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钠偶联中性氨基酸转运体SNAT2介导一种阴离子泄漏电导,该电导受到转运底物的差异性抑制。

The sodium-coupled neutral amino acid transporter SNAT2 mediates an anion leak conductance that is differentially inhibited by transported substrates.

作者信息

Zhang Zhou, Grewer Christof

机构信息

University of Miami School of Medicine, Miami, Florida 33136, USA.

出版信息

Biophys J. 2007 Apr 1;92(7):2621-32. doi: 10.1529/biophysj.106.100776. Epub 2007 Jan 19.

DOI:10.1529/biophysj.106.100776
PMID:17237199
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1864845/
Abstract

The sodium-coupled neutral amino acid transporter SNAT2 mediates cellular uptake of glutamine and other small, neutral amino acids. Here, we report the existence of a leak anion pathway associated with SNAT2. The leak anion conductance was increased by, but did not require the presence of, extracellular sodium. The transported substrates L-alanine, L-glutamine, and alpha-(methylamino)isobutyrate inhibited the anion leak conductance, each with different potency. A transporter with the mutation H-304A did not catalyze alanine transport but still catalyzed anion leak current, demonstrating that substrate transport is not required for anion current inhibition. Both the substrate and Na+ were able to bind to the SNAT2H-304A transporter normally. The selectivity sequence of the SNAT2H-304A anion conductance was SCN->>NO3->I->Br->Cl->Mes-. Anion flux mediated by the more hydrophobic anion SCN- was not saturable, whereas nitrate flux demonstrated saturation kinetics with an apparent Km of 29 mM. SNAT2, which belongs to the SLC38 family of transporters, has to be added to the growing number of secondary, Na+-coupled transporters catalyzing substrate-gated or leak anion conductances. Therefore, we can speculate that such anion-conducting pathways are general features of Na+-transporting systems.

摘要

钠偶联中性氨基酸转运体SNAT2介导细胞对谷氨酰胺和其他小型中性氨基酸的摄取。在此,我们报告存在一种与SNAT2相关的渗漏阴离子途径。渗漏阴离子电导可被细胞外钠增强,但并不依赖细胞外钠的存在。转运底物L-丙氨酸、L-谷氨酰胺和α-(甲基氨基)异丁酸可抑制阴离子渗漏电导,但其抑制效力各不相同。具有H-304A突变的转运体不能催化丙氨酸转运,但仍能催化阴离子渗漏电流,这表明抑制阴离子电流并不需要底物转运。底物和Na+均可正常结合到SNAT2H-304A转运体上。SNAT2H-304A阴离子电导的选择性顺序为SCN- >> NO3- > I- > Br- > Cl- > Mes-。疏水性更强的阴离子SCN-介导的阴离子通量不饱和,而硝酸盐通量表现出饱和动力学,其表观Km为29 mM。属于SLC38转运体家族的SNAT2必须被添加到越来越多的催化底物门控或渗漏阴离子电导的次级钠偶联转运体中。因此,我们可以推测这种阴离子传导途径是钠转运系统的普遍特征。

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