IDH1 突变通过 GSH 耗竭和 ROS 生成抑制神经胶质瘤细胞的生长。

An IDH1 mutation inhibits growth of glioma cells via GSH depletion and ROS generation.

机构信息

Department of Neurosurgery, Affiliated Hospital of Nantong University, 20 Xisi Road, Nantong, 226001, Jiangsu, People's Republic of China.

出版信息

Neurol Sci. 2014 Jun;35(6):839-45. doi: 10.1007/s10072-013-1607-2. Epub 2013 Dec 22.

DOI:10.1007/s10072-013-1607-2

PMID:24362902

Abstract

The isocitrate dehydrogenase 1 (IDH1) gene mutation occurs frequently in glioma. While some studies have demonstrated that IDH1 mutations are associated with prolonged survival, the mechanism remains unclear. In this study, we found that growth was significantly inhibited in glioma cells overexpressing the mutated IDH1 gene. Furthermore, these cells were characterized by decreased intracellular NADPH levels accompanied by glutathione (GSH) depletion and reactive oxygen species (ROS) generation. Moreover, the increased apoptosis and the decreased proliferation were found in the glioma cells overexpressing the mutant IDH1 gene. Accordingly, our study demonstrates that using H2O2-regulated mutant IDH1 glioma cells could obviously increase the inhibition of cell growth; nevertheless, GSH had the opposite result. Our study provides direct evidence that mutation of IDH1 profoundly inhibits the growth of glioma cells, and we speculate that this is the major factor behind its association with prolonged survival in glioma. Finally, our study indicates that depletion of GSH and generation of ROS are the primary cellular events associated with this mutation.

摘要

异柠檬酸脱氢酶 1（IDH1）基因突变在神经胶质瘤中经常发生。虽然一些研究表明 IDH1 突变与生存时间延长有关，但机制尚不清楚。在这项研究中，我们发现过表达突变 IDH1 基因的神经胶质瘤细胞的生长受到明显抑制。此外，这些细胞的特征是细胞内 NADPH 水平降低，同时谷胱甘肽（GSH）耗竭和活性氧（ROS）生成增加。此外，在过表达突变 IDH1 的神经胶质瘤细胞中发现细胞凋亡增加和增殖减少。因此，我们的研究表明，使用 H2O2 调节的突变 IDH1 神经胶质瘤细胞可以明显增加对细胞生长的抑制；然而，GSH 则有相反的结果。我们的研究提供了直接证据，表明 IDH1 的突变深刻抑制了神经胶质瘤细胞的生长，我们推测这是其与神经胶质瘤患者生存时间延长相关的主要因素。最后，我们的研究表明，GSH 的耗竭和 ROS 的生成是与该突变相关的主要细胞事件。

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IDH1 突变通过 GSH 耗竭和 ROS 生成抑制神经胶质瘤细胞的生长。

An IDH1 mutation inhibits growth of glioma cells via GSH depletion and ROS generation.

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