三谷胱甘肽砷[As(GS)3]通过多药耐药蛋白1（MRP1/ABCC1）的转运受到Tyr920/Ser921磷酸化和Asn19/Asn23糖基化的选择性修饰。

Arsenic Triglutathione [As(GS)3] Transport by Multidrug Resistance Protein 1 (MRP1/ABCC1) Is Selectively Modified by Phosphorylation of Tyr920/Ser921 and Glycosylation of Asn19/Asn23.

作者信息

Shukalek Caley B, Swanlund Diane P, Rousseau Rodney K, Weigl Kevin E, Marensi Vanessa, Cole Susan P C, Leslie Elaine M

机构信息

Department of Physiology (C.B.S., D.P.S., R.K.R., V.M., E.M.L.) and Membrane Protein Disease Research Group (C.B.S., D.P.S., R.K.R., V.M., E.M.L.), University of Alberta, Edmonton, Alberta, Canada. Department of Pathology and Molecular Medicine and Division of Cancer Biology and Genetics (K.E.W., S.P.C.C.), Queen's University, Kingston, Ontario, Canada.

出版信息

Mol Pharmacol. 2016 Aug;90(2):127-39. doi: 10.1124/mol.116.103648. Epub 2016 Jun 13.

DOI:10.1124/mol.116.103648

PMID:27297967

Abstract

The ATP-binding cassette (ABC) transporter multidrug resistance protein 1 (MRP1/ABCC1) is responsible for the cellular export of a chemically diverse array of xenobiotics and endogenous compounds. Arsenic, a human carcinogen, is a high-affinity MRP1 substrate as arsenic triglutathione [As(GS)3]. In this study, marked differences in As(GS)3 transport kinetics were observed between MRP1-enriched membrane vesicles prepared from human embryonic kidney 293 (HEK) (Km 3.8 µM and Vmax 307 pmol/mg per minute) and HeLa (Km 0.32 µM and Vmax 42 pmol/mg per minute) cells. Mutant MRP1 lacking N-linked glycosylation [Asn19/23/1006Gln; sugar-free (SF)-MRP1] expressed in either HEK293 or HeLa cells had low Km and Vmax values for As(GS)3, similar to HeLa wild-type (WT) MRP1. When prepared in the presence of phosphatase inhibitors, both WT- and SF-MRP1-enriched membrane vesicles had a high Km value for As(GS)3 (3-6 µM), regardless of the cell line. Kinetic parameters of As(GS)3 for HEK-Asn19/23Gln-MRP1 were similar to those of HeLa/HEK-SF-MRP1 and HeLa-WT-MRP1, whereas those of single glycosylation mutants were like those of HEK-WT-MRP1. Mutation of 19 potential MRP1 phosphorylation sites revealed that HEK-Tyr920Phe/Ser921Ala-MRP1 transported As(GS)3 like HeLa-WT-MRP1, whereas individual HEK-Tyr920Phe- and -Ser921Ala-MRP1 mutants were similar to HEK-WT-MRP1. Together, these results suggest that Asn19/Asn23 glycosylation and Tyr920/Ser921 phosphorylation are responsible for altering the kinetics of MRP1-mediated As(GS)3 transport. The kinetics of As(GS)3 transport by HEK-Asn19/23Gln/Tyr920Glu/Ser921Glu were similar to HEK-WT-MRP1, indicating that the phosphorylation-mimicking substitutions abrogated the influence of Asn19/23Gln glycosylation. Overall, these data suggest that cross-talk between MRP1 glycosylation and phosphorylation occurs and that phosphorylation of Tyr920 and Ser921 can switch MRP1 to a lower-affinity, higher-capacity As(GS)3 transporter, allowing arsenic detoxification over a broad concentration range.

摘要

ATP结合盒（ABC）转运体多药耐药蛋白1（MRP1/ABCC1）负责细胞对外源性和内源性化合物的多种化学物质的输出。砷是一种人类致癌物，作为三谷胱甘肽砷[As(GS)3]是MRP1的高亲和力底物。在本研究中，观察到从人胚肾293（HEK）细胞（Km 3.8 µM，Vmax 307 pmol/mg每分钟）和HeLa细胞（Km 0.32 µM，Vmax 42 pmol/mg每分钟）制备的富含MRP1的膜囊泡之间As(GS)3转运动力学存在显著差异。在HEK293或HeLa细胞中表达的缺乏N-连接糖基化的突变型MRP1[Asn19/23/1006Gln；无糖（SF）-MRP1]对As(GS)3的Km和Vmax值较低，类似于HeLa野生型（WT）MRP1。当在磷酸酶抑制剂存在下制备时，无论细胞系如何，富含WT-和SF-MRP1的膜囊泡对As(GS)3都具有高Km值（3-6 µM）。HEK-Asn19/23Gln-MRP1对As(GS)3的动力学参数与HeLa/HEK-SF-MRP1和HeLa-WT-MRP1相似，而单个糖基化突变体的动力学参数与HEK-WT-MRP1相似。19个潜在的MRP1磷酸化位点的突变表明，HEK-Tyr920Phe/Ser921Ala-MRP1转运As(GS)3的方式类似于HeLa-WT-MRP1，而单个HEK-Tyr920Phe-和-Ser921Ala-MRP1突变体与HEK-WT-MRP1相似。总之，这些结果表明Asn19/Asn23糖基化和Tyr920/Ser921磷酸化负责改变MRP1介导的As(GS)3转运的动力学。HEK-Asn19/23Gln/Tyr920Glu/Ser921Glu对As(GS)3的转运动力学与HEK-WT-MRP1相似，表明模拟磷酸化的取代消除了Asn19/23Gln糖基化的影响。总体而言，这些数据表明MRP1糖基化和磷酸化之间存在相互作用，并且Tyr920和Ser921磷酸化可将MRP1转变为低亲和力、高容量的As(GS)3转运体，从而在广泛的浓度范围内实现砷解毒。

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三谷胱甘肽砷[As(GS)3]通过多药耐药蛋白1（MRP1/ABCC1）的转运受到Tyr920/Ser921磷酸化和Asn19/Asn23糖基化的选择性修饰。

Arsenic Triglutathione [As(GS)3] Transport by Multidrug Resistance Protein 1 (MRP1/ABCC1) Is Selectively Modified by Phosphorylation of Tyr920/Ser921 and Glycosylation of Asn19/Asn23.

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