Literature DB >> 28228262

Targeting DNA Damage Response in Prostate Cancer by Inhibiting Androgen Receptor-CDC6-ATR-Chk1 Signaling.

Styliani Karanika1, Theodoros Karantanos1, Likun Li1, Jianxiang Wang1, Sanghee Park1, Guang Yang1, Xuemei Zuo1, Jian H Song1, Sankar N Maity1, Ganiraju C Manyam2, Bradley Broom2, Ana M Aparicio1, Gary E Gallick1, Patricia Troncoso3, Paul G Corn1, Nora Navone1, Wei Zhang1, Shuhua Li1, Timothy C Thompson4.   

Abstract

Cell division cycle 6 (CDC6), an androgen receptor (AR) target gene, is implicated in regulating DNA replication and checkpoint mechanisms. CDC6 expression is increased during prostate cancer (PCa) progression and positively correlates with AR in PCa tissues. AR or CDC6 knockdown, together with AZD7762, a Chk1/2 inhibitor, results in decreased TopBP1-ATR-Chk1 signaling and markedly increased ataxia-telangiectasia-mutated (ATM) phosphorylation, a biomarker of DNA damage, and synergistically increases treatment efficacy. Combination treatment with the AR signaling inhibitor enzalutamide (ENZ) and the Chk1/2 inhibitor AZD7762 demonstrates synergy with regard to inhibition of AR-CDC6-ATR-Chk1 signaling, ATM phosphorylation induction, and apoptosis in VCaP (mutant p53) and LNCaP-C4-2b (wild-type p53) cells. CDC6 overexpression significantly reduced ENZ- and AZD7762-induced apoptosis. Additive or synergistic therapeutic activities are demonstrated in AR-positive animal xenograft models. These findings have important clinical implications, since they introduce a therapeutic strategy for AR-positive, metastatic, castration-resistant PCa, regardless of p53 status, through targeting AR-CDC6-ATR-Chk1 signaling.
Copyright © 2017 The Author(s). Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  ATR; AZD7762; CDC6; Chk1; DNA damage; TOPBP1; androgen receptor; enzalutamide; prostate cancer

Mesh:

Substances:

Year:  2017        PMID: 28228262      PMCID: PMC5349188          DOI: 10.1016/j.celrep.2017.01.072

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  38 in total

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Authors:  Matthew J Schiewer; Jonathan F Goodwin; Sumin Han; J Chad Brenner; Michael A Augello; Jeffry L Dean; Fengzhi Liu; Jamie L Planck; Preethi Ravindranathan; Arul M Chinnaiyan; Peter McCue; Leonard G Gomella; Ganesh V Raj; Adam P Dicker; Jonathan R Brody; John M Pascal; Margaret M Centenera; Lisa M Butler; Wayne D Tilley; Felix Y Feng; Karen E Knudsen
Journal:  Cancer Discov       Date:  2012-09-19       Impact factor: 39.397

3.  BMP4 promotes prostate tumor growth in bone through osteogenesis.

Authors:  Yu-Chen Lee; Chien-Jui Cheng; Mehmet A Bilen; Jing-Fang Lu; Robert L Satcher; Li-Yuan Yu-Lee; Gary E Gallick; Sankar N Maity; Sue-Hwa Lin
Journal:  Cancer Res       Date:  2011-06-13       Impact factor: 12.701

4.  Phase I dose-escalation study of AZD7762, a checkpoint kinase inhibitor, in combination with gemcitabine in US patients with advanced solid tumors.

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Journal:  Cancer Chemother Pharmacol       Date:  2014-01-22       Impact factor: 3.333

5.  Oncogenic activity of Cdc6 through repression of the INK4/ARF locus.

Authors:  Susana Gonzalez; Peter Klatt; Sonia Delgado; Esther Conde; Fernando Lopez-Rios; Montserrat Sanchez-Cespedes; Juan Mendez; Francisco Antequera; Manuel Serrano
Journal:  Nature       Date:  2006-03-30       Impact factor: 49.962

6.  Testosterone promotes DNA damage response under oxidative stress in prostate cancer cell lines.

Authors:  Hisamitsu Ide; Yan Lu; Jingsong Yu; Toshiyuki China; Tomoka Kumamoto; Tatsuro Koseki; Raizo Yamaguchi; Satoru Muto; Shigeo Horie
Journal:  Prostate       Date:  2012-01-30       Impact factor: 4.104

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Journal:  Clin Cancer Res       Date:  2010-03-16       Impact factor: 12.531

8.  Cdc6 expression represses E-cadherin transcription and activates adjacent replication origins.

Authors:  Maria Sideridou; Roubini Zakopoulou; Konstantinos Evangelou; Michalis Liontos; Athanassios Kotsinas; Emmanouil Rampakakis; Sarantis Gagos; Kaoru Kahata; Kristina Grabusic; Kalliopi Gkouskou; Ioannis P Trougakos; Evangelos Kolettas; Alexandros G Georgakilas; Sinisa Volarevic; Aristides G Eliopoulos; Maria Zannis-Hadjopoulos; Aristidis Moustakas; Vassilis G Gorgoulis
Journal:  J Cell Biol       Date:  2011-12-26       Impact factor: 10.539

9.  A novel androgen receptor-binding element modulates Cdc6 transcription in prostate cancer cells during cell-cycle progression.

