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单羧酸转运蛋白MCT1中螺旋4和螺旋5之间的环对于底物选择和蛋白质稳定性很重要。

The loop between helix 4 and helix 5 in the monocarboxylate transporter MCT1 is important for substrate selection and protein stability.

作者信息

Galić Sandra, Schneider Hans-Peter, Bröer Angelika, Deitmer Joachim W, Bröer Stefan

机构信息

School of Biochemistry & Molecular Biology, Australian National University, Canberra ACT 0200, Australia.

出版信息

Biochem J. 2003 Dec 1;376(Pt 2):413-22. doi: 10.1042/BJ20030799.

DOI:10.1042/BJ20030799
PMID:12946269
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1223779/
Abstract

Transport of lactate, pyruvate and the ketone bodies acetoacetate and beta-hydroxybutyrate, is mediated in most mammalian cells by members of the monocarboxylate transporter family (SLC16). A conserved signature sequence has been identified in this family, which is located in the loop between helix 4 and helix 5 and extends into helix 5. We have mutated residues in this signature sequence in the rat monocarboxylate transporter (MCT1) to elucidate the significance of this region for monocarboxylate transport. Mutation of R143 and G153 resulted in complete inactivation of the transporter. For the MCT1(G153V) mutant this was explained by a failure to reach the plasma membrane. The lack of transport activity of MCT1(R143Q) could be partially rescued by the conservative exchange R143H. The resulting mutant transporter displayed reduced stability, a decreased V (max) of lactate transport but not of acetate transport, and an increased stereoselectivity. Mutation of K137, K141 and K142 indicated that only K142 played a significant role in the transport mechanism. Mutation of K142 to glutamine resulted in an increase of the K (m) for lactate from 5 mM to 12 mM. In contrast with MCT1(R143H), MCT1(K142Q) was less stereoselective than the wild-type. A mechanism is proposed that includes all critical residues.

摘要

在大多数哺乳动物细胞中,乳酸、丙酮酸以及酮体乙酰乙酸和β-羟基丁酸的转运是由单羧酸转运体家族(SLC16)的成员介导的。在这个家族中已鉴定出一个保守的特征序列,它位于第4螺旋和第5螺旋之间的环中,并延伸至第5螺旋。我们对大鼠单羧酸转运体(MCT1)中这个特征序列的残基进行了突变,以阐明该区域对单羧酸转运的重要性。R143和G153的突变导致转运体完全失活。对于MCT1(G153V)突变体,这是由于未能到达质膜所致。MCT1(R143Q)缺乏转运活性可通过保守替换R143H得到部分挽救。所得的突变转运体稳定性降低,乳酸转运的V(max)降低,但乙酸转运的V(max)未降低,且立体选择性增加。K137、K141和K142的突变表明只有K142在转运机制中起重要作用。K142突变为谷氨酰胺导致乳酸的K(m)从5 mM增加到12 mM。与MCT1(R143H)相反,MCT1(K142Q)的立体选择性低于野生型。提出了一种包含所有关键残基的机制。

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