Literature DB >> 29863497

ATR inhibition controls aggressive prostate tumors deficient in Y-linked histone demethylase KDM5D.

Kazumasa Komura1,2,3, Yuki Yoshikawa1,2, Teppei Shimamura4, Goutam Chakraborty1, Travis A Gerke5, Kunihiko Hinohara6, Kalyani Chadalavada7, Seong Ho Jeong8, Joshua Armenia9, Shin-Yi Du1, Ying Z Mazzu1, Kohei Taniguchi3,10, Naokazu Ibuki2, Clifford A Meyer11, Gouri J Nanjangud7, Teruo Inamoto2, Gwo-Shu Mary Lee6, Lorelei A Mucci12, Haruhito Azuma2, Christopher J Sweeney6, Philip W Kantoff1.   

Abstract

Epigenetic modifications control cancer development and clonal evolution in various cancer types. Here, we show that loss of the male-specific histone demethylase lysine-specific demethylase 5D (KDM5D) encoded on the Y chromosome epigenetically modifies histone methylation marks and alters gene expression, resulting in aggressive prostate cancer. Fluorescent in situ hybridization demonstrated that segmental or total deletion of the Y chromosome in prostate cancer cells is one of the causes of decreased KDM5D mRNA expression. The result of ChIP-sequencing analysis revealed that KDM5D preferably binds to promoter regions with coenrichment of the motifs of crucial transcription factors that regulate the cell cycle. Loss of KDM5D expression with dysregulated H3K4me3 transcriptional marks was associated with acceleration of the cell cycle and mitotic entry, leading to increased DNA-replication stress. Analysis of multiple clinical data sets reproducibly showed that loss of expression of KDM5D confers a poorer prognosis. Notably, we also found stress-induced DNA damage on the serine/threonine protein kinase ATR with loss of KDM5D. In KDM5D-deficient cells, blocking ATR activity with an ATR inhibitor enhanced DNA damage, which led to subsequent apoptosis. These data start to elucidate the biological characteristics resulting from loss of KDM5D and also provide clues for a potential novel therapeutic approach for this subset of aggressive prostate cancer.

Entities:  

Keywords:  Drug therapy; Epigenetics; Genetics; Oncology; Prostate cancer

Mesh:

Substances:

Year:  2018        PMID: 29863497      PMCID: PMC6025984          DOI: 10.1172/JCI96769

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


  59 in total

1.  Mitotic and G2 checkpoint control: regulation of 14-3-3 protein binding by phosphorylation of Cdc25C on serine-216.

Authors:  C Y Peng; P R Graves; R S Thoma; Z Wu; A S Shaw; H Piwnica-Worms
Journal:  Science       Date:  1997-09-05       Impact factor: 47.728

2.  ATR prohibits replication catastrophe by preventing global exhaustion of RPA.

Authors:  Luis Ignacio Toledo; Matthias Altmeyer; Maj-Britt Rask; Claudia Lukas; Dorthe Helena Larsen; Lou Klitgaard Povlsen; Simon Bekker-Jensen; Niels Mailand; Jiri Bartek; Jiri Lukas
Journal:  Cell       Date:  2013-11-21       Impact factor: 41.582

3.  Prognostic value of an RNA expression signature derived from cell cycle proliferation genes in patients with prostate cancer: a retrospective study.

Authors:  Jack Cuzick; Gregory P Swanson; Gabrielle Fisher; Arthur R Brothman; Daniel M Berney; Julia E Reid; David Mesher; V O Speights; Elzbieta Stankiewicz; Christopher S Foster; Henrik Møller; Peter Scardino; Jorja D Warren; Jimmy Park; Adib Younus; Darl D Flake; Susanne Wagner; Alexander Gutin; Jerry S Lanchbury; Steven Stone
Journal:  Lancet Oncol       Date:  2011-03       Impact factor: 41.316

