DNA hypomethylator phenotype reprograms glutamatergic network in receptor tyrosine kinase gene-mutated glioblastoma
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Published:2024-03-13
Issue:1
Volume:12
Page:
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ISSN:2051-5960
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Container-title:Acta Neuropathologica Communications
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language:en
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Short-container-title:acta neuropathol commun
Author:
Harachi Mio, Masui KentaORCID, Shimizu Erika, Murakami Kumiko, Onizuka Hiromi, Muragaki Yoshihiro, Kawamata Takakazu, Nakayama Hisako, Miyata Mariko, Komori Takashi, Cavenee Webster K., Mischel Paul S., Kurata Atsushi, Shibata Noriyuki
Abstract
AbstractDNA methylation is crucial for chromatin structure and gene expression and its aberrancies, including the global “hypomethylator phenotype”, are associated with cancer. Here we show that an underlying mechanism for this phenotype in the large proportion of the highly lethal brain tumor glioblastoma (GBM) carrying receptor tyrosine kinase gene mutations, involves the mechanistic target of rapamycin complex 2 (mTORC2), that is critical for growth factor signaling. In this scenario, mTORC2 suppresses the expression of the de novo DNA methyltransferase (DNMT3A) thereby inducing genome-wide DNA hypomethylation. Mechanistically, mTORC2 facilitates a redistribution of EZH2 histone methyltransferase into the promoter region of DNMT3A, and epigenetically represses the expression of DNA methyltransferase. Integrated analyses in both orthotopic mouse models and clinical GBM samples indicate that the DNA hypomethylator phenotype consistently reprograms a glutamate metabolism network, eventually driving GBM cell invasion and survival. These results nominate mTORC2 as a novel regulator of DNA hypomethylation in cancer and an exploitable target against cancer-promoting epigenetics.
Funder
Takeda Science Foundation Japan Society for the Promotion of Science National Institutes of Health National Brain Tumor Society
Publisher
Springer Science and Business Media LLC
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