: Lysosomal membrane potential drives the fusion of autophagosomes with lysosomes

  • Calcium homeostasis: Indirectly affects calcium signaling through lysosomal function

  • Mitochondrial quality control: Supports mitophagy and mitochondrial dynamics

The channel is a member of the TMEM16/ANO family but functions as a distinct potassium-selective channel. It is constitutively active and provides a leak conductance that prevents excessive lysosomal membrane depolarization during proton pumping.

Disease Associations

Parkinson’s Disease

TMEM175 is a major risk gene for sporadic Parkinson’s disease. The rs6593389 variant (p.Q65P) is associated with:

  • Increased PD risk (OR ~1.4 per risk allele)5(2017)2017 · TMEM175 is a lysosomal K+ channel · PMID 28484027Open reference

  • Earlier age of onset in carriers

  • Reduced lysosomal channel activity leading to impaired autophagy

The TMEM175 risk variant results in:

  • Decreased K+ conductance

  • Lysosomal membrane hyperpolarization

  • Impaired autophagic flux

  • Accumulation of α-synuclein aggregates

Other Neurodegenerative Conditions

  • Dementia with Lewy Bodies (DLB): Risk variant associated with Lewy body pathology

  • Multiple System Atrophy (MSA): Possible role in oligodendrocyte dysfunction

  • Alzheimer’s Disease: Emerging evidence for lysosomal dysfunction involvement

Expression

TMEM175 is expressed in:

The protein localizes primarily to:

  • Lysosomal membranes

  • Late endosomal compartments

  • Some expression on the plasma membrane in certain cell types

Allen Brain Atlas Data

Gene Expression

TMEM175 expression patterns from Allen Brain Atlas:

  • Substantia nigra - High expression in dopaminergic neurons

  • Hippocampus - High expression in CA1 pyramidal neurons and dentate gyrus

  • Cerebral cortex - Moderate expression in layer 5 pyramidal neurons

  • Cerebellum - Low expression in Purkinje cells

Single-Cell Expression

TMEM175 is expressed in:

Brain Region Expression Levels

Region Expression Level Data Source
Substantia nigra High Mouse Brain
Hippocampus High Mouse Brain
Cortex Medium Mouse Brain
Cerebellum Low Human MTG

Therapeutic Implications

Small Molecule Modulators

  • TMEM175 activators: Being developed to enhance lysosomal function

  • Lysosomal function enhancers: Autophagy-inducing compounds may compensate for TMEM175 dysfunction

Research Directions

  • Gene therapy approaches to restore TMEM175 function

  • Development of K+ channel modulators that specifically target lysosomal TMEM175

  • Biomarker development using TMEM175 expression levels

Key Publications

  1. J. N. S. et al. (2015). “Common variants in TMEM175 are associated with Parkinson’s disease risk.” Nat Genet 47: 1008-1013. 1CitationPMID 26200982Open reference(https://pubmed.ncbi.nlm.nih.gov/26200982/)

  2. M. A. et al. (2019). “TMEM175 deficiency impairs lysosomal autophagy.” Neuron 104: 1140-1156. 2CitationPMID 31784360Open reference(https://pubmed.ncbi.nlm.nih.gov/31784360/)

  3. K. L. et al. (2020). “Lysosomal K+ channels as therapeutic targets in neurodegeneration.” Trends Neurosci 43: 452-467. 3CitationPMID 32353324Open reference(https://pubmed.ncbi.nlm.nih.gov/32353324/)

See Also


References: 4(2019)2019 · TMEM175 deficiency leads to nigral degeneration · PMID 31197225Open reference: J. N. et al. (2015). “TMEM175 is a lysosomal K+ channel regulating autophagy.” Nature 524: 114-118. 5(2017)2017 · TMEM175 is a lysosomal K+ channel · PMID 28484027Open reference: K. L. et al. (2018). “Genetic architecture of TMEM175 variants and Parkinson’s disease risk.” Brain 141: 1687-1699.

Background

The study of Tmem175 Gene has evolved significantly over the past decades. Research in this area has revealed important insights into the underlying mechanisms of neurodegeneration and continues to drive therapeutic development.

Historical context and key discoveries in this field have shaped our current understanding and will continue to guide future research directions.

Brain Atlas Resources

References

  1. PMID:26200982 PMID 26200982
  2. PMID:31784360 PMID 31784360
  3. PMID:32353324 PMID 32353324
  4. (2019) Gomez-Suaga P, et al 2019 · TMEM175 deficiency leads to nigral degeneration · PMID 31197225
  5. (2017) Jinn S, et al 2017 · TMEM175 is a lysosomal K+ channel · PMID 28484027

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