Literature DB >> 24491799

CBP loss cooperates with PTEN haploinsufficiency to drive prostate cancer: implications for epigenetic therapy.

Liya Ding1, Shuai Chen, Ping Liu, Yunqian Pan, Jian Zhong, Kevin M Regan, Liguo Wang, Chunrong Yu, Anthony Rizzardi, Liang Cheng, Jun Zhang, Stephen C Schmechel, John C Cheville, Jan Van Deursen, Donald J Tindall, Haojie Huang.   

Abstract

Despite the high incidence and mortality of prostate cancer, the etiology of this disease is not fully understood. In this study, we develop functional evidence for CBP and PTEN interaction in prostate cancer based on findings of their correlate expression in the human disease. Cbp(pc-/-);Pten(pc+/-) mice exhibited higher cell proliferation in the prostate and an early onset of high-grade prostatic intraepithelial neoplasia. Levels of EZH2 methyltransferase were increased along with its Thr350 phosphorylation in both mouse Cbp(-/-); Pten(+/-) and human prostate cancer cells. CBP loss and PTEN deficiency cooperated to trigger a switch from K27-acetylated histone H3 to K27-trimethylated bulk histones in a manner associated with decreased expression of the growth inhibitory EZH2 target genes DAB2IP, p27(KIP1), and p21(CIP1). Conversely, treatment with the histone deacetylase inhibitor panobinostat reversed this switch, in a manner associated with tumor suppression in Cbp(pc-/-);Pten(pc+/-) mice. Our findings show how CBP and PTEN interact to mediate tumor suppression in the prostate, establishing a central role for histone modification in the etiology of prostate cancer and providing a rationale for clinical evaluation of epigenetic-targeted therapy in patients with prostate cancer. ©2014 AACR.

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Year:  2014        PMID: 24491799      PMCID: PMC3975662          DOI: 10.1158/0008-5472.CAN-13-1659

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  46 in total

1.  Cre/loxP-mediated inactivation of the murine Pten tumor suppressor gene.

Authors:  Ralf Lesche; Matthias Groszer; Jing Gao; Ying Wang; Albee Messing; Hong Sun; Xin Liu; Hong Wu
Journal:  Genesis       Date:  2002-02       Impact factor: 2.487

2.  Role of histone H3 lysine 27 methylation in Polycomb-group silencing.

Authors:  Ru Cao; Liangjun Wang; Hengbin Wang; Li Xia; Hediye Erdjument-Bromage; Paul Tempst; Richard S Jones; Yi Zhang
Journal:  Science       Date:  2002-09-26       Impact factor: 47.728

3.  The mechanism of growth-inhibitory effect of DOC-2/DAB2 in prostate cancer. Characterization of a novel GTPase-activating protein associated with N-terminal domain of DOC-2/DAB2.

Authors:  Zhi Wang; Ching-Ping Tseng; Rey-Chen Pong; Hong Chen; John D McConnell; Nora Navone; Jer-Tsong Hsieh
Journal:  J Biol Chem       Date:  2002-01-25       Impact factor: 5.157

4.  Generation of a prostate epithelial cell-specific Cre transgenic mouse model for tissue-specific gene ablation.

Authors:  X Wu; J Wu; J Huang; W C Powell; J Zhang; R J Matusik; F O Sangiorgi; R E Maxson; H M Sucov; P Roy-Burman
Journal:  Mech Dev       Date:  2001-03       Impact factor: 1.882

5.  BRCA1 is a negative modulator of the PRC2 complex.

Authors:  Lan Wang; Xianzhuo Zeng; Shuai Chen; Liya Ding; Jian Zhong; Jonathan C Zhao; Liguo Wang; Aaron Sarver; Antonius Koller; Jizu Zhi; Yupo Ma; Jindan Yu; Junjie Chen; Haojie Huang
Journal:  EMBO J       Date:  2013-04-26       Impact factor: 11.598

6.  Reverse phase protein microarrays which capture disease progression show activation of pro-survival pathways at the cancer invasion front.

Authors:  C P Paweletz; L Charboneau; V E Bichsel; N L Simone; T Chen; J W Gillespie; M R Emmert-Buck; M J Roth; E F Petricoin III; L A Liotta
Journal:  Oncogene       Date:  2001-04-12       Impact factor: 9.867

7.  The polycomb group protein EZH2 is involved in progression of prostate cancer.

Authors:  Sooryanarayana Varambally; Saravana M Dhanasekaran; Ming Zhou; Terrence R Barrette; Chandan Kumar-Sinha; Martin G Sanda; Debashis Ghosh; Kenneth J Pienta; Richard G A B Sewalt; Arie P Otte; Mark A Rubin; Arul M Chinnaiyan
Journal:  Nature       Date:  2002-10-10       Impact factor: 49.962

8.  Differential regulation of the human gene DAB2IP in normal and malignant prostatic epithelia: cloning and characterization.

