靶向黑色素瘤中的线粒体：MAPK 信号通路与线粒体动态之间的相互作用。

Targeting mitochondria in melanoma: Interplay between MAPK signaling pathway and mitochondrial dynamics.

机构信息

Centro de Ciências Naturais e Humanas (CCNH), Universidade Federal do ABC (UFABC), Santo André, SP, Brazil.

Centro Interdisciplinar de Investigação Bioquímica (CIIB), Universidade de Mogi das Cruzes (UMC), Mogi das Cruzes, SP, Brazil.

出版信息

Biochem Pharmacol. 2020 Aug;178:114104. doi: 10.1016/j.bcp.2020.114104. Epub 2020 Jun 17.

DOI:10.1016/j.bcp.2020.114104

PMID:32562785

Abstract

Melanoma is a malignant proliferative disease originated in melanocytes, characterized by high metastatic activity and by the activation of oncogenes, such as B-RAF (40-60% of cases). Recent studies have shown that vemurafenib (a MAPK inhibitor) promoted disturbance of mitochondrial bioenergetics, although underlying mechanisms are not fully comprehended. Here we showed that MAPK inhibition by vemurafenib in B-RAF-mutated human melanoma culminated in the inhibition of DRP1 phosphorylation, associated to a large mitochondrial network remodeling to the hyperfused phenotype, and increased oxidative phosphorylation capacity. Such alterations may be associated to melanoma resistance to vemurafenib, since the impairment of oxidative phosphorylation increased the vemurafenib cytotoxicity. These results point to the potential of mitochondrial dynamics as a targetable pathway in melanoma.

摘要

黑色素瘤是一种起源于黑素细胞的恶性增殖性疾病，其特征是高转移性和癌基因的激活，如 B-RAF（占病例的 40-60%）。最近的研究表明，威罗非尼（一种 MAPK 抑制剂）促进了线粒体生物能量的紊乱，尽管其潜在机制尚未完全理解。在这里，我们表明，威罗非尼对 B-RAF 突变型人类黑色素瘤中的 MAPK 的抑制最终导致 DRP1 磷酸化的抑制，与大型线粒体网络重塑为超融合表型和增加氧化磷酸化能力相关。这些改变可能与黑色素瘤对威罗非尼的耐药性有关，因为氧化磷酸化的损害增加了威罗非尼的细胞毒性。这些结果表明线粒体动力学作为黑色素瘤的一个潜在可靶向途径。

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靶向黑色素瘤中的线粒体：MAPK 信号通路与线粒体动态之间的相互作用。

Targeting mitochondria in melanoma: Interplay between MAPK signaling pathway and mitochondrial dynamics.

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