The histone deacetylase SIRT2 stabilizes Myc oncoproteins

被引:0
作者
P Y Liu
N Xu
A Malyukova
C J Scarlett
Y T Sun
X D Zhang
D Ling
S-P Su
C Nelson
D K Chang
J Koach
A E Tee
M Haber
M D Norris
C Toon
I Rooman
C Xue
B B Cheung
S Kumar
G M Marshall
A V Biankin
T Liu
机构
[1] Children’s Cancer Institute Australia for Medical Research,Department of Surgery
[2] Cancer Research Program,Department of Haematology
[3] Garvan Institute of Medical Research,undefined
[4] School of Environmental and Life Sciences,undefined
[5] University of Newcastle,undefined
[6] School of Medicine and Public Health,undefined
[7] Priority Research Center for Cancer Research,undefined
[8] University of Newcastle,undefined
[9] Newcastle,undefined
[10] Bankstown Hospital,undefined
[11] Faculty of Medicine,undefined
[12] South Western Sydney Clinical School,undefined
[13] University of New South Wales,undefined
[14] Centre for Cancer Biology,undefined
[15] SA Pathology,undefined
[16] Centre for Children’s Cancer and Blood Disorders,undefined
[17] Sydney Children’s Hospital,undefined
[18] School of Women’s and Children’s Health,undefined
[19] UNSW Medicine,undefined
[20] University of New South Wales,undefined
来源
Cell Death & Differentiation | 2013年 / 20卷
关键词
neuroblastoma; pancreatic cancer; N-Myc; histone deacetylase; SIRT2; NEDD4;
D O I
暂无
中图分类号
学科分类号
摘要
Myc oncoproteins are commonly upregulated in human cancers of different organ origins, stabilized by Aurora A, degraded through ubiquitin–proteasome pathway-mediated proteolysis, and exert oncogenic effects by modulating gene and protein expression. Histone deacetylases are emerging as targets for cancer therapy. Here we demonstrated that the class III histone deacetylase SIRT2 was upregulated by N-Myc in neuroblastoma cells and by c-Myc in pancreatic cancer cells, and that SIRT2 enhanced N-Myc and c-Myc protein stability and promoted cancer cell proliferation. Affymetrix gene array studies revealed that the gene most significantly repressed by SIRT2 was the ubiquitin–protein ligase NEDD4. Consistent with this finding, SIRT2 repressed NEDD4 gene expression by directly binding to the NEDD4 gene core promoter and deacetylating histone H4 lysine 16. Importantly, NEDD4 directly bound to Myc oncoproteins and targeted Myc oncoproteins for ubiquitination and degradation, and small-molecule SIRT2 inhibitors reactivated NEDD4 gene expression, reduced N-Myc and c-Myc protein expression, and suppressed neuroblastoma and pancreatic cancer cell proliferation. Additionally, SIRT2 upregulated and small-molecule SIRT2 inhibitors decreased Aurora A expression. Our data reveal a novel pathway critical for Myc oncoprotein stability, and provide important evidences for potential application of SIRT2 inhibitors for the prevention and therapy of Myc-induced malignancies.
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页码:503 / 514
页数:11
相关论文
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