Histone H3.3. Mutations Drive Pediatric Glioblastoma Through Upregulation of MYCN

Overview

Journal Cancer Discov

Specialty Oncology

Date 2013 Mar 30

PMID 23539269

Citations 166

Authors

Lynn Bjerke

Alan Mackay

Meera Nandhabalan

Anna Burford

Alexa Jury

Sergey Popov

Dorine A Bax

Diana Carvalho

Kathryn R Taylor

Maria Vinci

Ilirjana Bajrami

Imelda M McGonnell

Christopher J Lord

Rui M Reis

Darren Hargrave

Alan Ashworth

Paul Workman

Chris Jones

Affiliations

Soon will be listed here.

Abstract

Unlabelled: Children and young adults with glioblastoma (GBM) have a median survival rate of only 12 to 15 months, and these GBMs are clinically and biologically distinct from histologically similar cancers in older adults. They are defined by highly specific mutations in the gene encoding the histone H3.3 variant H3F3A , occurring either at or close to key residues marked by methylation for regulation of transcription—K27 and G34. Here, we show that the cerebral hemisphere-specific G34 mutation drives a distinct expression signature through differential genomic binding of the K36 trimethylation mark (H3K36me3). The transcriptional program induced recapitulates that of the developing forebrain, and involves numerous markers of stem-cell maintenance, cell-fate decisions, and self-renewal.Critically, H3F3A G34 mutations cause profound upregulation of MYCN , a potent oncogene that is causative of GBMs when expressed in the correct developmental context. This driving aberration is selectively targetable in this patient population through inhibiting kinases responsible for stabilization of the protein.

Significance: We provide the mechanistic explanation for how the fi rst histone gene mutation inhuman disease biology acts to deliver MYCN, a potent tumorigenic initiator, into a stem-cell compartment of the developing forebrain, selectively giving rise to incurable cerebral hemispheric GBM. Using synthetic lethal approaches to these mutant tumor cells provides a rational way to develop novel and highly selective treatment strategies

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