G蛋白信号蛋白的内源性调节因子调控大鼠海马突触的突触前抑制。

Endogenous regulators of G protein signaling proteins regulate presynaptic inhibition at rat hippocampal synapses.

作者信息

Chen H, Lambert N A

机构信息

Department of Pharmacology and Toxicology, Medical College of Georgia, and Medical Research Service, Veterans Affairs Medical Center, Augusta, GA 30912, USA.

出版信息

Proc Natl Acad Sci U S A. 2000 Nov 7;97(23):12810-5. doi: 10.1073/pnas.230260397.

DOI:10.1073/pnas.230260397

PMID:11050179

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC18846/

Abstract

Presynaptic inhibition mediated by G protein-coupled receptors (GPCRs) can develop and decay in a few seconds. This time course is too rapid to be accounted for by the intrinsic GTPase activity of Galpha subunits alone. Here, we test the hypothesis that endogenous regulators of G protein signaling (RGS proteins) are required for rapid, brief presynaptic inhibition. Endogenous G protein alpha subunits were uncoupled from GPCRs by treating cultures with pertussis toxin (PTX). Adenoviral expression of mutant PTX-insensitive (PTX-i) Galpha(i1-3) or Galpha(o) subunits rescued adenosine-induced presynaptic inhibition in cultured hippocampal neurons. Expression of double mutant Galpha(i1) or Galpha(o) subunits that were both PTX-insensitive and unable to bind RGS proteins (PTX/RGS-i) also rescued presynaptic inhibition. Presynaptic inhibition mediated by PTX/RGS-i subunits decayed much more slowly after agonist removal than that mediated by PTX-i subunits or native G proteins. The onset of presynaptic inhibition mediated by PTX/RGS-i Galpha(o) was also slower than that mediated by PTX-i Galpha(o). In contrast, the onset of presynaptic inhibition mediated by PTX/RGS-i Galpha(i1) was similar to that mediated by PTX-i Galpha(i1). These results suggest that endogenous RGS proteins regulate the time course of G protein signaling in mammalian central nervous system presynaptic terminals.

摘要

由G蛋白偶联受体（GPCRs）介导的突触前抑制可在数秒内形成和消退。这个时间进程太快，仅靠Gα亚基的内在GTP酶活性无法解释。在这里，我们测试了一个假设，即G蛋白信号转导的内源性调节因子（RGS蛋白）是快速、短暂的突触前抑制所必需的。通过用百日咳毒素（PTX）处理培养物，使内源性G蛋白α亚基与GPCRs解偶联。突变的对PTX不敏感（PTX-i）的Gα（i1-3）或Gα（o）亚基的腺病毒表达挽救了培养的海马神经元中腺苷诱导的突触前抑制。对PTX不敏感且无法结合RGS蛋白的双突变Gα（i1）或Gα（o）亚基（PTX/RGS-i）的表达也挽救了突触前抑制。激动剂去除后，由PTX/RGS-i亚基介导的突触前抑制的消退比由PTX-i亚基或天然G蛋白介导的消退要慢得多。由PTX/RGS-i Gα（o）介导的突触前抑制的起始也比由PTX-i Gα（o）介导的起始要慢。相比之下，由PTX/RGS-i Gα（i1）介导的突触前抑制的起始与由PTX-i Gα（i1）介导的起始相似。这些结果表明，内源性RGS蛋白调节哺乳动物中枢神经系统突触前终末中G蛋白信号转导的时间进程。

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