Regulation of GABA(A)Rs by Transmembrane Accessory Proteins

Han Wenyan; Shepard Ryan D.; Lu Wei

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Regulation of GABA(A)Rs by Transmembrane Accessory Proteins

机译：通过跨膜配件蛋白调节GABA（a）rs

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The vast majority of fast inhibitory transmission in the brain is mediated by GABA acting on GABA(A) receptors (GABA(A)Rs), which provides inhibitory balance to excitatory drive and controls neuronal output. GABA(A)Rs are also effectively targeted by clinically important drugs for treatment in a number of neurological disorders. It has long been hypothesized that function and pharmacology of GABA(A)Rs are determined by the channel pore-forming subunits. However, recent studies have provided new dimensions in studying GABA(A)Rs due to several transmembrane proteins that interact with GABA(A)Rs and modulate their trafficking and function. In this review, we summarize recent findings on these novel GABA(A)R transmembrane regulators and highlight a potential avenue to develop new GABA(A)R psychopharmacology by targeting these receptor associated membrane proteins.

机译：大脑中绝大多数的快速抑制传递是由作用于GABA（A）受体（GABA（A）Rs）的GABA介导的，GABA（A）Rs为兴奋性驱动提供抑制平衡，并控制神经元输出。GABA（A）受体也被临床上重要的药物有效地作为治疗许多神经系统疾病的靶点。长期以来，人们一直认为GABA（A）Rs的功能和药理学是由通道孔形成亚单位决定的。然而，最近的研究为研究GABA（A）Rs提供了新的维度，因为一些跨膜蛋白与GABA（A）Rs相互作用并调节其运输和功能。在这篇综述中，我们总结了这些新型GABA（A）R跨膜调节器的最新发现，并强调了通过靶向这些受体相关膜蛋白开发新的GABA（A）R精神药理学的潜在途径。

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《Trends in Neurosciences 》 |2021年第2期| 共14页
作者
Han Wenyan; Shepard Ryan D.; Lu Wei;
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NINDS Synapse &

Neural Circuit Res Sect NIH Bldg 36 Rm 4D04 Bethesda MD 20892 USA;

NINDS Synapse &

Neural Circuit Res Sect NIH Bldg 36 Rm 4D04 Bethesda MD 20892 USA;

NINDS Synapse &

Neural Circuit Res Sect NIH Bldg 36 Rm 4D04 Bethesda MD 20892 USA;

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正文语种 eng
中图分类神经病学 ;
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Regulation of GABA(A)Rs by Transmembrane Accessory Proteins

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