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Pharmacologic inhibition of histone demethylation as a therapy for pediatric brainstem glioma

by Gan, Haiyun , Hashizume, Rintaro , Petritsch, Claudia , Huang, Xi , Ihara, Yuichiro , Chen, Xiaoyue , Solomon, David , James, C David , Fang, Dong , Zhang, Zhiguo , Ngo, Vy , Waldman, Todd A , Lerner, Robin , Mueller, Sabine , Andor, Noemi , Gupta, Nalin , Tom, Maxwell W , Paris, Pamela L

in 13/106 / 13/109 / 13/2 / 13/31 / 13/51 / 13/89 / 14/19 / 14/34 / 14/35 / 14/63 / 38/22 / 38/23 / 45/61 / 45/77 / 45/90 / 59/5 / 631/67/1059/602 / 64/60 / 82/16 / 82/29 / Animals / Apoptosis - drug effects / Benzazepines - pharmacology / Biomedicine / Brain cancer / Brain Stem Neoplasms - genetics / Brain Stem Neoplasms - metabolism / brief-communication / Cancer Research / Cell growth / Cell Line, Tumor / Cell Proliferation - drug effects / Child / Drug therapy / Gene Expression Regulation, Neoplastic / Genetic aspects / Glioma - genetics / Glioma - metabolism / Gliomas / Histones / Histones - drug effects / Histones - genetics / Histones - metabolism / Humans / Infectious Diseases / Jumonji Domain-Containing Histone Demethylases - antagonists & inhibitors / Jumonji Domain-Containing Histone Demethylases - metabolism / Metabolic Diseases / Methylation / Methylation - drug effects / Mice / Molecular Medicine / Mutation / Neurosciences / Pediatrics / Pharmacology / Physiological aspects / Pyrimidines - pharmacology / Tumors / Xenograft Model Antitumor Assays

2014

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2014

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2014

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Journal Article

Pharmacologic inhibition of histone demethylation as a therapy for pediatric brainstem glioma

Gan, Haiyun,

Hashizume, Rintaro,

Petritsch, Claudia,

Huang, Xi,

Ihara, Yuichiro,

Chen, Xiaoyue,

Solomon, David,

James, C David,

Fang, Dong,

Zhang, Zhiguo,

Ngo, Vy,

Waldman, Todd A,

Lerner, Robin,

Mueller, Sabine,

Andor, Noemi,

Gupta, Nalin,

Tom, Maxwell W,

Paris, Pamela L

2014

Overview

Hashizume et al . report a new therapeutic strategy for treating pediatric gliomas with mutations in the H3F3A gene by inhibiting histone demethylation. Pediatric brainstem gliomas often harbor oncogenic K27M mutation of histone H3.3. Here we show that GSKJ4 pharmacologic inhibition of K27 demethylase JMJD3 increases cellular H3K27 methylation in K27M tumor cells and demonstrate potent antitumor activity both in vitro against K27M cells and in vivo against K27M xenografts. Our results demonstrate that increasing H3K27 methylation by inhibiting K27 demethylase is a valid therapeutic strategy for treating K27M-expressing brainstem glioma.

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Nature Publishing Group US,Nature Publishing Group

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