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dc.contributor.author Schwartzentruber, J
dc.contributor.author Korshunov, A
dc.contributor.author Liu, XY
dc.contributor.author Jones, DT
dc.contributor.author Pfaff, E
dc.contributor.author Jacob, K
dc.contributor.author Sturm, D
dc.contributor.author Fontebasso, AM
dc.contributor.author Quang, DA
dc.contributor.author Tonjes, M
dc.contributor.author Hovestadt, V
dc.contributor.author Albrecht, S
dc.contributor.author Kool, M
dc.contributor.author Nantel, A
dc.contributor.author Konermann, C
dc.contributor.author Lindroth, A
dc.contributor.author Jager, N
dc.contributor.author Rausch, T
dc.contributor.author Ryzhova, M
dc.contributor.author Korbel, JO
dc.contributor.author Hielscher, T
dc.contributor.author Hauser, Péter
dc.contributor.author Garami, Miklós
dc.contributor.author Klekner, Álmos
dc.contributor.author Bognár, László
dc.contributor.author Ebinger, M
dc.contributor.author Schuhmann, MU
dc.contributor.author Scheurlen, W
dc.contributor.author Pekrun, A;
dc.contributor.author Fruhwald, MC
dc.contributor.author Roggendorf, W
dc.contributor.author Kramm, C
dc.contributor.author Durken, M
dc.contributor.author Atkinson, J
dc.contributor.author Lepage, P
dc.contributor.author Montpetit, A
dc.contributor.author Zakrzewska, M
dc.contributor.author Zakrzewski, K
dc.contributor.author Liberski, PP
dc.contributor.author Dong, Z
dc.contributor.author Siegel, P
dc.contributor.author Kulozik, AE
dc.contributor.author Zapatka, M
dc.contributor.author Guha, A
dc.contributor.author Malkin, D
dc.contributor.author Felsberg, J
dc.contributor.author Reifenberger, G
dc.contributor.author von Deimling, A
dc.contributor.author Ichimura, K
dc.contributor.author Collins, VP
dc.contributor.author Witt, H
dc.contributor.author Milde, T
dc.contributor.author Witt, O
dc.contributor.author Zhang, C
dc.contributor.author Castelo-Branco, P
dc.contributor.author Lichter, P
dc.contributor.author Faury, D
dc.contributor.author Tabori, U
dc.contributor.author Plass, C
dc.contributor.author Majewski, J
dc.contributor.author Pfister, SM
dc.contributor.author Jabado, N
dc.date.accessioned 2021-12-28T07:40:58Z
dc.date.available 2021-12-28T07:40:58Z
dc.date.issued 2012
dc.identifier 84862777348
dc.identifier.citation pagination=226-231; journalVolume=482; journalIssueNumber=7384; journalTitle=NATURE;
dc.identifier.uri http://repo.lib.semmelweis.hu//handle/123456789/4122
dc.identifier.uri doi:10.1038/nature10833
dc.description.abstract Glioblastoma multiforme (GBM) is a lethal brain tumour in adults and children. However, DNA copy number and gene expression signatures indicate differences between adult and paediatric cases. To explore the genetic events underlying this distinction, we sequenced the exomes of 48 paediatric GBM samples. Somatic mutations in the H3.3-ATRX-DAXX chromatin remodelling pathway were identified in 44% of tumours (21/48). Recurrent mutations in H3F3A, which encodes the replication-independent histone 3 variant H3.3, were observed in 31% of tumours, and led to amino acid substitutions at two critical positions within the histone tail (K27M, G34R/G34V) involved in key regulatory post-translational modifications. Mutations in ATRX (alpha-thalassaemia/mental retardation syndrome X-linked) and DAXX (death-domain associated protein), encoding two subunits of a chromatin remodelling complex required for H3.3 incorporation at pericentric heterochromatin and telomeres, were identified in 31% of samples overall, and in 100% of tumours harbouring a G34R or G34V H3.3 mutation. Somatic TP53 mutations were identified in 54% of all cases, and in 86% of samples with H3F3A and/or ATRX mutations. Screening of a large cohort of gliomas of various grades and histologies (n = 784) showed H3F3A mutations to be specific to GBM and highly prevalent in children and young adults. Furthermore, the presence of H3F3A/ATRX-DAXX/TP53 mutations was strongly associated with alternative lengthening of telomeres and specific gene expression profiles. This is, to our knowledge, the first report to highlight recurrent mutations in a regulatory histone in humans, and our data suggest that defects of the chromatin architecture underlie paediatric and young adult GBM pathogenesis.
dc.relation.ispartof urn:issn:0028-0836; 1476-4687
dc.title Driver mutations in histone H3.3 and chromatin remodelling genes in paediatric glioblastoma
dc.type Journal Article
dc.date.updated 2017-03-14T14:55:08Z
dc.language.rfc3066 en
dc.identifier.mtmt 1854386
dc.identifier.wos 000299994100040
dc.identifier.pubmed 22286061
dc.contributor.department SE/AOK/K/II. Sz. Gyermekgyógyászati Klinika
dc.contributor.institution Semmelweis Egyetem
dc.mtmt.swordnote Klekner Álmos: Alulírott Dr. Klekner Álmos nyilatkozom, hogy az alábbi közleményekben szerzőként szerepelek. Minden közlemény tudományos együttműködés keretében született (nem study és nem szponzorált vizsgálat) és mind a mintagyűjtésben, mintafeldolgozásban, mind pedig a közleményekhez szükséges adatfeldolgozásban és elemzésben aktív szerepem volt. Dr. Bognár László nyilatkozom, hogy jelen közlemény létrejöttében szerzőként működtem közre. (2016.05.06.)


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