来氟米特及其代谢产物A771726是乳腺癌耐药蛋白（BCRP）的高亲和力底物：对耐药性的影响。

Leflunomide and its metabolite A771726 are high affinity substrates of BCRP: implications for drug resistance.

作者信息

Kis E, Nagy T, Jani M, Molnár E, Jánossy J, Ujhellyi O, Német K, Herédi-Szabó K, Krajcsi P

机构信息

Solvo Biotechnology, Szeged, Hungary.

出版信息

Ann Rheum Dis. 2009 Jul;68(7):1201-7. doi: 10.1136/ard.2007.086264. Epub 2008 Apr 8.

DOI:10.1136/ard.2007.086264

PMID:18397960

Abstract

BACKGROUND

Earlier publications have suggested a possible role for the efflux transporter breast cancer resistance protein (BCRP) in acquired resistance to disease-modifying antirheumatic drugs (DMARDs) such as leflunomide and its metabolite A771726 (teriflunomide). However, there is no direct evidence that BCRP interacts with these drugs.

OBJECTIVES

To characterise the interaction between BCRP transporter and leflunomide and its active metabolite A771726, with emphasis on the nature of the interaction (substrate or inhibitor) and the kinetic characterisation of the interactions.

METHODS

Different in vitro membrane-based methods (ATPase and vesicular transport assay) using BCRP-HAM-Sf9 membrane preparations and cellular assays (Hoechst assay and cytotoxicity assay) were performed on PLB985-BCRP and HEK293-BCRP cell lines overexpressing BCRP.

RESULTS

In all assays used, an interaction between the investigated drugs and BCRP was detected. In the vesicular transport assay, both leflunomide and its metabolite inhibited BCRP-mediated methotrexate transport. Both compounds are likely substrates of BCRP as shown by the vanadate-sensitive ATPase assay. In line with the membrane assays, leflunomide and A771726 inhibited BCRP-mediated Hoechst efflux from PLB985-BCRP cells. In the cytotoxicity assay, overexpression of BCRP conferred 20.6-fold and 7.5-fold resistance to HEK293 cells against leflunomide and A771726, respectively. The resistance could be reversed by Ko134, a specific inhibitor of BCRP.

CONCLUSION

Based on these results, BCRP could play an important role in the resistance to leflunomide and A771726 via interactions with these drugs. BCRP may also mediate drug-drug interactions when leflunomide is administered with other BCRP substrate drugs such as methotrexate.

摘要

背景

早期的出版物表明，外排转运蛋白乳腺癌耐药蛋白（BCRP）可能在对诸如来氟米特及其代谢产物A771726（特立氟胺）等改善病情抗风湿药（DMARDs）的获得性耐药中发挥作用。然而，尚无直接证据表明BCRP与这些药物相互作用。

目的

表征BCRP转运蛋白与来氟米特及其活性代谢产物A771726之间的相互作用，重点是相互作用的性质（底物或抑制剂）以及相互作用的动力学特征。

方法

使用过表达BCRP的PLB985-BCRP和HEK293-BCRP细胞系，采用基于膜的不同体外方法（ATP酶和囊泡转运测定）以及细胞测定（Hoechst测定和细胞毒性测定），利用BCRP-HAM-Sf9膜制剂。

结果

在所有使用的测定中，均检测到所研究药物与BCRP之间的相互作用。在囊泡转运测定中，来氟米特及其代谢产物均抑制BCRP介导的甲氨蝶呤转运。如钒酸盐敏感的ATP酶测定所示，这两种化合物可能都是BCRP的底物。与膜测定一致，来氟米特和A771726抑制BCRP介导的Hoechst从PLB985-BCRP细胞的外排。在细胞毒性测定中，BCRP的过表达使HEK293细胞分别对来氟米特和A771726产生20.6倍和7.5倍的耐药性。这种耐药性可被BCRP的特异性抑制剂Ko134逆转。

结论

基于这些结果，BCRP可能通过与这些药物相互作用在对来氟米特和A771726的耐药中发挥重要作用。当来氟米特与其他BCRP底物药物（如甲氨蝶呤）合用时，BCRP也可能介导药物相互作用。

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来氟米特及其代谢产物A771726是乳腺癌耐药蛋白（BCRP）的高亲和力底物：对耐药性的影响。

Leflunomide and its metabolite A771726 are high affinity substrates of BCRP: implications for drug resistance.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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