Literature DB >> 18073536

CDC25A levels determine the balance of proliferation and checkpoint response.

Dipankar Ray1, Hiroaki Kiyokawa.   

Abstract

Current evidence suggests that CDC25A is not only a major regulator of both G(1)/S and G(2)/M transition during unperturbed cell cycle progression, but also a critical checkpoint mediator. While CDC25A is overexpressed in a variety of human cancers, a key question remained unanswered whether such overexpression of this CDK-activating phosphatase was a mechanism or consequence of accelerated proliferation and other malignant phenotypes. Recent studies on the tumor suppressive roles of checkpoint proteins suggest that overriding checkpoint response leads normal or pre-cancerous cells to genomic instability and cumulative malignant changes. Here we provide our views on the role of CDC25A in cancer development and genomic stability, discussing insights from our recent studies on Cdc25A knockout mice and MMTV-CDC25A transgenic mice.

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Year:  2007        PMID: 18073536     DOI: 10.4161/cc.6.24.5104

Source DB:  PubMed          Journal:  Cell Cycle        ISSN: 1551-4005            Impact factor:   4.534


  20 in total

1.  Identification of molecular vulnerabilities in human multiple myeloma cells by RNA interference lethality screening of the druggable genome.

Authors:  Rodger E Tiedemann; Yuan Xao Zhu; Jessica Schmidt; Chang Xin Shi; Chris Sereduk; Hongwei Yin; Spyro Mousses; A Keith Stewart
Journal:  Cancer Res       Date:  2011-12-06       Impact factor: 12.701

2.  Effects of let-7c on the proliferation of ovarian carcinoma cells by targeted regulation of CDC25a gene expression.

Authors:  Wei Zhang; Qingru Zeng; Zhenying Ban; Jing Cao; Tianjiao Chu; Dongmei Lei; Chi Liu; Wentao Guo; Xianxu Zeng
Journal:  Oncol Lett       Date:  2018-08-20       Impact factor: 2.967

3.  CDC25A targeting by miR-483-3p decreases CCND-CDK4/6 assembly and contributes to cell cycle arrest.

Authors:  T Bertero; C Gastaldi; I Bourget-Ponzio; B Mari; G Meneguzzi; P Barbry; G Ponzio; R Rezzonico
Journal:  Cell Death Differ       Date:  2013-02-22       Impact factor: 15.828

4.  Chk2*1100delC Acts in synergy with the Ron receptor tyrosine kinase to accelerate mammary tumorigenesis in mice.

Authors:  Sara E Meyer; Belinda E Peace; El Mustapha Bahassi; Gina M Kavanaugh; Purnima K Wagh; Susan B Robbins; Moying Yin; Susanne I Wells; Glendon M Zinser; Peter J Stambrook; Susan E Waltz
Journal:  Cancer Lett       Date:  2010-10-28       Impact factor: 8.679

5.  A novel topoisomerase inhibitor, daurinol, suppresses growth of HCT116 cells with low hematological toxicity compared to etoposide.

Authors:  Kyungsu Kang; Seung Hyun Oh; Ji Ho Yun; Eun Hye Jho; Ju-Hee Kang; Dulamjav Batsuren; Jigjidsuren Tunsag; Kwang Hwa Park; Minkyun Kim; Chu Won Nho
Journal:  Neoplasia       Date:  2011-11       Impact factor: 5.715

6.  Phosphatase Cdc25A Negatively Regulates the Antiviral Immune Response by Inhibiting TBK1 Activity.

Authors:  Dandan Qi; Lei Hu; Tong Jiao; Tinghong Zhang; Xiaomei Tong; Xin Ye
Journal:  J Virol       Date:  2018-09-12       Impact factor: 5.103

7.  PNAS-4, an Early DNA Damage Response Gene, Induces S Phase Arrest and Apoptosis by Activating Checkpoint Kinases in Lung Cancer Cells.

Authors:  Zhu Yuan; Wenhao Guo; Jun Yang; Lei Li; Meiliang Wang; Yi Lei; Yang Wan; Xinyu Zhao; Na Luo; Ping Cheng; Xinyu Liu; Chunlai Nie; Yong Peng; Aiping Tong; Yuquan Wei
Journal:  J Biol Chem       Date:  2015-04-27       Impact factor: 5.157

8.  Changes in microRNA and mRNA expression with differentiation of human bronchial epithelial cells.

Authors:  Asuncion Martinez-Anton; Milena Sokolowska; Steven Kern; A Sally Davis; Sara Alsaaty; Jeffery K Taubenberger; Junfeng Sun; Rongman Cai; Robert L Danner; Michael Eberlein; Carolea Logun; James H Shelhamer
Journal:  Am J Respir Cell Mol Biol       Date:  2013-09       Impact factor: 6.914

9.  Oxidative stress induces cell cycle-dependent Mre11 recruitment, ATM and Chk2 activation and histone H2AX phosphorylation.

Authors:  Hong Zhao; Frank Traganos; Anthony P Albino; Zbigniew Darzynkiewicz
Journal:  Cell Cycle       Date:  2008-03-18       Impact factor: 4.534

10.  Grouped graphical Granger modeling for gene expression regulatory networks discovery.

Authors:  Aurélie C Lozano; Naoki Abe; Yan Liu; Saharon Rosset
Journal:  Bioinformatics       Date:  2009-06-15       Impact factor: 6.937
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