4.  ATM/ATR checkpoint activation downregulates CDC25C to prevent mitotic entry with uncapped telomeres.

Authors:  Maria Thanasoula; Jose Miguel Escandell; Natsuko Suwaki; Madalena Tarsounas
Journal:  EMBO J       Date:  2012-07-27       Impact factor: 11.598

5.  Integrative genomic and proteomic analysis of prostate cancer reveals signatures of metastatic progression.

Authors:  Sooryanarayana Varambally; Jianjun Yu; Bharathi Laxman; Daniel R Rhodes; Rohit Mehra; Scott A Tomlins; Rajal B Shah; Uma Chandran; Federico A Monzon; Michael J Becich; John T Wei; Kenneth J Pienta; Debashis Ghosh; Mark A Rubin; Arul M Chinnaiyan
Journal:  Cancer Cell       Date:  2005-11       Impact factor: 31.743

6.  Gene set enrichment analysis: a knowledge-based approach for interpreting genome-wide expression profiles.

Authors:  Aravind Subramanian; Pablo Tamayo; Vamsi K Mootha; Sayan Mukherjee; Benjamin L Ebert; Michael A Gillette; Amanda Paulovich; Scott L Pomeroy; Todd R Golub; Eric S Lander; Jill P Mesirov
Journal:  Proc Natl Acad Sci U S A       Date:  2005-09-30       Impact factor: 11.205

7.  Synthetic Lethal Approaches Exploiting DNA Damage in Aggressive Myeloma.

Authors:  Francesca Cottini; Teru Hideshima; Rikio Suzuki; Yu-Tzu Tai; Giampaolo Bianchini; Paul G Richardson; Kenneth C Anderson; Giovanni Tonon
Journal:  Cancer Discov       Date:  2015-06-16       Impact factor: 39.397

8.  Prognostic Utility of a New mRNA Expression Signature of Gleason Score.

Authors:  Jennifer A Sinnott; Sam F Peisch; Svitlana Tyekucheva; Travis Gerke; Rosina Lis; Jennifer R Rider; Michelangelo Fiorentino; Meir J Stampfer; Lorelei A Mucci; Massimo Loda; Kathryn L Penney
Journal:  Clin Cancer Res       Date:  2016-09-23       Impact factor: 12.531

9.  Human RPA phosphorylation by ATR stimulates DNA synthesis and prevents ssDNA accumulation during DNA-replication stress.

Authors:  Vitaly M Vassin; Rachel William Anantha; Elena Sokolova; Shlomo Kanner; James A Borowiec
Journal:  J Cell Sci       Date:  2009-10-20       Impact factor: 5.285

10.  Substantial interindividual and limited intraindividual genomic diversity among tumors from men with metastatic prostate cancer.

Authors:  Akash Kumar; Ilsa Coleman; Colm Morrissey; Xiaotun Zhang; Lawrence D True; Roman Gulati; Ruth Etzioni; Hamid Bolouri; Bruce Montgomery; Thomas White; Jared M Lucas; Lisha G Brown; Ruth F Dumpit; Navonil DeSarkar; Celestia Higano; Evan Y Yu; Roger Coleman; Nikolaus Schultz; Min Fang; Paul H Lange; Jay Shendure; Robert L Vessella; Peter S Nelson
Journal:  Nat Med       Date:  2016-02-29       Impact factor: 53.440
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  19 in total

Review 1.  Consequences of Y chromosome microdeletions beyond male infertility.

Authors:  Stacy Colaco; Deepak Modi
Journal:  J Assist Reprod Genet       Date:  2019-06-18       Impact factor: 3.412

Review 2.  Targeting DNA Repair Defects for Precision Medicine in Prostate Cancer.

Authors:  Alejandro Athie; Sara Arce-Gallego; Macarena Gonzalez; Rafael Morales-Barrera; Cristina Suarez; Teresa Casals Galobart; Gonzalo Hernandez Viedma; Joan Carles; Joaquin Mateo
Journal:  Curr Oncol Rep       Date:  2019-03-27       Impact factor: 5.075

3.  Lysine demethylase 5A promotes prostate adenocarcinoma progression by suppressing microRNA-330-3p expression and activating the COPB2/PI3K/AKT axis in an ETS1-dependent manner.