Authors:  Hong Chen; Rey-Chen Pong; Zhi Wang; Jer-Tsong Hsieh
Journal:  Genomics       Date:  2002-04       Impact factor: 5.736

9.  Pten and p27KIP1 cooperate in prostate cancer tumor suppression in the mouse.

Authors:  A Di Cristofano; M De Acetis; A Koff; C Cordon-Cardo; P P Pandolfi
Journal:  Nat Genet       Date:  2001-02       Impact factor: 38.330

10.  Histone deacetylase 3 suppression increases PH domain and leucine-rich repeat phosphatase (Phlpp)1 expression in chondrocytes to suppress Akt signaling and matrix secretion.

Authors:  Elizabeth W Bradley; Lomeli R Carpio; Jennifer J Westendorf
Journal:  J Biol Chem       Date:  2013-02-13       Impact factor: 5.157
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  24 in total

1.  EZH2 cooperates with gain-of-function p53 mutants to promote cancer growth and metastasis.

Authors:  Yu Zhao; Liya Ding; Dejie Wang; Zhenqing Ye; Yundong He; Linlin Ma; Runzhi Zhu; Yunqian Pan; Qiang Wu; Kun Pang; Xiaonan Hou; Saravut J Weroha; Conghui Han; Roger Coleman; Ilsa Coleman; R Jeffery Karnes; Jun Zhang; Peter S Nelson; Liguo Wang; Haojie Huang
Journal:  EMBO J       Date:  2019-02-05       Impact factor: 11.598

Review 2.  Targeting epigenetic regulators for cancer therapy: mechanisms and advances in clinical trials.

Authors:  Yuan Cheng; Cai He; Manni Wang; Xuelei Ma; Fei Mo; Shengyong Yang; Junhong Han; Xiawei Wei
Journal:  Signal Transduct Target Ther       Date:  2019-12-17

3.  PTEN Loss Promotes Intratumoral Androgen Synthesis and Tumor Microenvironment Remodeling via Aberrant Activation of RUNX2 in Castration-Resistant Prostate Cancer.

Authors:  Yinhui Yang; Yang Bai; Yundong He; Yu Zhao; Jiaxiang Chen; Linlin Ma; Yunqian Pan; Michael Hinten; Jun Zhang; R Jeffrey Karnes; Manish Kohli; Jennifer J Westendorf; Benyi Li; Runzhi Zhu; Haojie Huang; Wanhai Xu
Journal:  Clin Cancer Res       Date:  2017-11-22       Impact factor: 12.531

Review 4.  Targeting epigenetic regulators for cancer therapy: mechanisms and advances in clinical trials.

Authors:  Yuan Cheng; Cai He; Manni Wang; Xuelei Ma; Fei Mo; Shengyong Yang; Junhong Han; Xiawei Wei
Journal:  Signal Transduct Target Ther       Date:  2019-12-17

Review 5.  Regulation and modulation of PTEN activity.

Authors:  Elahe Naderali; Amir Afshin Khaki; Jafar Soleymani Rad; Alireza Ali-Hemmati; Mohammad Rahmati; Hojjatollah Nozad Charoudeh
Journal:  Mol Biol Rep       Date:  2018-08-25       Impact factor: 2.316

Review 6.  Post-Translational Modifications That Drive Prostate Cancer Progression.

Authors:  Ivana Samaržija
Journal:  Biomolecules       Date:  2021-02-09

7.  Prostate tumor OVerexpressed-1 (PTOV1) down-regulates HES1 and HEY1 notch targets genes and promotes prostate cancer progression.

Authors:  Lide Alaña; Marta Sesé; Verónica Cánovas; Yolanda Punyal; Yolanda Fernández; Ibane Abasolo; Inés de Torres; Cristina Ruiz; Lluís Espinosa; Anna Bigas; Santiago Ramón Y Cajal; Pedro L Fernández; Florenci Serras; Montserrat Corominas; Timothy M Thomson; Rosanna Paciucci
Journal:  Mol Cancer       Date:  2014-03-31       Impact factor: 27.401

Review 8.  Posttranslational regulation of phosphatase and tensin homolog (PTEN) and its functional impact on cancer behaviors.

Authors:  Wenting Xu; Zhen Yang; Shu-Feng Zhou; Nonghua Lu
Journal:  Drug Des Devel Ther       Date:  2014-10-06       Impact factor: 4.162

9.  CREBBP knockdown suppressed proliferation and promoted chemo-sensitivity via PERK-mediated unfolded protein response in ovarian cancer.

Authors:  Haoyang Hu; Sheng Yin; Ruyue Ma; Rujun Chen; Shuqing Li; Yaping Chen; He Fei; Lina Yang
Journal:  J Cancer       Date:  2021-06-01       Impact factor: 4.207

Review 10.  Focus on PTEN Regulation.

Authors:  Miriam Bermúdez Brito; Evangelia Goulielmaki; Evangelia A Papakonstanti
Journal:  Front Oncol       Date:  2015-07-27       Impact factor: 6.244
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