Loss of Asxl2 leads to myeloid malignancies in mice

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作者
Jianping Li
Fuhong He
Peng Zhang
Shi Chen
Hui Shi
Yanling Sun
Ying Guo
Hui Yang
Na Man
Sarah Greenblatt
Zhaomin Li
Zhengyu Guo
Yuan Zhou
Lan Wang
Lluis Morey
Sion Williams
Xi Chen
Qun-Tian Wang
Stephen D. Nimer
Peng Yu
Qian-Fei Wang
Mingjiang Xu
Feng-Chun Yang
机构
[1] Sylvester Comprehensive Cancer Center,Department of Biochemistry and Molecular Biology
[2] University of Miami Miller School of Medicine,Department of Electrical and Computer Engineering
[3] Key Laboratory of Genomic and Precision Medicine,Department of Public Health Sciences
[4] Collaborative Innovation Center of Genetics and Development,Department of Biological Sciences
[5] Beijing Institute of Genomics,undefined
[6] Chinese Academy of Sciences,undefined
[7] State Key Laboratory of Experimental Hematology,undefined
[8] Institute of Hematology and Blood Diseases Hospital,undefined
[9] Chinese Academy of Medical Sciences and Peking Union Medical College,undefined
[10] University of Chinese Academy of Sciences,undefined
[11] and TEES-AgriLife Center for Bioinformatics and Genomic Systems Engineering,undefined
[12] Texas A&M University,undefined
[13] University of Miami Miller School of Medicine,undefined
[14] University of Illinois at Chicago,undefined
来源
Nature Communications | / 8卷
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摘要
ASXL2 is frequently mutated in acute myeloid leukaemia patients with t(8;21). However, the roles of ASXL2 in normal haematopoiesis and the pathogenesis of myeloid malignancies remain unknown. Here we show that deletion of Asxl2 in mice leads to the development of myelodysplastic syndrome (MDS)-like disease. Asxl2−/− mice have an increased bone marrow (BM) long-term haematopoietic stem cells (HSCs) and granulocyte–macrophage progenitors compared with wild-type controls. Recipients transplanted with Asxl2−/− and Asxl2+/− BM cells have shortened lifespan due to the development of MDS-like disease or myeloid leukaemia. Paired daughter cell assays demonstrate that Asxl2 loss enhances the self-renewal of HSCs. Deletion of Asxl2 alters the expression of genes critical for HSC self-renewal, differentiation and apoptosis in Lin−cKit+ cells. The altered gene expression is associated with dysregulated H3K27ac and H3K4me1/2. Our study demonstrates that ASXL2 functions as a tumour suppressor to maintain normal HSC function.
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