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本文引用的文献

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Interactions of the human multidrug resistance proteins MRP1 and MRP2 with organic anions.人类多药耐药蛋白MRP1和MRP2与有机阴离子的相互作用。
Mol Pharmacol. 2000 Apr;57(4):760-8. doi: 10.1124/mol.57.4.760.
2
In vitro transepithelial drug transport by on-line measurement: cellular control of paracellular and transcellular transport.通过在线测量进行体外跨上皮药物转运:细胞对细胞旁转运和跨细胞转运的控制
J Pharm Sci. 1999 Dec;88(12):1340-7. doi: 10.1021/js980497z.
3
Drug resistance and ATP-dependent conjugate transport mediated by the apical multidrug resistance protein, MRP2, permanently expressed in human and canine cells.由顶端多药耐药蛋白MRP2介导的耐药性和ATP依赖性共轭转运,在人和犬类细胞中永久表达。
Mol Pharmacol. 1999 May;55(5):929-37.
4
Canalicular multispecific organic anion transporter/multidrug resistance protein 2 mediates low-affinity transport of reduced glutathione.胆小管多特异性有机阴离子转运体/多药耐药蛋白2介导还原型谷胱甘肽的低亲和力转运。
Biochem J. 1999 Mar 1;338 ( Pt 2)(Pt 2):393-401.
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Multidrug resistance mediated by the ATP-binding cassette transporter protein MRP.由ATP结合盒转运蛋白MRP介导的多药耐药性。
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Characterization of vincristine transport by the M(r) 190,000 multidrug resistance protein (MRP): evidence for cotransport with reduced glutathione.分子量为190,000的多药耐药蛋白(MRP)介导长春新碱转运的特性:与谷胱甘肽协同转运的证据
Cancer Res. 1998 Nov 15;58(22):5130-6.
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Functional multidrug resistance protein (MRP1) lacking the N-terminal transmembrane domain.缺乏N端跨膜结构域的功能性多药耐药蛋白(MRP1)。
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8
Drug export activity of the human canalicular multispecific organic anion transporter in polarized kidney MDCK cells expressing cMOAT (MRP2) cDNA.在表达cMOAT(MRP2)cDNA的极化肾MDCK细胞中人类胆小管多特异性有机阴离子转运体的药物输出活性。
J Clin Invest. 1998 Apr 1;101(7):1310-9. doi: 10.1172/JCI119886.
9
Functional analysis of a canalicular multispecific organic anion transporter cloned from rat liver.从大鼠肝脏克隆的胆小管多特异性有机阴离子转运体的功能分析
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10
Evidence that the multidrug resistance protein (MRP) functions as a co-transporter of glutathione and natural product toxins.多药耐药蛋白(MRP)作为谷胱甘肽和天然产物毒素的协同转运蛋白的证据。
Cancer Res. 1997 Dec 1;57(23):5232-7.

多药耐药蛋白MRP2介导的长春碱和磺吡酮的外排与谷胱甘肽的外排相关。

Vinblastine and sulfinpyrazone export by the multidrug resistance protein MRP2 is associated with glutathione export.

作者信息

Evers R, de Haas M, Sparidans R, Beijnen J, Wielinga P R, Lankelma J, Borst P

机构信息

Division of Molecular Biology and Center of Biomedical Genetics, The Netherlands Cancer Institute, Amsterdam.

出版信息

Br J Cancer. 2000 Aug;83(3):375-83. doi: 10.1054/bjoc.2000.1262.

DOI:10.1054/bjoc.2000.1262
PMID:10917554
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2374564/
Abstract

The multidrug resistance proteins MRP1 and MRP2 are members of the same subfamily of ATP-binding cassette transporters. Besides organic molecules conjugated to negatively charged ligands, these proteins also transport cytotoxic drugs for which no negatively charged conjugates are known to exist. In polarized MDCKII cells, MRP1 routes to the lateral plasma membrane, and MRP2 to the apical plasma membrane. In these cells MRP1 transports daunorubicin, and MRP2 vinblastine; both transporters export reduced glutathione (GSH) into the medium. We demonstrate that glutathione transport in MDCKII-MRP1 cells is inhibited by the inhibitors of organic anion transporters sulfinpyrazone, indomethacin, probenecid and benzbromarone. In MDCKII-MRP2 cells, GSH export is stimulated by low concentrations of sulfinpyrazone or indomethacin, whereas export is inhibited down to control levels at high concentrations. We find that unmodified sulfinpyrazone is a substrate for MRP2, also at concentrations where GSH export is inhibited. We also show that GSH export in MDCKII-MRP2 cells increases in the presence of vinblastine, and that the stoichiometry between drug and GSH exported is between two and three. Our data indicate that transport of sulfinpyrazone and vinblastine is associated with GSH export. However, at high sulfinpyrazone concentrations this compound is transported without GSH. Models of MRP action are discussed that could explain these results.

摘要

多药耐药蛋白MRP1和MRP2是ATP结合盒转运体同一家族的成员。除了与带负电荷配体结合的有机分子外,这些蛋白还转运细胞毒性药物,目前尚无已知的带负电荷的共轭物。在极化的MDCKII细胞中,MRP1定位于侧质膜,而MRP2定位于顶质膜。在这些细胞中,MRP1转运柔红霉素,MRP2转运长春碱;两种转运体都将还原型谷胱甘肽(GSH)分泌到培养基中。我们证明,MDCKII-MRP1细胞中的谷胱甘肽转运受到有机阴离子转运体抑制剂磺吡酮、吲哚美辛、丙磺舒和苯溴马隆的抑制。在MDCKII-MRP2细胞中,低浓度的磺吡酮或吲哚美辛刺激GSH分泌,而高浓度时分泌受到抑制,降至对照水平。我们发现,未修饰的磺吡酮也是MRP2的底物,即使在GSH分泌受到抑制的浓度下也是如此。我们还表明,在长春碱存在的情况下,MDCKII-MRP2细胞中的GSH分泌增加,药物与分泌的GSH之间的化学计量比在2到3之间。我们的数据表明,磺吡酮和长春碱的转运与GSH分泌有关。然而,在高浓度的磺吡酮下,该化合物的转运无需GSH。文中讨论了可以解释这些结果的MRP作用模型。