FoxM1通过激活FoxM1/PHB1/RAF-MEK-ERK信号通路及增强ABCA2转运蛋白诱导紫杉醇耐药。

FoxM1 Induced Paclitaxel Resistance via Activation of the FoxM1/PHB1/RAF-MEK-ERK Pathway and Enhancement of the ABCA2 Transporter.

作者信息

Huang Chao, Zhang Xin, Jiang Li, Zhang Limin, Xiang Ming, Ren Hongyu

机构信息

Department of Pharmacology, School of Pharmacy, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430030, China.

Hepatic Surgery Center, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430030, China.

出版信息

Mol Ther Oncolytics. 2019 May 21;14:196-212. doi: 10.1016/j.omto.2019.05.005. eCollection 2019 Sep 27.

DOI:10.1016/j.omto.2019.05.005

PMID:31334335

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6616481/

Abstract

FoxM1 amplification in human pancreatic cancer predicts poor prognosis and resistance to paclitaxel. Here, a novel role between FoxM1 (FoxM1b and FoxM1c) and Prohibitin1 (PHB1) in paclitaxel resistance has been identified. We adopted a bioinformatics approach to predict the potential effector of FoxM1. It specifically bound to the promoter of PHB1, and it enhanced PHB1 expression at transcriptional and post-transcriptional levels. FoxM1 contributed to the PHB1/C-RAF interaction and phosphorylation of ERK1/2 kinases, thus promoting paclitaxel resistance. Notably, FoxM1 conferred tumor cell resistance to paclitaxel, but knocking down PHB1 could sensitize pancreatic cancer cells to it. Besides, we identified that ABCA2 promoted paclitaxel resistance under the regulation of FoxM1/PHB1/RAF-MEK-ERK. Thiostrepton, an inhibitor of FoxM1, significantly decreased the expression of PHB1, -ERK1/2, and ABCA2. It increased the influx of paclitaxel into the cell, and it attenuated FoxM1-mediated paclitaxel resistance and . Collectively, our findings defined PHB1 as an important downstream effector of FoxM1. It was regulated by FoxM1 to maintain phosphorylation of ERK1/2 in drug-resistant cells, and FoxM1 simultaneously enhanced the function of ABCA2, which collectively contributed to paclitaxel resistance. Targeting FoxM1 and its downstream effector PHB1 increased the sensitivity of pancreatic cells to paclitaxel treatment, providing potential therapeutic strategies for patients with paclitaxel resistance.

摘要

人类胰腺癌中的FoxM1扩增预示着预后不良和对紫杉醇耐药。在此，已确定FoxM1（FoxM1b和FoxM1c）与抗增殖蛋白1（PHB1）在紫杉醇耐药中存在新的作用关系。我们采用生物信息学方法预测FoxM1的潜在效应分子。它特异性结合PHB1的启动子，并在转录和转录后水平增强PHB1表达。FoxM1促进PHB1/C-RAF相互作用以及ERK1/2激酶的磷酸化，从而促进紫杉醇耐药。值得注意的是，FoxM1赋予肿瘤细胞对紫杉醇的耐药性，但敲低PHB1可使胰腺癌细胞对其敏感。此外，我们发现ABCA2在FoxM1/PHB1/RAF-MEK-ERK的调控下促进紫杉醇耐药。硫链丝菌素，一种FoxM1抑制剂，显著降低PHB1、ERK1/2和ABCA2的表达。它增加紫杉醇进入细胞的量，并减弱FoxM1介导的紫杉醇耐药性。总体而言，我们的研究结果将PHB1定义为FoxM1的重要下游效应分子。它受FoxM1调控以维持耐药细胞中ERK1/2的磷酸化，并且FoxM1同时增强ABCA2的功能，这些共同导致紫杉醇耐药。靶向FoxM1及其下游效应分子PHB1可增加胰腺细胞对紫杉醇治疗的敏感性，为紫杉醇耐药患者提供潜在的治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ad05/6616481/3cfe56cb51b8/gr1.jpg

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FoxM1通过激活FoxM1/PHB1/RAF-MEK-ERK信号通路及增强ABCA2转运蛋白诱导紫杉醇耐药。

FoxM1 Induced Paclitaxel Resistance via Activation of the FoxM1/PHB1/RAF-MEK-ERK Pathway and Enhancement of the ABCA2 Transporter.

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