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The histone H3.3K27M mutation in pediatric glioma reprograms H3K27 methylation and gene expression.

Genes & development (2013-04-23)
Kui-Ming Chan, Dong Fang, Haiyun Gan, Rintaro Hashizume, Chuanhe Yu, Mark Schroeder, Nalin Gupta, Sabine Mueller, C David James, Robert Jenkins, Jann Sarkaria, Zhiguo Zhang
RÉSUMÉ

Recent studies have identified a Lys 27-to-methionine (K27M) mutation at one allele of H3F3A, one of the two genes encoding histone H3 variant H3.3, in 60% of high-grade pediatric glioma cases. The median survival of this group of patients after diagnosis is ∼1 yr. Here we show that the levels of H3K27 di- and trimethylation (H3K27me2 and H3K27me3) are reduced globally in H3.3K27M patient samples due to the expression of the H3.3K27M mutant allele. Remarkably, we also observed that H3K27me3 and Ezh2 (the catalytic subunit of H3K27 methyltransferase) at chromatin are dramatically increased locally at hundreds of gene loci in H3.3K27M patient cells. Moreover, the gain of H3K27me3 and Ezh2 at gene promoters alters the expression of genes that are associated with various cancer pathways. These results indicate that H3.3K27M mutation reprograms epigenetic landscape and gene expression, which may drive tumorigenesis.

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SF7761 Human DIPG H3.3-K27M Cell Line, SF7761 pediatric diffuse intrinsic pontine glioma (DIPG) cell line harbors the histone H3.3 Lys 27-to-methionine (K27M) mutation and can support research and drug development efforts targeting DIPG.