LRRC8A及其旁系同源物对容积敏感性外向整流（VSOR）阴离子通道的贡献与酸敏感性外向整流（ASOR）阴离子通道的贡献不同。

Distinct contributions of LRRC8A and its paralogs to the VSOR anion channel from those of the ASOR anion channel.

作者信息

Sato-Numata Kaori, Numata Tomohiro, Inoue Ryuji, Sabirov Ravshan Z, Okada Yasunobu

机构信息

a Japan Society for the Promotion of Science , Chiyoda-ku , Japan.

b Department of Cell Physiology , National Institute for Physiological Sciences, National Institutes of Natural Sciences , Okazaki , Japan.

出版信息

Channels (Austin). 2017 Mar 4;11(2):167-172. doi: 10.1080/19336950.2016.1230574. Epub 2016 Aug 31.

DOI:10.1080/19336950.2016.1230574

PMID:27579940

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5398604/

Abstract

Volume- and acid-sensitive outwardly rectifying anion channels (VSOR and ASOR) activated by swelling and acidification exhibit voltage-dependent inactivation and activation time courses, respectively. Recently, LRRC8A and some paralogs were shown to be essentially involved in the activity and inactivation kinetics of VSOR currents in human colonic HCT116 cells. In human cervix HeLa cells, here, inactivation of VSOR currents was found to become accelerated by RNA silencing only of LRRC8A but never decelerated by that of any LRRC8 isoform. These data suggest that LRRC8A is associated with the deceleration mechanism of VSOR inactivation, while none of LRRC8 members is related to the acceleration mechanism. Activation kinetics of ASOR currents was unaffected by knockdown of any LRRC8 family member. Double, triple and quadruple gene-silencing studies indicated that combinatory expression of LRRC8A with LRRC8D and LRRC8C is essential for VSOR activity, whereas none of LRRC8 family members is involved in ASOR activity.

摘要

容积和酸敏感外向整流阴离子通道（VSOR和ASOR）分别由肿胀和酸化激活，表现出电压依赖性失活和激活时间进程。最近，LRRC8A和一些旁系同源物被证明在人结肠HCT116细胞中基本上参与了VSOR电流的活性和失活动力学。在这里，在人宫颈HeLa细胞中，发现仅通过RNA沉默LRRC8A可加速VSOR电流的失活，而任何LRRC8异构体的RNA沉默均不会使其减速。这些数据表明，LRRC8A与VSOR失活的减速机制有关，而LRRC8成员均与加速机制无关。ASOR电流的激活动力学不受任何LRRC8家族成员敲低的影响。双基因、三基因和四基因沉默研究表明，LRRC8A与LRRC8D和LRRC8C的组合表达对于VSOR活性至关重要，而LRRC8家族成员均不参与ASOR活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7df8/5398604/deeae32cfde7/kchl-11-02-1230574-g002.jpg

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LRRC8A及其旁系同源物对容积敏感性外向整流（VSOR）阴离子通道的贡献与酸敏感性外向整流（ASOR）阴离子通道的贡献不同。

Distinct contributions of LRRC8A and its paralogs to the VSOR anion channel from those of the ASOR anion channel.

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