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癫痫相关变异对 GABA 转运体 GAT-1 功能和运输的实验与生物信息学研究

Experimental and Bioinformatic Insights into the Effects of Epileptogenic Variants on the Function and Trafficking of the GABA Transporter GAT-1.

机构信息

Centro de Biología Molecular Severo Ochoa, Facultad de Ciencias, Consejo Superior de Investigaciones Científicas, Universidad Autónoma de Madrid, 28049 Madrid, Spain.

IdiPAZ, Institute of Health Carlos III (ISCIII), 28046 Madrid, Spain.

出版信息

Int J Mol Sci. 2023 Jan 4;24(2):955. doi: 10.3390/ijms24020955.

DOI:10.3390/ijms24020955
PMID:36674476
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9862756/
Abstract

In this article, we identified a novel epileptogenic variant (G307R) of the gene , which encodes the GABA transporter GAT-1. Our main goal was to investigate the pathogenic mechanisms of this variant, located near the neurotransmitter permeation pathway, and compare it with other variants located either in the permeation pathway or close to the lipid bilayer. The mutants G307R and A334P, close to the gates of the transporter, could be glycosylated with variable efficiency and reached the membrane, albeit inactive. Mutants located in the center of the permeation pathway (G297R) or close to the lipid bilayer (A128V, G550R) were retained in the endoplasmic reticulum. Applying an Elastic Network Model, to these and to other previously characterized variants, we found that G307R and A334P significantly perturb the structure and dynamics of the intracellular gate, which can explain their reduced activity, while for A228V and G362R, the reduced translocation to the membrane quantitatively accounts for the reduced activity. The addition of a chemical chaperone (4-phenylbutyric acid, PBA), which improves protein folding, increased the activity of GAT-1WT, as well as most of the assayed variants, including G307R, suggesting that PBA might also assist the conformational changes occurring during the alternative access transport cycle.

摘要

在本文中,我们鉴定了 GABA 转运体 GAT-1 基因的一个新的致痫性变异体(G307R)。我们的主要目标是研究该变异体的致病机制,该变异体位于神经递质渗透途径附近,并将其与位于渗透途径或靠近脂质双层的其他变异体进行比较。靠近转运体门的突变体 G307R 和 A334P 可以具有不同效率的糖基化,并到达膜,但没有活性。位于渗透途径中心的突变体(G297R)或靠近脂质双层的突变体(A128V、G550R)则保留在内质网中。应用弹性网络模型对这些以及其他以前表征的变体进行分析,我们发现 G307R 和 A334P 显著改变了细胞内门的结构和动力学,这可以解释它们的活性降低,而对于 A228V 和 G362R 来说,转运到膜的减少在数量上解释了它们的活性降低。添加一种化学伴侣(4-苯基丁酸,PBA)可以改善蛋白质折叠,提高 GAT-1WT 的活性,以及大多数测试的变体,包括 G307R,这表明 PBA 也可能协助在替代进入转运循环中发生的构象变化。

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