二羧酸盐抑制剂对Na⁺/柠檬酸盐转运体NaCT（SLC13A5）的抑制作用的分子基础

Molecular Basis for Inhibition of the Na+/Citrate Transporter NaCT (SLC13A5) by Dicarboxylate Inhibitors.

作者信息

Pajor Ana M, de Oliveira Cesar A, Song Kun, Huard Kim, Shanmugasundaram Veerabahu, Erion Derek M

机构信息

University of California San Diego (A.M.P.), Skaggs School of Pharmacy and Pharmaceutical Sciences, La Jolla, California; Cardiovascular, Metabolic and Endocrine Disease Research Unit (K.S., K.H., D.M.E.), Pfizer Worldwide Research and Development, Cambridge, Massachusetts; Center of Chemistry Innovation and Excellence (C.A.O., V.S.), Pfizer Worldwide Research and Development, Groton, Connecticut

出版信息

Mol Pharmacol. 2016 Dec;90(6):755-765. doi: 10.1124/mol.116.105049. Epub 2016 Sep 28.

DOI:10.1124/mol.116.105049

PMID:27683012

Abstract

The Na/citrate transporter, NaCT (SLC13A5), is a therapeutic target for metabolic diseases. Citrate is an important signaling molecule that regulates the activity of lipid- and glucose-metabolizing enzymes in cells. Previous studies identified two compounds, PF-06649298 (compound 2: ) and PF-06678419 (compound 4: ), that inhibit human NaCT with high affinity, and one of the compounds demonstrated specificity relative to other SLC13 family members. Here we use molecular modeling and site-directed mutagenesis of hNaCT followed by transport characterization and cell-surface biotinylation to examine the residues involved in inhibitor binding and transport. The results indicate that residues located near the putative citrate binding site, G228, V231, V232, and G409, affect both citrate transport and inhibition of citrate uptake by compounds 2: and 4: V231 appears to distinguish between compounds 2: and 4: as inhibitors. Furthermore, residues located outside of the putative citrate binding site, Q77 and T86, may also play a role in NaCT inhibition by compounds 2: and 4: Our results provide new insight into the mechanism of transport and inhibition in NaCT and the SLC13 family. These findings should provide a basis for future drug design of SLC13 inhibitors.

摘要

钠/柠檬酸盐转运体NaCT（SLC13A5）是代谢疾病的治疗靶点。柠檬酸盐是一种重要的信号分子，可调节细胞中脂质和葡萄糖代谢酶的活性。先前的研究鉴定出两种化合物，PF-06649298（化合物2）和PF-06678419（化合物4），它们以高亲和力抑制人NaCT，并且其中一种化合物相对于其他SLC13家族成员表现出特异性。在这里，我们对hNaCT进行分子建模和定点诱变，随后进行转运特性分析和细胞表面生物素化，以研究参与抑制剂结合和转运的残基。结果表明，位于假定的柠檬酸盐结合位点附近的残基G228、V231、V232和G409，会影响柠檬酸盐转运以及化合物2和4对柠檬酸盐摄取的抑制作用；V231似乎可区分化合物2和4作为抑制剂的作用。此外，位于假定的柠檬酸盐结合位点之外的残基Q77和T86，可能也在化合物2和4对NaCT的抑制中发挥作用。我们的结果为NaCT和SLC13家族的转运和抑制机制提供了新的见解。这些发现应为未来SLC13抑制剂的药物设计提供依据。

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二羧酸盐抑制剂对Na⁺/柠檬酸盐转运体NaCT（SLC13A5）的抑制作用的分子基础

Molecular Basis for Inhibition of the Na+/Citrate Transporter NaCT (SLC13A5) by Dicarboxylate Inhibitors.

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