Literature DB >> 27958289

WSB1 overcomes oncogene-induced senescence by targeting ATM for degradation.

Jung Jin Kim1, Seung Baek Lee1, Sang-Yeop Yi2, Sang-Ah Han3, Sun-Hyun Kim4, Jong-Min Lee5, Seo-Yun Tong5, Ping Yin1, Bowen Gao1, Jun Zhang6, Zhenkun Lou1.   

Abstract

Oncogene-induced senescence (OIS) or apoptosis through the DNA-damage response is an important barrier of tumorigenesis. Overcoming this barrier leads to abnormal cell proliferation, genomic instability, and cellular transformation, and finally allows cancers to develop. However, it remains unclear how the OIS barrier is overcome. Here, we show that the E3 ubiquitin ligase WD repeat and SOCS box-containing protein 1 (WSB1) plays a role in overcoming OIS. WSB1 expression in primary cells helps the bypass of OIS, leading to abnormal proliferation and cellular transformation. Mechanistically, WSB1 promotes ATM ubiquitination, resulting in ATM degradation and the escape from OIS. Furthermore, we identify CDKs as the upstream kinase of WSB1. CDK-mediated phosphorylation activates WSB1 by promoting its monomerization. In human cancer tissue and in vitro models, WSB1-induced ATM degradation is an early event during tumorigenic progression. We suggest that WSB1 is one of the key players of early oncogenic events through ATM degradation and destruction of the tumorigenesis barrier. Our work establishes an important mechanism of cancer development and progression in premalignant lesions.

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Year:  2016        PMID: 27958289      PMCID: PMC5339850          DOI: 10.1038/cr.2016.148

Source DB:  PubMed          Journal:  Cell Res        ISSN: 1001-0602            Impact factor:   25.617


  80 in total

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Journal:  Bioinformatics       Date:  2011-10-11       Impact factor: 6.937

3.  ATM promotes apoptosis and suppresses tumorigenesis in response to Myc.

Authors:  Raju V Pusapati; Robert J Rounbehler; SungKi Hong; John T Powers; Mingshan Yan; Kaoru Kiguchi; Mark J McArthur; Paul K Wong; David G Johnson
Journal:  Proc Natl Acad Sci U S A       Date:  2006-01-23       Impact factor: 11.205

4.  SWiP-1: novel SOCS box containing WD-protein regulated by signalling centres and by Shh during development.

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Journal:  Mech Dev       Date:  1999-04       Impact factor: 1.882

5.  Altered expression of DNA double-strand break detection and repair proteins in breast carcinomas.

Authors:  S Angèle; I Treilleux; A Brémond; P Tanière; J Hall
Journal:  Histopathology       Date:  2003-10       Impact factor: 5.087

6.  Genetic polymorphisms of ataxia telangiectasia mutated affect lung cancer risk.

Authors:  Jin Hee Kim; Heon Kim; Kye Young Lee; Kang-Hyeon Choe; Jeong-Seon Ryu; Ho Il Yoon; Sook Whan Sung; Keun-Young Yoo; Yun-Chul Hong
Journal:  Hum Mol Genet       Date:  2006-02-23       Impact factor: 6.150

7.  GPS 2.0, a tool to predict kinase-specific phosphorylation sites in hierarchy.

Authors:  Yu Xue; Jian Ren; Xinjiao Gao; Changjiang Jin; Longping Wen; Xuebiao Yao
Journal:  Mol Cell Proteomics       Date:  2008-05-06       Impact factor: 5.911

Review 8.  The senescence-associated secretory phenotype: the dark side of tumor suppression.

Authors:  Jean-Philippe Coppé; Pierre-Yves Desprez; Ana Krtolica; Judith Campisi
Journal:  Annu Rev Pathol       Date:  2010       Impact factor: 23.472

9.  ATM in senescence.

Authors:  Katherine M Aird; Rugang Zhang
Journal:  Oncotarget       Date:  2015-06-20

10.  Oncogene-induced telomere dysfunction enforces cellular senescence in human cancer precursor lesions.

Authors:  Anitha Suram; Jessica Kaplunov; Priyanka L Patel; Haihe Ruan; Aurora Cerutti; Virginia Boccardi; Marzia Fumagalli; Raffaella Di Micco; Neena Mirani; Resham Lal Gurung; Manoor Prakash Hande; Fabrizio d'Adda di Fagagna; Utz Herbig
Journal:  EMBO J       Date:  2012-05-08       Impact factor: 11.598
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  7 in total

Review 1.  Oncogene-induced senescence: a double edged sword in cancer.

Authors:  Xue-Ling Liu; Jian Ding; Ling-Hua Meng
Journal:  Acta Pharmacol Sin       Date:  2018-04-05       Impact factor: 6.150

2.  Identifying common transcriptome signatures of cancer by interpreting deep learning models.

Authors:  Anupama Jha; Mathieu Quesnel-Vallières; David Wang; Andrei Thomas-Tikhonenko; Kristen W Lynch; Yoseph Barash
Journal:  Genome Biol       Date:  2022-05-17       Impact factor: 17.906

3.  WSB1 regulates c-Myc expression through β-catenin signaling and forms a feedforward circuit.

Authors:  Xiaomeng Gao; Jieqiong You; Yanling Gong; Meng Yuan; Haiying Zhu; Liang Fang; Hong Zhu; Meidan Ying; Qiaojun He; Bo Yang; Ji Cao
Journal:  Acta Pharm Sin B       Date:  2021-10-26       Impact factor: 14.903

4.  Multilayered control of splicing regulatory networks by DAP3 leads to widespread alternative splicing changes in cancer.

Authors:  Jian Han; Omer An; Xi Ren; Yangyang Song; Sze Jing Tang; Haoqing Shen; Xinyu Ke; Vanessa Hui En Ng; Daryl Jin Tai Tay; Hui Qing Tan; Dennis Kappei; Henry Yang; Leilei Chen
Journal:  Nat Commun       Date:  2022-04-04       Impact factor: 17.694

5.  Natural COA water inhibits mitochondrial ROS-mediated apoptosis through Plk3 downregulation under STZ diabetic stress in pancreatic β-cell lines.

Authors:  Jeyeon Lee; Jin Ook Chung; Seon-Young Park; Naveen Rajamohan; Aparna Singh; JungJin Kim; Val J Lowe; SeungBaek Lee
Journal:  Biochem Biophys Rep       Date:  2022-03-11

6.  RPRM negatively regulates ATM levels through its nuclear translocation on irradiation mediated by CDK4/6 and IPO11.

Authors:  Yarui Zhang; Guomin Ou; Zhujing Ye; Zhou Zhou; Qianlin Cao; Mengting Li; Jingdong Wang; Jianping Cao; Hongying Yang
Journal:  iScience       Date:  2022-09-13

7.  WSB2 as a target of Hedgehog signaling promoted the malignant biological behavior of Xuanwei lung cancer through regulating Wnt/β-catenin signaling.

Authors:  Xueqiang Wei; Jun Liao; Yujie Lei; Minjie Li; Guangqiang Zhao; Yongchun Zhou; Lianhua Ye; Yunchao Huang
Journal:  Transl Cancer Res       Date:  2020-12       Impact factor: 1.241
  7 in total

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