Literature DB >> 32701507

ERG orchestrates chromatin interactions to drive prostate cell fate reprogramming.

Fei Li1,2, Qiuyue Yuan3,4, Wei Di1,2, Xinyi Xia1,2, Zhuang Liu1,2, Ninghui Mao5, Lin Li1,2, Chunfeng Li1,2, Juan He1,2, Yunguang Li1,2, Wangxin Guo1,2, Xiaoyu Zhang1,2, Yiqin Zhu1,2, Rebiguli Aji1,2, Shangqian Wang6, Xinyuan Tong1,2, Hongbin Ji1,2, Ping Chi5,7,8,9, Brett Carver5,10, Yong Wang3,4,11,12, Yu Chen5,7,8,9, Dong Gao1,2,13.   

Abstract

Although cancer is commonly perceived as a disease of dedifferentiation, the hallmark of early-stage prostate cancer is paradoxically the loss of more plastic basal cells and the abnormal proliferation of more differentiated secretory luminal cells. However, the mechanism of prostate cancer proluminal differentiation is largely unknown. Through integrating analysis of the transcription factors (TFs) from 806 human prostate cancers, we found that ERG was highly correlated with prostate cancer luminal subtyping. ERG overexpression in luminal epithelial cells inhibited those cells' normal plasticity to transdifferentiate into a basal lineage, and ERG superseded PTEN loss, which favored basal differentiation. ERG KO disrupted prostate cell luminal differentiation, whereas AR KO had no such effects. Trp63 is a known master regulator of the prostate basal lineage. Through analysis of 3D chromatin architecture, we found that ERG bound and inhibited the enhancer activity and chromatin looping of a Trp63 distal enhancer, thereby silencing its gene expression. Specific deletion of the distal ERG binding site resulted in the loss of ERG-mediated inhibition of basal differentiation. Thus, ERG, in its fundamental role in lineage differentiation in prostate cancer initiation, orchestrated chromatin interactions and regulated prostate cell lineage toward a proluminal program.

Entities:  

Keywords:  Cell Biology; Oncology; Prostate cancer; Transcription

Mesh:

Substances:

Year:  2020        PMID: 32701507      PMCID: PMC7598085          DOI: 10.1172/JCI137967

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  93 in total

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Journal:  Nat Genet       Date:  2012-05-20       Impact factor: 38.330

Review 2.  Cellular plasticity and the neuroendocrine phenotype in prostate cancer.

Authors:  Alastair H Davies; Himisha Beltran; Amina Zoubeidi
Journal:  Nat Rev Urol       Date:  2018-02-20       Impact factor: 14.432

Review 3.  Clinical implications of PTEN loss in prostate cancer.

Authors:  Tamara Jamaspishvili; David M Berman; Ashley E Ross; Howard I Scher; Angelo M De Marzo; Jeremy A Squire; Tamara L Lotan
Journal:  Nat Rev Urol       Date:  2018-02-20       Impact factor: 14.432

4.  Transdifferentiation as a Mechanism of Treatment Resistance in a Mouse Model of Castration-Resistant Prostate Cancer.

Authors:  Min Zou; Roxanne Toivanen; Antonina Mitrofanova; Nicolas Floch; Sheida Hayati; Yanping Sun; Clémentine Le Magnen; Daniel Chester; Elahe A Mostaghel; Andrea Califano; Mark A Rubin; Michael M Shen; Cory Abate-Shen
Journal:  Cancer Discov       Date:  2017-04-14       Impact factor: 39.397

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Authors:  Li Xin; Rita U Lukacs; Devon A Lawson; Donghui Cheng; Owen N Witte
Journal:  Stem Cells       Date:  2007-07-19       Impact factor: 6.277

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Journal:  Cell       Date:  2014-09-04       Impact factor: 41.582

Review 7.  Phenotype plasticity as enabler of melanoma progression and therapy resistance.

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Journal:  Nat Rev Cancer       Date:  2019-06-17       Impact factor: 60.716

8.  ETV1 is a lineage survival factor that cooperates with KIT in gastrointestinal stromal tumours.

Authors:  Ping Chi; Yu Chen; Lei Zhang; Xingyi Guo; John Wongvipat; Tambudzai Shamu; Jonathan A Fletcher; Scott Dewell; Robert G Maki; Deyou Zheng; Cristina R Antonescu; C David Allis; Charles L Sawyers
Journal:  Nature       Date:  2010-10-03       Impact factor: 49.962

9.  A Tmprss2-CreERT2 Knock-In Mouse Model for Cancer Genetic Studies on Prostate and Colon.

Authors:  Dong Gao; Yu Zhan; Wei Di; Amanda R Moore; Jessica J Sher; Youxin Guan; Shangqian Wang; Zeda Zhang; Devan A Murphy; Charles L Sawyers; Ping Chi; Yu Chen
Journal:  PLoS One       Date:  2016-08-18       Impact factor: 3.240

10.  Fast and accurate short read alignment with Burrows-Wheeler transform.

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Journal:  Bioinformatics       Date:  2009-05-18       Impact factor: 6.937
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  12 in total

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Review 2.  Recent advances in tissue stem cells.

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Journal:  Sci China Life Sci       Date:  2021-11-30       Impact factor: 6.038

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4.  TMPRSS2-ERG promotes the initiation of prostate cancer by suppressing oncogene-induced senescence.

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Journal:  Cancer Gene Ther       Date:  2022-04-07       Impact factor: 5.854

5.  Allosteric interactions prime androgen receptor dimerization and activation.

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Journal:  Mol Cell       Date:  2022-04-20       Impact factor: 19.328

6.  Distinct mechanisms for TMPRSS2 expression explain organ-specific inhibition of SARS-CoV-2 infection by enzalutamide.

Authors:  Fei Li; Ming Han; Pengfei Dai; Wei Xu; Juan He; Xiaoting Tao; Yang Wu; Xinyuan Tong; Xinyi Xia; Wangxin Guo; Yunjiao Zhou; Yunguang Li; Yiqin Zhu; Xiaoyu Zhang; Zhuang Liu; Rebiguli Aji; Xia Cai; Yutang Li; Di Qu; Yu Chen; Shibo Jiang; Qiao Wang; Hongbin Ji; Youhua Xie; Yihua Sun; Lu Lu; Dong Gao
Journal:  Nat Commun       Date:  2021-02-08       Impact factor: 14.919

7.  Chromosome compartmentalization alterations in prostate cancer cell lines model disease progression.

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8.  ETS-related gene (ERG) undermines genome stability in mouse prostate progenitors via Gsk3β dependent Nkx3.1 degradation.

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Review 9.  Understanding and targeting prostate cancer cell heterogeneity and plasticity.

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10.  Ras/ERK and PI3K/AKT signaling differentially regulate oncogenic ERG mediated transcription in prostate cells.

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