旁系同源物特异性决定TRAP1抑制剂的亚细胞分布、作用机制和抗癌活性。

Paralog Specificity Determines Subcellular Distribution, Action Mechanism, and Anticancer Activity of TRAP1 Inhibitors.

作者信息

Park Hye-Kyung, Jeong Hanbin, Ko Eunhwa, Lee Geumwoo, Lee Ji-Eun, Lee Sang Kwang, Lee An-Jung, Im Jin Young, Hu Sung, Kim Seong Heon, Lee Ji Hoon, Lee Changwook, Kang Soosung, Kang Byoung Heon

机构信息

Department of Biological Sciences, Ulsan National Institutes of Science and Technology (UNIST) , Ulsan 44919, South Korea.

New Drug Development Center, Daegu-Gyeongbuk Medical Innovation Foundation (DGMIF) , Daegu 41061, South Korea.

出版信息

J Med Chem. 2017 Sep 14;60(17):7569-7578. doi: 10.1021/acs.jmedchem.7b00978. Epub 2017 Aug 30.

DOI:10.1021/acs.jmedchem.7b00978

PMID:28816449

Abstract

Although Hsp90 inhibitors can inhibit multiple tumorigenic pathways in cancer cells, their anticancer activity has been disappointingly modest. However, by forcing Hsp90 inhibitors into the mitochondria with mitochondrial delivery vehicles, they were converted into potent drugs targeting the mitochondrial Hsp90 paralog TRAP1. Here, to improve mitochondrial drug accumulation without using the mitochondrial delivery vehicle, we increased freely available drug concentrations in the cytoplasm by reducing the binding of the drugs to the abundant cytoplasmic Hsp90. After analyzing X-ray cocrystal structures, the purine ring of the Hsp90 inhibitor 2 (BIIB021) was modified to pyrazolopyrimidine scaffolds. One pyrazolopyrimidine, 12b (DN401), bound better to TRAP1 than to Hsp90, inactivated the mitochondrial TRAP1 in vivo, and it exhibited potent anticancer activity. Therefore, the rationale and feasible guidelines for developing 12b can potentially be exploited to design a potent TRAP1 inhibitor.

摘要

尽管热休克蛋白90（Hsp90）抑制剂能够抑制癌细胞中的多种致瘤途径，但其抗癌活性却一直不尽如人意。然而，通过利用线粒体递送载体将Hsp90抑制剂导入线粒体，它们可转化为靶向线粒体Hsp90旁系同源物TRAP1的强效药物。在此，为了在不使用线粒体递送载体的情况下提高线粒体药物蓄积量，我们通过减少药物与丰富的细胞质Hsp90的结合，增加了细胞质中游离药物的浓度。在分析X射线共晶体结构后，将Hsp90抑制剂2（BIIB021）的嘌呤环修饰为吡唑并嘧啶支架。其中一种吡唑并嘧啶化合物12b（DN401）与TRAP1的结合优于与Hsp90的结合，可在体内使线粒体TRAP1失活，并表现出强效的抗癌活性。因此，开发12b的理论依据和可行指导原则可能被用于设计一种强效的TRAP1抑制剂。

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旁系同源物特异性决定TRAP1抑制剂的亚细胞分布、作用机制和抗癌活性。

Paralog Specificity Determines Subcellular Distribution, Action Mechanism, and Anticancer Activity of TRAP1 Inhibitors.

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