MRP2-Mediated Reduced Glutathione Transport in Protection Against Oxidant Stress

N. Ballatori, C. Hammond, J. Cunningham
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引用次数: 1

Abstract

Although the primary physiological role of multidrug resistance-associated protein 2 (MRP2) appears to be the export of a wide variety of organic molecules from the cell, including glutathione disulfide (GSSG) and glutathione S-conjugates, there is now strong evidence that MRP2 also is able to export reduced glutathione (GSH) from the cell. The ability to export both GSH and GSSG would allow MRP2 to contribute directly to the regulation of the cellular thiol-redox status and therefore to the protection against oxidative stress. In addition, because GSH export is intimately linked to the other biological functions of this tripeptide, MRP2 may contribute to the regulation of these other cellular functions. Evidence for a role of MRP2 in GSH export comes from several studies, including (a) studies in MRP2-deficient rats demonstrating that these animals are unable to transport GSH into bile; (b) in vivo and in vitro studies demonstrating that cellular GSH export rates correlate with MRP2 expression levels; (c) comparative studies with the yeast orthologue of MRP2, Ycflp, showing that the yeast orthologue functions as an ATP-driven GSH transporter; (d) direct measurement of ATP-dependent GSH transport in rat liver canalicular membrane vesicles; and (e) studies with MRP1, the functional orthologue of MRP2, demonstrating that MRP1 is able to transport GSH. Taken together these data indicate that GSH is a substrate for MRP2; however, neither the precise biochemical mechanism of transport nor the quantitative significance of this process is yet known.
mrp2介导的还原性谷胱甘肽转运在抗氧化应激中的作用
虽然多药耐药相关蛋白2 (MRP2)的主要生理作用似乎是从细胞中输出各种有机分子,包括谷胱甘肽二硫(GSSG)和谷胱甘肽s偶联物,但现在有强有力的证据表明,MRP2也能够从细胞中输出还原型谷胱甘肽(GSH)。输出GSH和GSSG的能力将允许MRP2直接参与细胞硫醇氧化还原状态的调节,从而防止氧化应激。此外,由于GSH输出与该三肽的其他生物学功能密切相关,MRP2可能有助于这些其他细胞功能的调节。MRP2在GSH输出中的作用的证据来自几项研究,包括(a) MRP2缺陷大鼠的研究表明,这些动物无法将GSH转运到胆汁中;(b)体内和体外研究表明,细胞GSH输出率与MRP2表达水平相关;(c)与MRP2的酵母同源物Ycflp的比较研究表明,酵母同源物作为atp驱动的GSH转运体;(d)直接测定大鼠肝小管膜囊中atp依赖性谷胱甘肽的转运;(e) MRP1的研究,MRP2的功能同源物,表明MRP1能够运输GSH。综上所述,这些数据表明GSH是MRP2的底物;然而,运输的精确生化机制和这一过程的定量意义尚不清楚。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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