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ASIC2亚基通过与PSD-95结合，将酸敏感离子通道靶向至突触。

ASIC2 subunits target acid-sensing ion channels to the synapse via an association with PSD-95.

作者信息

Zha Xiang-ming, Costa Vivian, Harding Anne Marie S, Reznikov Leah, Benson Christopher J, Welsh Michael J

机构信息

Howard Hughes Medical Institute, Department of Internal Medicine, Roy J. and Lucille A. Carver College of Medicine, University of Iowa, Iowa City, Iowa 52242, USA.

出版信息

J Neurosci. 2009 Jul 1;29(26):8438-46. doi: 10.1523/JNEUROSCI.1284-09.2009.

DOI:10.1523/JNEUROSCI.1284-09.2009

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2734339/

Abstract

Acid-sensing ion channel-1a (ASIC1a) mediates H(+)-gated current to influence normal brain physiology and impact several models of disease. Although ASIC2 subunits are widely expressed in brain and modulate ASIC1a current, their function remains poorly understood. We identified ASIC2a in dendrites, dendritic spines, and brain synaptosomes. This localization largely relied on ASIC2a binding to PSD-95 and matched that of ASIC1a, which does not coimmunoprecipitate with PSD-95. We found that ASIC2 and ASIC1a associated in brain, and through its interaction with PSD-95, ASIC2 increased ASIC1a localization in dendritic spines. Consistent with earlier work showing that acidic pH elevated spine Ca(2+) by activating ASIC1a, loss of ASIC2 decreased the percentage of spines responding to acid. Moreover, like a reduction of ASIC1a, the number of spine synapses fell in ASIC2(-/-) neurons. These results indicate that ASIC2 facilitates ASIC1a localization and function in dendritic spines and suggest that the two subunits work in concert to regulate neuronal function.

摘要

酸敏感离子通道1a（ASIC1a）介导H⁺门控电流，影响正常脑生理功能并对多种疾病模型产生影响。尽管ASIC2亚基在脑中广泛表达并调节ASIC1a电流，但其功能仍知之甚少。我们在树突、树突棘和脑突触体中鉴定出了ASIC2a。这种定位很大程度上依赖于ASIC2a与PSD-95的结合，且与不与PSD-95共免疫沉淀的ASIC1a的定位相匹配。我们发现ASIC2和ASIC1a在脑中相互关联，并且通过与PSD-95的相互作用，ASIC2增加了ASIC1a在树突棘中的定位。与早期研究结果一致，即酸性pH通过激活ASIC1a提高了树突棘内的[Ca²⁺]i，ASIC2的缺失降低了对酸作出反应的树突棘的百分比。此外，与ASIC1a减少的情况类似，ASIC2基因敲除神经元中的树突棘突触数量减少。这些结果表明，ASIC2促进了ASIC1a在树突棘中的定位和功能，并提示这两个亚基协同作用以调节神经元功能。