PAC, an evolutionarily conserved membrane protein, is a proton-activated chloride channel | Zendy

Junhua Yang | Zendy; Jianan Chen | Zendy; Maria del Carmen Vitery | Zendy; James Osei-Owusu | Zendy; Jiachen Chu | Zendy; Haiyang Yu | Zendy; Shuying Sun | Zendy; Zhaozhu Qiu | Zendy

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PAC, an evolutionarily conserved membrane protein, is a proton-activated chloride channel

Author(s) -

Junhua Yang,

Jianan Chen,

Maria del Carmen Vitery,

James Osei-Owusu,

Jiachen Chu,

Haiyang Yu,

Shuying Sun,

Zhaozhu Qiu

Publication year - 2019

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aav9739

Subject(s) - zebrafish , chemistry , microbiology and biotechnology , endogeny , knockout mouse , ion channel , biophysics , biochemistry , biology , gene , receptor

Severe local acidosis causes tissue damage and pain, and is one of the hallmarks of many diseases including ischemia, cancer, and inflammation. However, the molecular mechanisms of the cellular response to acid are not fully understood. We performed an unbiased RNA interference screen and identified PAC (TMEM206) as being essential for the widely observed proton-activated Cl - (PAC) currents ( I Cl,H ). Overexpression of human PAC in PAC knockout cells generated I Cl,H with the same characteristics as the endogenous ones. Zebrafish PAC encodes a PAC channel with distinct properties. Knockout of mouse Pac abolished I Cl,H in neurons and attenuated brain damage after ischemic stroke. The wide expression of PAC suggests a broad role for this conserved Cl - channel family in physiological and pathological processes associated with acidic pH.

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