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小鼠钠/葡萄糖共转运体SGLT1中跨膜结构域1的第36位氨基酸在电压敏感性中的作用。

Involvement of amino acid 36 in TM1 in voltage sensitivity in mouse Na+/glucose cotransporter SGLT1.

作者信息

Díez-Sampedro Ana

机构信息

Department of Physiology and Biophysics, University of Miami, School of Medicine, Miami, FL 33136, USA.

出版信息

J Membr Biol. 2009 Jan;227(2):57-66. doi: 10.1007/s00232-008-9143-3. Epub 2009 Jan 3.

Abstract

Human SGLT1 protein is an established sodium-glucose cotransporter. Despite widespread use of the mouse as a model organism, the mouse SGLT1 homologue has yet to be functionally characterized. Additionally, the crystal structure of a sugar transporter homologue, Vibrio SGLT, has recently been described, however, it offers limited information about the role of transmembrane segments outside of the core ligand binding domains. In particular, the amino acids in TM1 were not assigned in the structure. To examine the contribution of TM1 to the function of SGLT1, we have cloned and characterized the biophysical properties of SGLT1 from mouse, mSGLT1, and compared it to a clone containing an amino acid substitution in TM1, F36S. As predicted, both proteins formed functional Na+/sugar cotransporters, but F36S-mSGLT1 showed decreased rates of sugar uptake and decreased apparent affinities for both Na+ and sugar compared to mSGLT1. Analysis of pre-steady-state currents and comparison with the crystal structure of Vibrio SGLT provide plausible mechanisms to explain the differences in function of these two proteins. Our data suggest that amino acids in TM1, which are not involved in ligand binding and translocation pathways, significantly influence the functional properties of sodium-glucose carrier proteins.

摘要

人类SGLT1蛋白是一种已确定的钠-葡萄糖协同转运蛋白。尽管小鼠作为模式生物被广泛使用,但其SGLT1同源物尚未进行功能表征。此外,最近描述了一种糖转运蛋白同源物——弧菌SGLT的晶体结构,然而,它提供的关于核心配体结合域外跨膜片段作用的信息有限。特别是,TM1中的氨基酸在该结构中未被确定。为了研究TM1对SGLT1功能的贡献,我们克隆并表征了来自小鼠的SGLT1即mSGLT1的生物物理特性,并将其与在TM1中含有氨基酸替代(F36S)的克隆进行比较。正如预测的那样,两种蛋白都形成了功能性的Na+/糖协同转运蛋白,但与mSGLT1相比,F36S-mSGLT1的糖摄取速率降低,对Na+和糖的表观亲和力也降低。对稳态前电流的分析以及与弧菌SGLT晶体结构的比较提供了合理的机制来解释这两种蛋白功能上的差异。我们的数据表明,TM1中不参与配体结合和转运途径的氨基酸会显著影响钠-葡萄糖载体蛋白的功能特性。

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