Author
Listed:
- Amjad Ali
(Shanghai Key Laboratory of Regulatory Biology, Institute of Biomedical Sciences, School of Life Sciences, East China Normal University
Guangxi Collaborative Innovation Center for Biomedicine and Drug Discovery, Guangxi Medical University
Baylor College of Medicine, One Baylor Plaza, Houston, Texas 77030, USA)
- Zhuo Wang
(Shanghai Key Laboratory of Regulatory Biology, Institute of Biomedical Sciences, School of Life Sciences, East China Normal University)
- Junjiang Fu
(Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Luzhou Medical College)
- Lei Ji
(Shanghai Key Laboratory of Regulatory Biology, Institute of Biomedical Sciences, School of Life Sciences, East China Normal University)
- Jiang Liu
(Shanghai Key Laboratory of Regulatory Biology, Institute of Biomedical Sciences, School of Life Sciences, East China Normal University
Baylor College of Medicine, One Baylor Plaza, Houston, Texas 77030, USA
Institute of Aging Research, School of Medicine, Hangzhou Normal University)
- Lei Li
(Changzheng Hospital, The Second Military Medical University)
- Hui Wang
(Xinhua Hospital, School of Medicine, Shanghai Jiaotong University)
- Jiwu Chen
(Shanghai Key Laboratory of Regulatory Biology, Institute of Biomedical Sciences, School of Life Sciences, East China Normal University)
- Carlos Caulin
(The University of Texas MD Anderson Cancer Center)
- Jeffrey N. Myers
(The University of Texas MD Anderson Cancer Center)
- Pei Zhang
(Second Chengdu Municipal Hospital)
- Jianru Xiao
(Changzheng Hospital, The Second Military Medical University)
- Bianhong Zhang
(Shanghai Key Laboratory of Regulatory Biology, Institute of Biomedical Sciences, School of Life Sciences, East China Normal University)
- Xiaotao Li
(Shanghai Key Laboratory of Regulatory Biology, Institute of Biomedical Sciences, School of Life Sciences, East China Normal University
Guangxi Collaborative Innovation Center for Biomedicine and Drug Discovery, Guangxi Medical University
Baylor College of Medicine, One Baylor Plaza, Houston, Texas 77030, USA)
Abstract
Proteasome activity is frequently enhanced in cancer to accelerate metastasis and tumorigenesis. REGγ, a proteasome activator known to promote p53/p21/p16 degradation, is often overexpressed in cancer cells. Here we show that p53/TGF-β signalling inhibits the REGγ–20S proteasome pathway by repressing REGγ expression. Smad3 and p53 interact on the REGγ promoter via the p53RE/SBE region. Conversely, mutant p53 binds to the REGγ promoter and recruits p300. Importantly, mutant p53 prevents Smad3/N-CoR complex formation on the REGγ promoter, which enhances the activity of the REGγ–20S proteasome pathway and contributes to mutant p53 gain of function. Depletion of REGγ alters the cellular response to p53/TGF-β signalling in drug resistance, proliferation, cell cycle progression and proteasome activity. Moreover, p53 mutations show a positive correlation with REGγ expression in cancer samples. These findings suggest that targeting REGγ–20S proteasome for cancer therapy may be applicable to human tumours with abnormal p53/Smad protein status. Furthermore, this study demonstrates a link between p53/TGF-β signalling and the REGγ–20S proteasome pathway, and provides insight into the REGγ/p53 feedback loop.
Suggested Citation
Amjad Ali & Zhuo Wang & Junjiang Fu & Lei Ji & Jiang Liu & Lei Li & Hui Wang & Jiwu Chen & Carlos Caulin & Jeffrey N. Myers & Pei Zhang & Jianru Xiao & Bianhong Zhang & Xiaotao Li, 2013.
"Differential regulation of the REGγ–proteasome pathway by p53/TGF-β signalling and mutant p53 in cancer cells,"
Nature Communications, Nature, vol. 4(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3667
DOI: 10.1038/ncomms3667
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