Literature DB >> 17437993

Pharmacologic disruption of Polycomb-repressive complex 2-mediated gene repression selectively induces apoptosis in cancer cells.

Jing Tan1, Xiaojing Yang, Li Zhuang, Xia Jiang, Wei Chen, Puay Leng Lee, R K Murthy Karuturi, Patrick Boon Ooi Tan, Edison T Liu, Qiang Yu.   

Abstract

Polycomb-repressive complex 2 (PRC2)-mediated histone methylation plays an important role in aberrant cancer gene silencing and is a potential target for cancer therapy. Here we show that S-adenosylhomocysteine hydrolase inhibitor 3-Deazaneplanocin A (DZNep) induces efficient apoptotic cell death in cancer cells but not in normal cells. We found that DZNep effectively depleted cellular levels of PRC2 components EZH2, SUZ12, and EED and inhibited associated histone H3 Lys 27 methylation (but not H3 Lys 9 methylation). By integrating RNA interference (RNAi), genome-wide expression analysis, and chromatin immunoprecipitation (ChIP) studies, we have identified a prominent set of genes selectively repressed by PRC2 in breast cancer that can be reactivated by DZNep. We further demonstrate that the preferential reactivation of a set of these genes by DZNep, including a novel apoptosis affector, FBXO32, contributes to DZNep-induced apoptosis in breast cancer cells. Our results demonstrate the unique feature of DZNep as a novel chromatin remodeling compound and suggest that pharmacologic reversal of PRC2-mediated gene repression by DZNep may constitute a novel approach for cancer therapy.

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Year:  2007        PMID: 17437993      PMCID: PMC1855231          DOI: 10.1101/gad.1524107

Source DB:  PubMed          Journal:  Genes Dev        ISSN: 0890-9369            Impact factor:   11.361


  64 in total

1.  Genome-wide mapping of Polycomb target genes unravels their roles in cell fate transitions.

Authors:  Adrian P Bracken; Nikolaj Dietrich; Diego Pasini; Klaus H Hansen; Kristian Helin
Journal:  Genes Dev       Date:  2006-04-17       Impact factor: 11.361

2.  Development. Gene-suppressing proteins reveal secrets of stem cells.

Authors:  Constance Holden
Journal:  Science       Date:  2006-04-21       Impact factor: 47.728

3.  Polycomb complexes repress developmental regulators in murine embryonic stem cells.

Authors:  Laurie A Boyer; Kathrin Plath; Julia Zeitlinger; Tobias Brambrink; Lea A Medeiros; Tong Ihn Lee; Stuart S Levine; Marius Wernig; Adriana Tajonar; Mridula K Ray; George W Bell; Arie P Otte; Miguel Vidal; David K Gifford; Richard A Young; Rudolf Jaenisch
Journal:  Nature       Date:  2006-04-19       Impact factor: 49.962

4.  Control of developmental regulators by Polycomb in human embryonic stem cells.

Authors:  Tong Ihn Lee; Richard G Jenner; Laurie A Boyer; Matthew G Guenther; Stuart S Levine; Roshan M Kumar; Brett Chevalier; Sarah E Johnstone; Megan F Cole; Kyo-ichi Isono; Haruhiko Koseki; Takuya Fuchikami; Kuniya Abe; Heather L Murray; Jacob P Zucker; Bingbing Yuan; George W Bell; Elizabeth Herbolsheimer; Nancy M Hannett; Kaiming Sun; Duncan T Odom; Arie P Otte; Thomas L Volkert; David P Bartel; Douglas A Melton; David K Gifford; Rudolf Jaenisch; Richard A Young
Journal:  Cell       Date:  2006-04-21       Impact factor: 41.582

5.  A bivalent chromatin structure marks key developmental genes in embryonic stem cells.

Authors:  Bradley E Bernstein; Tarjei S Mikkelsen; Xiaohui Xie; Michael Kamal; Dana J Huebert; James Cuff; Ben Fry; Alex Meissner; Marius Wernig; Kathrin Plath; Rudolf Jaenisch; Alexandre Wagschal; Robert Feil; Stuart L Schreiber; Eric S Lander
Journal:  Cell       Date:  2006-04-21       Impact factor: 41.582

Review 6.  Polycomb silencing mechanisms and genomic programming.

Authors:  V Pirrotta
Journal:  Ernst Schering Res Found Workshop       Date:  2006

Review 7.  Polycomb silencers control cell fate, development and cancer.

