三磷酸腺苷结合盒转运蛋白 ABCG2 的过表达可能是 BRAF(V600E) 突变型癌细胞对vemurafenib 获得性耐药的机制之一。

Overexpression of ATP-binding cassette transporter ABCG2 as a potential mechanism of acquired resistance to vemurafenib in BRAF(V600E) mutant cancer cells.

机构信息

Department of Physiology and Pharmacology, Chang Gung University, Tao-Yuan 333, Taiwan.

出版信息

Biochem Pharmacol. 2013 Feb 1;85(3):325-34. doi: 10.1016/j.bcp.2012.11.003. Epub 2012 Nov 12.

DOI:10.1016/j.bcp.2012.11.003

PMID:23153455

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3553236/

Abstract

Melanoma is the most serious type of skin cancer with a high potential for metastasis and very low survival rates. The discovery of constitutive activation of the BRAF kinase caused by activating BRAF(V600E) kinase mutation in most melanoma patients led to the discovery of the first potent BRAF(V600E) signaling inhibitor, vemurafenib. Vemurafenib was effective in treating advanced melanoma patients and was proposed for the treatment of other BRAF(V600E) mutant cancers as well. Unfortunately, the success of vemurafenib was hampered by the rapid development of acquired resistance in different types of BRAF(V600E) mutant cancer cells. It becomes important to identify and evaluate all of the potential mechanisms of cellular resistance to vemurafenib. In this study, we characterized the interactions of vemurafenib with three major ATP-binding cassette (ABC) transporters, ABCB1, ABCC1 and ABCG2. We found that vemurafenib stimulated the ATPase activity and potently inhibited drug efflux mediated by ABCB1 and ABCG2. Vemurafenib also restored drug sensitivity in ABCG2-overexpressing cells. Moreover, we revealed that in the presence of functional ABCG2, BRAF kinase inhibition by vemurafenib is reduced in BRAF(V600E) mutant A375 cells. Taken together, our findings indicate that ABCG2 confers resistance to vemurafenib in A375 cells, suggesting involvement of this transporter in acquired resistance to vemurafenib. Thus, combination chemotherapy targeting multiple pathways could be an effective therapeutic strategy to overcome acquired resistance to vemurafenib for cancers harboring the BRAF(V600E) mutation.

摘要

黑色素瘤是最严重的皮肤癌类型，具有很高的转移潜力和非常低的存活率。在大多数黑色素瘤患者中，发现 BRAF 激酶的组成性激活是由 BRAF(V600E)激酶突变引起的，这导致了第一个有效的 BRAF(V600E)信号抑制剂vemurafenib 的发现。vemurafenib 对治疗晚期黑色素瘤患者有效，并被提议用于治疗其他 BRAF(V600E)突变癌症。不幸的是，vemurafenib 的成功受到不同类型 BRAF(V600E)突变癌细胞获得性耐药的迅速发展的阻碍。因此，确定和评估 vemurafenib 的所有潜在细胞耐药机制变得非常重要。在这项研究中，我们研究了 vemurafenib 与三种主要的三磷酸腺苷（ATP）结合盒（ABC）转运蛋白 ABCB1、ABCC1 和 ABCG2 的相互作用。我们发现 vemurafenib 刺激了 ABCB1 和 ABCG2 的 ATP 酶活性，并强烈抑制了由它们介导的药物外排。vemurafenib 还恢复了 ABCG2 过表达细胞的药物敏感性。此外，我们揭示了在功能性 ABCG2 存在的情况下，vemurafenib 对 BRAF(V600E)突变 A375 细胞中的 BRAF 激酶的抑制作用降低。综上所述，我们的研究结果表明，ABCG2 赋予了 A375 细胞对 vemurafenib 的耐药性，这表明该转运蛋白参与了对 vemurafenib 的获得性耐药。因此，针对多个途径的联合化疗可能是克服携带 BRAF(V600E)突变的癌症对 vemurafenib 获得性耐药的有效治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5c4/3553236/2f6c9a2378b9/nihms426567f1.jpg

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