Differential regulation of tetramerization of the AMPA receptor glutamate-gated ion channel by auxiliary subunits.

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-09 DOI:10.1016/j.jbc.2023.105227
Noele Certain, Quan Gan, Joseph Bennett, Helen Hsieh, Lonnie P Wollmuth
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Abstract

α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR) auxiliary subunits are specialized, nontransient binding partners of AMPARs that modulate AMPAR channel gating properties and pharmacology, as well as their biogenesis and trafficking. The most well-characterized families of auxiliary subunits are transmembrane AMPAR regulatory proteins (TARPs), cornichon homologs (CNIHs), and the more recently discovered GSG1-L. These auxiliary subunits can promote or reduce surface expression of AMPARs (composed of GluA1-4 subunits) in neurons, thereby impacting their functional role in membrane signaling. Here, we show that CNIH-2 enhances the tetramerization of WT and mutant AMPARs, presumably by increasing the overall stability of the tetrameric complex, an effect that is mainly mediated by interactions with the transmembrane domain of the receptor. We also find CNIH-2 and CNIH-3 show receptor subunit-specific actions in this regard with CNIH-2 enhancing both GluA1 and GluA2 tetramerization, whereas CNIH-3 only weakly enhances GluA1 tetramerization. These results are consistent with the proposed role of CNIHs as endoplasmic reticulum cargo transporters for AMPARs. In contrast, TARP γ-2, TARP γ-8, and GSG1-L have no or negligible effect on AMPAR tetramerization. On the other hand, TARP γ-2 can enhance receptor tetramerization but only when directly fused with the receptor at a maximal stoichiometry. Notably, surface expression of functional AMPARs was enhanced by CNIH-2 to a greater extent than TARP γ-2, suggesting that this distinction aids in maturation and membrane expression. These experiments define a functional distinction between CNIHs and other auxiliary subunits in the regulation of AMPAR biogenesis.

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辅助亚基对AMPA受体谷氨酸门控离子通道四聚作用的差异调节。
α-氨基-3-羟基-5-甲基-4-异恶唑丙酸受体(AMPAR)辅助亚基是AMPAR的特异性、非瞬时结合伴侣,调节AMPAR通道门控特性和药理学,以及它们的生物发生和运输。最具特征的辅助亚基家族是跨膜AMPAR调节蛋白(TARP)、角蛋白同源物(CNIH)和最近发现的GSG1-L。这些辅助亚基可以促进或减少神经元中AMPAR(由GluA1-4亚基组成)的表面表达,从而影响其在膜信号传导中的功能作用。在这里,我们发现CNIH-2增强了WT和突变AMPAR的四聚体,可能是通过增加四聚体复合物的整体稳定性,这种作用主要由与受体跨膜结构域的相互作用介导的。我们还发现CNIH-2和CNIH-3在这方面表现出受体亚基特异性作用,CNIH-2增强GluA1和GluA2四聚,而CNIH-3仅微弱地增强GluAl四聚。这些结果与CNIH作为AMPAR的内质网货物转运蛋白的作用一致。相反,TARPγ-2、TARPγ-8和GSG1-L对AMPAR四聚没有影响或可以忽略不计。另一方面,TARPγ-2可以增强受体四聚,但只有当以最大化学计量直接与受体融合时。值得注意的是,与TARPγ-2相比,CNIH-2在更大程度上增强了功能性AMPAR的表面表达,这表明这种差异有助于成熟和膜表达。这些实验确定了CNIH和其他辅助亚基在调节AMPAR生物发生中的功能区别。
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