A new polymodal gating model of the proton-activated chloride channel

The proton–activated chloride (PAC) channel plays critical roles in ischemic neuron death, but its activation mechanisms remain elusive. Here, we investigated the gating of PAC channels using its novel bifunctional modulator C77304. C77304 acted as a weak activator of the PAC channel, causing modera...

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Autores principales: Zhao, Piao, Tang, Cheng, Yang, Yuqin, Xiao, Zhen, Perez-Miller, Samantha, Zhang, Heng, Luo, Guoqing, Liu, Hao, Li, Yaqi, Liao, Qingyi, Yang, Fan, Dong, Hao, Khanna, Rajesh, Liu, Zhonghua
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10529583/
https://www.ncbi.nlm.nih.gov/pubmed/37713449
http://dx.doi.org/10.1371/journal.pbio.3002309
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author Zhao, Piao
Tang, Cheng
Yang, Yuqin
Xiao, Zhen
Perez-Miller, Samantha
Zhang, Heng
Luo, Guoqing
Liu, Hao
Li, Yaqi
Liao, Qingyi
Yang, Fan
Dong, Hao
Khanna, Rajesh
Liu, Zhonghua
author_facet Zhao, Piao
Tang, Cheng
Yang, Yuqin
Xiao, Zhen
Perez-Miller, Samantha
Zhang, Heng
Luo, Guoqing
Liu, Hao
Li, Yaqi
Liao, Qingyi
Yang, Fan
Dong, Hao
Khanna, Rajesh
Liu, Zhonghua
author_sort Zhao, Piao
collection PubMed
description The proton–activated chloride (PAC) channel plays critical roles in ischemic neuron death, but its activation mechanisms remain elusive. Here, we investigated the gating of PAC channels using its novel bifunctional modulator C77304. C77304 acted as a weak activator of the PAC channel, causing moderate activation by acting on its proton gating. However, at higher concentrations, C77304 acted as a weak inhibitor, suppressing channel activity. This dual function was achieved by interacting with 2 modulatory sites of the channel, each with different affinities and dependencies on the channel’s state. Moreover, we discovered a protonation–independent voltage activation of the PAC channel that appears to operate through an ion–flux gating mechanism. Through scanning–mutagenesis and molecular dynamics simulation, we confirmed that E181, E257, and E261 in the human PAC channel serve as primary proton sensors, as their alanine mutations eliminated the channel’s proton gating while sparing the voltage–dependent gating. This proton–sensing mechanism was conserved among orthologous PAC channels from different species. Collectively, our data unveils the polymodal gating and proton–sensing mechanisms in the PAC channel that may inspire potential drug development.
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spelling pubmed-105295832023-09-28 A new polymodal gating model of the proton-activated chloride channel Zhao, Piao Tang, Cheng Yang, Yuqin Xiao, Zhen Perez-Miller, Samantha Zhang, Heng Luo, Guoqing Liu, Hao Li, Yaqi Liao, Qingyi Yang, Fan Dong, Hao Khanna, Rajesh Liu, Zhonghua PLoS Biol Research Article The proton–activated chloride (PAC) channel plays critical roles in ischemic neuron death, but its activation mechanisms remain elusive. Here, we investigated the gating of PAC channels using its novel bifunctional modulator C77304. C77304 acted as a weak activator of the PAC channel, causing moderate activation by acting on its proton gating. However, at higher concentrations, C77304 acted as a weak inhibitor, suppressing channel activity. This dual function was achieved by interacting with 2 modulatory sites of the channel, each with different affinities and dependencies on the channel’s state. Moreover, we discovered a protonation–independent voltage activation of the PAC channel that appears to operate through an ion–flux gating mechanism. Through scanning–mutagenesis and molecular dynamics simulation, we confirmed that E181, E257, and E261 in the human PAC channel serve as primary proton sensors, as their alanine mutations eliminated the channel’s proton gating while sparing the voltage–dependent gating. This proton–sensing mechanism was conserved among orthologous PAC channels from different species. Collectively, our data unveils the polymodal gating and proton–sensing mechanisms in the PAC channel that may inspire potential drug development. Public Library of Science 2023-09-15 /pmc/articles/PMC10529583/ /pubmed/37713449 http://dx.doi.org/10.1371/journal.pbio.3002309 Text en © 2023 Zhao et al https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Zhao, Piao
Tang, Cheng
Yang, Yuqin
Xiao, Zhen
Perez-Miller, Samantha
Zhang, Heng
Luo, Guoqing
Liu, Hao
Li, Yaqi
Liao, Qingyi
Yang, Fan
Dong, Hao
Khanna, Rajesh
Liu, Zhonghua
A new polymodal gating model of the proton-activated chloride channel
title A new polymodal gating model of the proton-activated chloride channel
title_full A new polymodal gating model of the proton-activated chloride channel
title_fullStr A new polymodal gating model of the proton-activated chloride channel
title_full_unstemmed A new polymodal gating model of the proton-activated chloride channel
title_short A new polymodal gating model of the proton-activated chloride channel
title_sort new polymodal gating model of the proton-activated chloride channel
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10529583/
https://www.ncbi.nlm.nih.gov/pubmed/37713449
http://dx.doi.org/10.1371/journal.pbio.3002309
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