Authors:  Feng Jin; Joseph D Fondell
Journal:  Nucleic Acids Res       Date:  2009-06-11       Impact factor: 16.971

Review 10.  TopBP1: A BRCT-scaffold protein functioning in multiple cellular pathways.

Authors:  Christopher P Wardlaw; Antony M Carr; Antony W Oliver
Journal:  DNA Repair (Amst)       Date:  2014-07-30
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  25 in total

1.  Testosterone-mediated activation of androgenic signalling sustains in vitro the transformed and radioresistant phenotype of rhabdomyosarcoma cell lines.

Authors:  S Giannattasio; F Megiorni; V Di Nisio; A Del Fattore; R Fontanella; S Camero; C Antinozzi; C Festuccia; G L Gravina; S Cecconi; C Dominici; L Di Luigi; C Ciccarelli; P De Cesaris; A Riccioli; B M Zani; A Lenzi; R G Pestell; A Filippini; C Crescioli; V Tombolini; F Marampon
Journal:  J Endocrinol Invest       Date:  2018-05-22       Impact factor: 4.256

Review 2.  The spectrum of sex differences in cancer.

Authors:  Joshua B Rubin
Journal:  Trends Cancer       Date:  2022-02-18

3.  Inhibition of N-Acetyltransferase 10 Suppresses the Progression of Prostate Cancer through Regulation of DNA Replication.

Authors:  Ningning Ma; Haijing Liu; Yaqian Wu; Mengfei Yao; Bo Zhang
Journal:  Int J Mol Sci       Date:  2022-06-12       Impact factor: 6.208

Review 4.  Delineation of the androgen-regulated signaling pathways in prostate cancer facilitates the development of novel therapeutic approaches.

Authors:  Dominik Awad; Thomas L Pulliam; Chenchu Lin; Sandi R Wilkenfeld; Daniel E Frigo
Journal:  Curr Opin Pharmacol       Date:  2018-03-30       Impact factor: 5.547

5.  Connecting androgen receptor signaling and the DNA damage response: Development of new therapies for advanced prostate cancer.

Authors:  Timothy C Thompson; Likun Li
Journal:  Mol Cell Oncol       Date:  2017-05-03

Review 6.  Recent Advances in Prostate Cancer Treatment and Drug Discovery.

Authors:  Ekaterina Nevedomskaya; Simon J Baumgart; Bernard Haendler
Journal:  Int J Mol Sci       Date:  2018-05-04       Impact factor: 5.923

7.  The Role of Crosstalk between AR3 and E2F1 in Drug Resistance in Prostate Cancer Cells.

Authors:  Jin Xu; Xi Yang; Dhanraj Deshmukh; Hegang Chen; Shengyun Fang; Yun Qiu
Journal:  Cells       Date:  2020-04-28       Impact factor: 6.600

8.  Topoisomerase II-binding protein 1 promotes the progression of prostate cancer via ATR-CHK1 signaling pathway.

Authors:  Kaiwen Li; Shirong Peng; Zean Li; Yiming Lai; Qiong Wang; Yiran Tao; Wanhua Wu; Qianghua Zhou; Ze Gao; Junxiu Chen; Hui Li; Wenli Cai; Zhenghui Guo; Hai Huang
Journal:  Aging (Albany NY)       Date:  2020-05-27       Impact factor: 5.682

Review 9.  Therapeutic targeting of cellular stress responses in cancer.

Authors:  Miao Chen; Songbo Xie
Journal:  Thorac Cancer       Date:  2018-10-12       Impact factor: 3.500

10.  Preclinical evaluation of PSMA expression in response to androgen receptor blockade for theranostics in prostate cancer.

Authors:  Katharina Lückerath; Liu Wei; Wolfgang P Fendler; Susan Evans-Axelsson; Andreea D Stuparu; Roger Slavik; Christine E Mona; Jeremie Calais; Matthew Rettig; Robert E Reiter; Ken Herrmann; Caius G Radu; Johannes Czernin; Matthias Eiber
Journal:  EJNMMI Res       Date:  2018-10-29       Impact factor: 3.138
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