p38丝裂原活化蛋白激酶依赖性Nrf2诱导增强胶质瘤细胞对替莫唑胺的抗性。

p38 MAPK-dependent Nrf2 induction enhances the resistance of glioma cells against TMZ.

作者信息

Ma Leina, Liu Jia, Zhang Xinling, Qi Jieqiong, Yu Wengong, Gu Yuchao

机构信息

Key Laboratory of Marine Drugs, Chinese Ministry of Education; Key Laboratory of Glycoscience and Glycotechnology of Shandong Province; School of Medicine and Pharmacy, Ocean University of China, 5 Yushan Road, Qingdao, 266003, China.

出版信息

Med Oncol. 2015 Mar;32(3):69. doi: 10.1007/s12032-015-0517-y. Epub 2015 Feb 19.

DOI:10.1007/s12032-015-0517-y

PMID:25691294

Abstract

Temozolomide (TMZ) is an effective agent for clinical glioma treatment, but the innate and acquired resistance of glioma always limits its application. Although some advances have been achieved to elucidate the molecular mechanism underlying TMZ resistance, the role of Nrf2 (a principle regulator of cellular defense against drugs and oxidative stress) has not been well established in the acquisition of this phenotype. Our data showed that TMZ treatment induces the activation of Nrf2 and p38 MAPK signaling in glioma cells, while p38 inhibition abolished the effect of TMZ on Nrf2. Further study revealed that Nrf2 silencing was able to enhance the response of glioma cells to TMZ. Additionally, Nrf2 overexpression overrides the effect of p38 MAPK activation on Temozolomide resistance. In conclusions, we identified a p38 MAPK/Nrf2 signaling as a key molecular network contributing to TMZ resistance of glioma, and provided evidence that suppressing this signaling may be a promising strategy to improve TMZ's therapeutic efficiency.

摘要

替莫唑胺（TMZ）是临床治疗神经胶质瘤的一种有效药物，但神经胶质瘤的固有耐药性和获得性耐药性一直限制着其应用。尽管在阐明TMZ耐药的分子机制方面已取得了一些进展，但Nrf2（细胞抵御药物和氧化应激的主要调节因子）在这种表型获得过程中的作用尚未完全明确。我们的数据表明，TMZ处理可诱导神经胶质瘤细胞中Nrf2和p38丝裂原活化蛋白激酶（MAPK）信号的激活，而抑制p38可消除TMZ对Nrf2的作用。进一步研究表明，沉默Nrf2能够增强神经胶质瘤细胞对TMZ的反应。此外，Nrf2过表达可消除p38 MAPK激活对替莫唑胺耐药性的影响。总之，我们确定p38 MAPK/Nrf2信号是导致神经胶质瘤对TMZ耐药的关键分子网络，并提供证据表明抑制该信号可能是提高TMZ治疗效果的一种有前景的策略。

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p38丝裂原活化蛋白激酶依赖性Nrf2诱导增强胶质瘤细胞对替莫唑胺的抗性。

p38 MAPK-dependent Nrf2 induction enhances the resistance of glioma cells against TMZ.

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