锌介导的神经传递通过 mZnR/GPR39 受体上调 KCC2 活性。

Upregulation of KCC2 activity by zinc-mediated neurotransmission via the mZnR/GPR39 receptor.

机构信息

Department of Morphology, Faculty of Health Sciences and The Zlotowski Center of Neuroscience, Ben-Gurion University, Beer-Sheva, 84015, Israel.

出版信息

J Neurosci. 2011 Sep 7;31(36):12916-26. doi: 10.1523/JNEUROSCI.2205-11.2011.

DOI:10.1523/JNEUROSCI.2205-11.2011

PMID:21900570

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3227684/

Abstract

Vesicular Zn(2+) regulates postsynaptic neuronal excitability upon its corelease with glutamate. We previously demonstrated that synaptic Zn(2+) acts via a distinct metabotropic zinc-sensing receptor (mZnR) in neurons to trigger Ca(2+) responses in the hippocampus. Here, we show that physiological activation of mZnR signaling induces enhanced K(+)/Cl(-) cotransporter 2 (KCC2) activity and surface expression. As KCC2 is the major Cl(-) outward transporter in neurons, Zn(2+) also triggers a pronounced hyperpolarizing shift in the GABA(A) reversal potential. Mossy fiber stimulation-dependent upregulation of KCC2 activity is eliminated in slices from Zn(2+) transporter 3-deficient animals, which lack synaptic Zn(2+). Importantly, activity-dependent ZnR signaling and subsequent enhancement of KCC2 activity are also absent in slices from mice lacking the G-protein-coupled receptor GPR39, identifying this protein as the functional neuronal mZnR. Our work elucidates a fundamentally important role for synaptically released Zn(2+) acting as a neurotransmitter signal via activation of a mZnR to increase Cl(-) transport, thereby enhancing inhibitory tone in postsynaptic cells.

摘要

囊泡中的 Zn(2+)与谷氨酸共同释放后可调节突触后神经元的兴奋性。我们之前的研究表明，突触 Zn(2+)通过神经元中独特的代谢型锌感应受体（mZnR）发挥作用，以触发海马体中的 Ca(2+)反应。在这里，我们发现 mZnR 信号的生理激活可诱导增强的 K(+)/Cl(-)共转运蛋白 2（KCC2）活性和表面表达。由于 KCC2 是神经元中主要的 Cl(-)外向转运蛋白，Zn(2+)也会导致 GABA(A)反转电位发生明显的超极化偏移。在缺乏突触 Zn(2+)的 Zn(2+)转运蛋白 3 缺陷动物的切片中，苔藓纤维刺激依赖性的 KCC2 活性上调被消除。重要的是，缺乏 G 蛋白偶联受体 GPR39 的小鼠的切片中也不存在依赖于活性的 ZnR 信号和随后的 KCC2 活性增强，该蛋白被鉴定为功能性神经元 mZnR。我们的工作阐明了一个重要的作用，即突触释放的 Zn(2+)作为神经递质信号，通过激活 mZnR 来增加 Cl(-)转运，从而增强突触后细胞的抑制性。

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