SPOP mutation induces DNA methylation via stabilizing GLP/G9a

被引:0
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作者
Jianong Zhang
Kun Gao
Hongyan Xie
Dejie Wang
Pingzhao Zhang
Ting Wei
Yuqian Yan
Yunqian Pan
Wenbin Ye
Huifen Chen
Qing Shi
Yao Li
Shi-min Zhao
Xiaonan Hou
Saravut J. Weroha
Yuzhuo Wang
Jun Zhang
R. Jeffrey Karnes
Housheng Hansen He
Liguo Wang
Chenji Wang
Haojie Huang
机构
[1] Fudan University,State Key Lab of Genetic Engineering, MOE Engineering Research Center of Gene Technology, School of Life Sciences
[2] Department of Biochemistry and Molecular Biology,Department of Clinical Laboratory, Shanghai First Maternity and Infant Hospital
[3] Mayo Clinic College of Medicine and Science,Fudan University Shanghai Cancer Center and Department of Pathology, Shanghai Medical College
[4] School of Medicine,Department of Automation
[5] Tongji University,Department of Medical Biophysics
[6] Fudan University,Princess Margaret Cancer Centre
[7] Divison of Computational Biology,undefined
[8] Mayo Clinic College of Medicine and Science,undefined
[9] Xiamen University,undefined
[10] University of Toronto,undefined
[11] University Health Network,undefined
[12] Department of Oncology,undefined
[13] Mayo Clinic College of Medicine,undefined
[14] Department of Experimental Therapeutics,undefined
[15] BC Cancer Research Centre,undefined
[16] Department of Laboratory Medicine and Pathology,undefined
[17] Mayo Clinic College of Medicine and Science,undefined
[18] Department of Urology,undefined
[19] Mayo Clinic College of Medicine and Science,undefined
[20] Mayo Clinic Cancer Center,undefined
[21] Mayo Clinic College of Medicine and Science,undefined
来源
Nature Communications | / 12卷
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摘要
Mutations in SPOP E3 ligase gene are reportedly associated with genome-wide DNA hypermethylation in prostate cancer (PCa) although the underlying mechanisms remain elusive. Here, we demonstrate that SPOP binds and promotes polyubiquitination and degradation of histone methyltransferase and DNMT interactor GLP. SPOP mutation induces stabilization of GLP and its partner protein G9a and aberrant upregulation of global DNA hypermethylation in cultured PCa cells and primary PCa specimens. Genome-wide DNA methylome analysis shows that a subset of tumor suppressor genes (TSGs) including FOXO3, GATA5, and NDRG1, are hypermethylated and downregulated in SPOP-mutated PCa cells. DNA methylation inhibitor 5-azacytidine effectively reverses expression of the TSGs examined, inhibits SPOP-mutated PCa cell growth in vitro and in mice, and enhances docetaxel anti-cancer efficacy. Our findings reveal the GLP/G9a-DNMT module as a mediator of DNA hypermethylation in SPOP-mutated PCa. They suggest that SPOP mutation could be a biomarker for effective treatment of PCa with DNA methylation inhibitor alone or in combination with taxane chemotherapeutics.
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