| Literature DB >> 25159113 |
Akihide Yoshimi1, Takashi Toya1, Masahito Kawazu2, Toshihide Ueno3, Ayato Tsukamoto4, Hiromitsu Iizuka4, Masahiro Nakagawa4, Yasuhito Nannya4, Shunya Arai4, Hironori Harada5, Kensuke Usuki6, Yasuhide Hayashi7, Etsuro Ito8, Keita Kirito9, Hideaki Nakajima10, Motoshi Ichikawa4, Hiroyuki Mano3, Mineo Kurokawa4.
Abstract
Familial platelet disorder (FPD) with predisposition to acute myelogenous leukaemia (AML) is characterized by platelet defects with a propensity for the development of haematological malignancies. Its molecular pathogenesis is poorly understood, except for the role of germline RUNX1 mutations. Here we show that CDC25C mutations are frequently found in FPD/AML patients (53%). Mutated CDC25C disrupts the G2/M checkpoint and promotes cell cycle progression even in the presence of DNA damage, suggesting a critical role for CDC25C in malignant transformation in FPD/AML. The predicted hierarchical architecture shows that CDC25C mutations define a founding pre-leukaemic clone, followed by stepwise acquisition of subclonal mutations that contribute to leukaemia progression. In three of seven individuals with CDC25C mutations, GATA2 is the target of subsequent mutation. Thus, CDC25C is a novel gene target identified in haematological malignancies. CDC25C is also useful as a clinical biomarker that predicts progression of FPD/AML in the early stage.Entities:
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Year: 2014 PMID: 25159113 DOI: 10.1038/ncomms5770
Source DB: PubMed Journal: Nat Commun ISSN: 2041-1723 Impact factor: 14.919