H3K27M induces defective chromatin spread of PRC2-mediated repressive H3K27me2/me3 and is essential for glioma tumorigenesis

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作者
Ashot S. Harutyunyan
Brian Krug
Haifen Chen
Simon Papillon-Cavanagh
Michele Zeinieh
Nicolas De Jay
Shriya Deshmukh
Carol C. L. Chen
Jad Belle
Leonie G. Mikael
Dylan M. Marchione
Rui Li
Hamid Nikbakht
Bo Hu
Gael Cagnone
Warren A. Cheung
Abdulshakour Mohammadnia
Denise Bechet
Damien Faury
Melissa K McConechy
Manav Pathania
Siddhant U. Jain
Benjamin Ellezam
Alexander G. Weil
Alexandre Montpetit
Paolo Salomoni
Tomi Pastinen
Chao Lu
Peter W. Lewis
Benjamin A. Garcia
Claudia L. Kleinman
Nada Jabado
Jacek Majewski
机构
[1] McGill University,Department of Human Genetics
[2] Jewish General Hospital,Lady Davis Research Institute
[3] McGill University,Department of Pediatrics
[4] and The Research Institute of the McGill University Health Center,Department of Biochemistry and Biophysics, and Penn Epigenetics Institute, Perelman School of Medicine
[5] University of Pennsylvania,Center for Pediatric Genomic Medicine
[6] Children’s Mercy Kansas City,Samantha Dickson Brain Cancer Unit
[7] University College London Cancer Institute,Department of Biomolecular Chemistry, School of Medicine and Public Health and Wisconsin Institute for Discovery
[8] University of Wisconsin,Department of Pathology, Centre Hospitalier Universitaire Sainte
[9] Université de Montréal,Justine
[10] Centre Hospitalier Universitaire Sainte-Justine,Department of Pediatric Neurosurgery
[11] Université de Montréal,Nuclear Function in CNS pathophysiology
[12] McGill University and Genome Quebec Innovation Centre,Department of Genetics and Development
[13] German Center for Neurodegenerative Diseases,undefined
[14] Columbia University Irving Medical Center,undefined
来源
Nature Communications | / 10卷
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摘要
Lys-27-Met mutations in histone 3 genes (H3K27M) characterize a subgroup of deadly gliomas and decrease genome-wide H3K27 trimethylation. Here we use primary H3K27M tumor lines and isogenic CRISPR-edited controls to assess H3K27M effects in vitro and in vivo. We find that whereas H3K27me3 and H3K27me2 are normally deposited by PRC2 across broad regions, their deposition is severely reduced in H3.3K27M cells. H3K27me3 is unable to spread from large unmethylated CpG islands, while H3K27me2 can be deposited outside these PRC2 high-affinity sites but to levels corresponding to H3K27me3 deposition in wild-type cells. Our findings indicate that PRC2 recruitment and propagation on chromatin are seemingly unaffected by K27M, which mostly impairs spread of the repressive marks it catalyzes, especially H3K27me3. Genome-wide loss of H3K27me3 and me2 deposition has limited transcriptomic consequences, preferentially affecting lowly-expressed genes regulating neurogenesis. Removal of H3K27M restores H3K27me2/me3 spread, impairs cell proliferation, and completely abolishes their capacity to form tumors in mice.
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