Authors:  Anke Sparmann; Maarten van Lohuizen
Journal:  Nat Rev Cancer       Date:  2006-11       Impact factor: 60.716

8.  Perturbation of biochemical transmethylations by 3-deazaadenosine in vivo.

Authors:  P K Chiang; G L Cantoni
Journal:  Biochem Pharmacol       Date:  1979-06-15       Impact factor: 5.858

9.  Fbxw7 contributes to tumor suppression by targeting multiple proteins for ubiquitin-dependent degradation.

Authors:  Yo Fujii; Masayoshi Yada; Masaaki Nishiyama; Takumi Kamura; Hidehisa Takahashi; Ryosuke Tsunematsu; Etsuo Susaki; Tadashi Nakagawa; Akinobu Matsumoto; Keiichi I Nakayama
Journal:  Cancer Sci       Date:  2006-08       Impact factor: 6.716

10.  Apoptosis signal-regulating kinase 1 is a direct target of E2F1 and contributes to histone deacetylase inhibitor-induced apoptosis through positive feedback regulation of E2F1 apoptotic activity.

Authors:  Jing Tan; Li Zhuang; Xia Jiang; Kevin K Yang; Krishina M Karuturi; Qiang Yu
Journal:  J Biol Chem       Date:  2006-02-13       Impact factor: 5.157
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  416 in total

Review 1.  The role of epigenetic regulation in stem cell and cancer biology.

Authors:  Lilian E van Vlerken; Elaine M Hurt; Robert E Hollingsworth
Journal:  J Mol Med (Berl)       Date:  2012-06-02       Impact factor: 4.599

Review 2.  Identification of driver and passenger DNA methylation in cancer by epigenomic analysis.

Authors:  Satish Kalari; Gerd P Pfeifer
Journal:  Adv Genet       Date:  2010       Impact factor: 1.944

3.  ALDH1A1 is a novel EZH2 target gene in epithelial ovarian cancer identified by genome-wide approaches.

Authors:  Hua Li; Benjamin G Bitler; Vinod Vathipadiekal; Marie E Maradeo; Michael Slifker; Caretha L Creasy; Peter J Tummino; Paul Cairns; Michael J Birrer; Rugang Zhang
Journal:  Cancer Prev Res (Phila)       Date:  2011-12-05

4.  PRC2 directly methylates GATA4 and represses its transcriptional activity.

Authors:  Aibin He; Xiaohua Shen; Qing Ma; Jingjing Cao; Alexander von Gise; Pingzhu Zhou; Gang Wang; Victor E Marquez; Stuart H Orkin; William T Pu
Journal:  Genes Dev       Date:  2012-01-01       Impact factor: 11.361

Review 5.  Histone methylation in myelodysplastic syndromes.

Authors:  Yue Wei; Irene Gañán-Gómez; Sophie Salazar-Dimicoli; Sara L McCay; Guillermo Garcia-Manero
Journal:  Epigenomics       Date:  2011-04       Impact factor: 4.778

6.  A complex Polycomb issue: the two faces of EZH2 in cancer.

Authors:  Hanno Hock
Journal:  Genes Dev       Date:  2012-04-15       Impact factor: 11.361

7.  Corepressor protein CDYL functions as a molecular bridge between polycomb repressor complex 2 and repressive chromatin mark trimethylated histone lysine 27.

Authors:  Yu Zhang; Xiaohan Yang; Bin Gui; Guojia Xie; Di Zhang; Yongfeng Shang; Jing Liang
Journal:  J Biol Chem       Date:  2011-10-17       Impact factor: 5.157

Review 8.  Chemical and biochemical approaches in the study of histone methylation and demethylation.

Authors:  Keqin Kathy Li; Cheng Luo; Dongxia Wang; Hualiang Jiang; Y George Zheng
Journal:  Med Res Rev       Date:  2012-07       Impact factor: 12.944

9.  DZNep represses Bcl-2 expression and modulates apoptosis sensitivity in response to Nutlin-3a.

Authors:  Yalu Zhou; Ricardo E Perez; Lei Duan; Carl G Maki
Journal:  Cancer Biol Ther       Date:  2018-03-13       Impact factor: 4.742

Review 10.  EZH2: not EZHY (easy) to deal.

Authors:  Gauri Deb; Anup Kumar Singh; Sanjay Gupta
Journal:  Mol Cancer Res       Date:  2014-02-13       Impact factor: 5.852
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