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基于流式细胞术研究ABCG2功能的方法表明,该转运蛋白对药物的流入和流出有不同的处理方式。

Flow cytometry-based approach to ABCG2 function suggests that the transporter differentially handles the influx and efflux of drugs.

作者信息

García-Escarp Marta, Martínez-Muñoz Vanessa, Sales-Pardo Irene, Barquinero Jordi, Domingo Joan Carles, Marin Pedro, Petriz Jordi

机构信息

Unitat de Diagnòstic i Teràpia Molecular, Centre de Transfusió i Banc de Teixits, Barcelona, Spain.

出版信息

Cytometry A. 2004 Dec;62(2):129-38. doi: 10.1002/cyto.a.20072.

DOI:10.1002/cyto.a.20072
PMID:15517563
Abstract

BACKGROUND

To better characterize the function of the ABCG2 transporter in vitro, we generated three cell lines (MXRA, MXRG, and MXRT) stably expressing ABCG2 after transfection of wild-type ABCG2 and two mutants (R482G and R482T), respectively.

METHODS

ABCG2 expression and function were analyzed by flow cytometry using monoclonal antibodies, a variety of fluorescent substrates, and a series of potential inhibitors of the transporter.

RESULTS

ABCG2 expression was detected in all cell lines. The cell lines effluxed mitoxantrone (MXR), but only the mutants effluxed rhodamine 123 (Rho123), SYTO13, doxorubicin, and daunorubicin. After incubation with MXR, intracellular accumulations were 9- and 22-fold higher in MXRA than in MXRT and MXRG cells, respectively, suggesting that ABCG2 also modulates the influx rate of the drug. Flow cytometry kinetic studies of MXR efflux showed that MXRG cells effluxed 50% of the drug at a faster rate than MXRA and MXRT cells (t50: 15.3 min vs. 27.8 and 44.5 min, respectively). MXRG cells also extruded Rho123 and SYTO13 at a faster rate than MXRT cells. ABCG2-mediated transport was inhibited by fumitremorgin C, cyclosporine A, and PSC-833, but not by verapamil or probenecid. MXRG cells displayed the highest level of resistance to MXR, doxorubicin, and daunorubicin in the cytotoxicity assays.

CONCLUSIONS

Glycine mutations at position 482 have a significant impact on ABCG2 function by modifying its substrate specificity and its influx/efflux rates. This study also demonstrates that flow cytometry constitutes a powerful tool for the kinetic analysis of ABC transporters.

摘要

背景

为了在体外更好地表征ABCG2转运蛋白的功能,我们分别转染野生型ABCG2和两个突变体(R482G和R482T)后,生成了三个稳定表达ABCG2的细胞系(MXRA、MXRG和MXRT)。

方法

使用单克隆抗体、多种荧光底物和一系列该转运蛋白的潜在抑制剂,通过流式细胞术分析ABCG2的表达和功能。

结果

在所有细胞系中均检测到ABCG2的表达。这些细胞系能外排米托蒽醌(MXR),但只有突变体细胞系能外排罗丹明123(Rho123)、SYTO13、阿霉素和柔红霉素。与MXR孵育后,MXRA细胞内的蓄积量分别比MXRT和MXRG细胞高9倍和22倍,这表明ABCG2也调节药物的内流速率。MXR外排的流式细胞术动力学研究表明,MXRG细胞外排50%药物的速率比MXRA和MXRT细胞快(t50:分别为15.3分钟、27.8分钟和44.5分钟)。MXRG细胞外排Rho123和SYTO13的速率也比MXRT细胞快。ABCG2介导的转运受到烟曲霉素C、环孢素A和PSC - 833的抑制,但不受维拉帕米或丙磺舒的抑制。在细胞毒性试验中,MXRG细胞对MXR、阿霉素和柔红霉素表现出最高水平的抗性。

结论

482位的甘氨酸突变通过改变其底物特异性及其内流/外排速率,对ABCG2功能产生显著影响。本研究还证明,流式细胞术是ABCG转运蛋白动力学分析的有力工具。

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