Authors:  Yuanyuan Mi; Lifeng Zhang; Chuanyu Sun; Yanyan Feng; Jian Sun; Jun Wang; Dongjie Yang; Xiaowei Qi; Hongyuan Wan; Guowei Xia; Sheng Wu; Lijie Zhu
Journal:  J Cell Commun Signal       Date:  2022-05-18       Impact factor: 5.782

Review 4.  X- and Y-Linked Chromatin-Modifying Genes as Regulators of Sex-Specific Cancer Incidence and Prognosis.

Authors:  Rossella Tricarico; Emmanuelle Nicolas; Michael J Hall; Erica A Golemis
Journal:  Clin Cancer Res       Date:  2020-07-30       Impact factor: 12.531

5.  Prognostic impact of C-reactive protein-albumin ratio for the lethality in castration-resistant prostate cancer.

Authors:  Taizo Uchimoto; Kazumasa Komura; Yuya Fujiwara; Kenkichi Saito; Naoki Tanda; Tomohisa Matsunaga; Atsushi Ichihashi; Takeshi Tsutsumi; Takuya Tsujino; Yuki Yoshikawa; Yudai Nishimoto; Tomoaki Takai; Koichiro Minami; Kohei Taniguchi; Tomohito Tanaka; Hirofumi Uehara; Hajime Hirano; Hayahito Nomi; Naokazu Ibuki; Kiyoshi Takahara; Teruo Inamoto; Haruhito Azuma
Journal:  Med Oncol       Date:  2019-11-21       Impact factor: 3.064

6.  NSMF promotes the replication stress-induced DNA damage response for genome maintenance.

Authors:  Min Kyung Ju; Kyeong Jin Shin; Joo Rak Lee; Keon Woo Khim; Eun A Lee; Jae Sun Ra; Byung-Gyu Kim; Han-Seul Jo; Jong Hyuk Yoon; Tae Moon Kim; Kyungjae Myung; Jang Hyun Choi; Hongtae Kim; Young Chan Chae
Journal:  Nucleic Acids Res       Date:  2021-06-04       Impact factor: 16.971

7.  Identification of key DNA methylation-driven genes in prostate adenocarcinoma: an integrative analysis of TCGA methylation data.

Authors:  Ning Xu; Yu-Peng Wu; Zhi-Bin Ke; Ying-Chun Liang; Hai Cai; Wen-Ting Su; Xuan Tao; Shao-Hao Chen; Qing-Shui Zheng; Yong Wei; Xue-Yi Xue
Journal:  J Transl Med       Date:  2019-09-18       Impact factor: 5.531

Review 8.  Epigenetic mechanisms underlying prostate cancer radioresistance.

Authors:  Catarina Macedo-Silva; Rosaria Benedetti; Fortunato Ciardiello; Salvatore Cappabianca; Carmen Jerónimo; Lucia Altucci
Journal:  Clin Epigenetics       Date:  2021-06-08       Impact factor: 6.551

Review 9.  Lysine Demethylases: Promising Drug Targets in Melanoma and Other Cancers.

Authors:  Gaya Punnia-Moorthy; Peter Hersey; Abdullah Al Emran; Jessamy Tiffen
Journal:  Front Genet       Date:  2021-06-16       Impact factor: 4.599

10.  Y disruption, autosomal hypomethylation and poor male lung cancer survival.

Authors:  Clara Domingo-Sabugo; Elizabeth Starren; Saffron A G Willis-Owen; Liming Liang; Maxim B Freidin; Madeleine Arseneault; Youming Zhang; Shir Kiong Lu; Sanjay Popat; Eric Lim; Andrew G Nicholson; Yasser Riazalhosseini; Mark Lathrop; William O C Cookson; Miriam F Moffatt
Journal:  Sci Rep       Date:  2021-06-14       Impact factor: 4.379
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