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确定钠离子/单羧酸共转运体SMCT1的精确化学计量。

Establishing a definitive stoichiometry for the Na+/monocarboxylate cotransporter SMCT1.

作者信息

Coady Michael J, Wallendorff Bernadette, Bourgeois Francis, Charron Francois, Lapointe Jean-Yves

机构信息

Groupe d'étude des protéines membranaires and Département de Physique, Université de Montréal, Montréal, Canada.

出版信息

Biophys J. 2007 Oct 1;93(7):2325-31. doi: 10.1529/biophysj.107.108555. Epub 2007 May 25.

DOI:10.1529/biophysj.107.108555
PMID:17526579
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1965447/
Abstract

Several different stoichiometries have been proposed for the Na(+)/monocarboxylate cotransporter SMCT1, including variable Na(+)/substrate stoichiometry. In this work, we have definitively established an invariant 2:1 cotransport stoichiometry for SMCT1. By using two independent means of assay, we first showed that SMCT1 exhibits a 2:1 stoichiometry for Na(+)/lactate cotransport. Radiolabel uptake experiments proved that, unlike lactate, propionic acid diffuses passively through oocyte membranes and, consequently, propionate is a poor candidate for stoichiometric determination by these methods. Although we previously determined SMCT1 stoichiometry by measuring reversal potentials, this technique produced erroneous values, because SMCT1 simultaneously mediates both an inwardly rectifying cotransport current and an outwardly rectifying anionic leak current; the leak current predominates in the range where reversal potentials are observed. We therefore employed a method that compared the effect of halving the external Na(+) concentration to the effect of halving the external substrate concentration on zero-current potentials. Both lactate and propionate were cotransported through SMCT1 using 2:1 stoichiometries. The leak current passing through the protein has a 1 osmolyte/charge stoichiometry. Identification of cotransporter stoichiometry is not always a trivial task and it can lead to a much better understanding of the transport activity mediated by the protein in question.

摘要

关于钠(+)/单羧酸共转运体SMCT1,已经提出了几种不同的化学计量关系,包括可变的钠(+)/底物化学计量关系。在这项研究中,我们最终确定了SMCT1固定的2:1共转运化学计量关系。通过使用两种独立的测定方法,我们首先表明SMCT1在钠(+)/乳酸共转运中表现出2:1的化学计量关系。放射性标记摄取实验证明,与乳酸不同,丙酸可被动扩散穿过卵母细胞膜,因此,丙酸盐不是通过这些方法进行化学计量测定的理想候选物。尽管我们之前通过测量反转电位来确定SMCT1的化学计量关系,但该技术产生了错误的值,因为SMCT1同时介导内向整流共转运电流和外向整流阴离子泄漏电流;在观察到反转电位的范围内,泄漏电流占主导。因此,我们采用了一种方法,该方法比较了将外部钠(+)浓度减半与将外部底物浓度减半对零电流电位的影响。乳酸和丙酸盐均以2:1的化学计量关系通过SMCT1进行共转运。通过该蛋白的泄漏电流具有1渗透物/电荷的化学计量关系。确定共转运体的化学计量关系并非总是一项简单的任务,它可以使我们更好地理解所讨论的蛋白介导的转运活性。

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