Literature DB >> 32999000

Protein Arginine Methyltransferase 5 Promotes pICln-Dependent Androgen Receptor Transcription in Castration-Resistant Prostate Cancer.

Shuyi Fang1, Jake L Owens2, Elena Beketova2,3, Sheng Liu4,5, Xufeng Chen6, Qingfu Zhang6, Andrew M Asberry2,3, Xuehong Deng2, Jonathan Malola2, Jiaoti Huang6, Chenglong Li7, Roberto Pili8, Bennett D Elzey9,10, Timothy L Ratliff9,10, Jun Wan11,4,5,12, Chang-Deng Hu13,10.   

Abstract

The majority of advanced prostate cancer therapies aim to inhibit androgen receptor (AR) signaling. However, AR reactivation inevitably drives disease progression to castration-resistant prostate cancer (CRPC). Here we demonstrate that protein arginine methyltransferase 5 (PRMT5) functions as an epigenetic activator of AR transcription in CRPC, requiring cooperation with a methylosome subunit pICln. In vitro and in xenograft tumors in mice, targeting PRMT5 or pICln suppressed growth of CRPC cells. Full-length AR and AR-V7 transcription activation required both PRMT5 and pICln but not MEP50. This activation of transcription was accompanied by PRMT5-mediated symmetric dimethylation of H4R3 at the proximal AR promoter. Further, knockdown of PRMT5 abolished the binding of pICln (but not vice versa) to the AR proximal promoter region, suggesting that PRMT5 recruits pICln to the AR promoter to activate AR transcription. Differential gene expression analysis in 22Rv1 cells confirmed that PRMT5 and pICln both regulate the androgen signaling pathway. In addition, PRMT5 and pICln protein expression positively correlated with AR and AR-V7 protein expression in CRPC tissues and their expression was highly correlated at the mRNA level across multiple publicly available CRPC datasets. Our results suggest that targeting PRMT5 or pICln may be explored as a novel therapy for CRPC treatment by suppressing expression of AR and AR splice variants to circumvent AR reactivation. SIGNIFICANCE: This study provides evidence that targeting PRMT5 can eliminate expression of AR and can be explored as a novel therapeutic approach to treat metastatic hormone-naïve and castration-resistant prostate cancer. ©2020 American Association for Cancer Research.

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Year:  2020        PMID: 32999000      PMCID: PMC7669631          DOI: 10.1158/0008-5472.CAN-20-1228

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


  54 in total

1.  Methylation of Sm proteins by a complex containing PRMT5 and the putative U snRNP assembly factor pICln.

Authors:  G Meister; C Eggert; D Bühler; H Brahms; C Kambach; U Fischer
Journal:  Curr Biol       Date:  2001-12-11       Impact factor: 10.834

2.  Androgen receptor (AR) degradation enhancer ASC-J9® in an FDA-approved formulated solution suppresses castration resistant prostate cancer cell growth.

Authors:  Max A Cheng; Fu-Ju Chou; Keliang Wang; Rachel Yang; Jie Ding; Qiaoxia Zhang; Gonghui Li; Shuyuan Yeh; Defeng Xu; Chawnshang Chang
Journal:  Cancer Lett       Date:  2018-01-17       Impact factor: 8.679

3.  The histone-binding protein COPR5 is required for nuclear functions of the protein arginine methyltransferase PRMT5.

Authors:  Matthieu Lacroix; Selma El Messaoudi; Geneviève Rodier; Aphonse Le Cam; Claude Sardet; Eric Fabbrizio
Journal:  EMBO Rep       Date:  2008-04-11       Impact factor: 8.807

4.  The dual epigenetic role of PRMT5 in acute myeloid leukemia: gene activation and repression via histone arginine methylation.

Authors:  S S Tarighat; R Santhanam; D Frankhouser; H S Radomska; H Lai; M Anghelina; H Wang; X Huang; L Alinari; A Walker; M A Caligiuri; C M Croce; L Li; R Garzon; C Li; R A Baiocchi; G Marcucci
Journal:  Leukemia       Date:  2015-11-05       Impact factor: 11.528

5.  CYP17A1 and Androgen-Receptor Expression in Prostate Carcinoma Tissues and Cancer Cell Lines.

Authors:  Alexandra Giatromanolaki; Virginia Fasoulaki; Dimitra Kalamida; Achilleas Mitrakas; Christos Kakouratos; Theodoros Lialiaris; Michael I Koukourakis
Journal:  Curr Urol       Date:  2019-11-13

6.  The PAF complex regulation of Prmt5 facilitates the progression and maintenance of MLL fusion leukemia.

Authors:  J Serio; J Ropa; W Chen; M Mysliwski; N Saha; L Chen; J Wang; H Miao; T Cierpicki; J Grembecka; A G Muntean
Journal:  Oncogene       Date:  2017-09-25       Impact factor: 9.867

7.  Genomic correlates of clinical outcome in advanced prostate cancer.

Authors:  Wassim Abida; Joanna Cyrta; Glenn Heller; Davide Prandi; Joshua Armenia; Ilsa Coleman; Marcin Cieslik; Matteo Benelli; Dan Robinson; Eliezer M Van Allen; Andrea Sboner; Tarcisio Fedrizzi; Juan Miguel Mosquera; Brian D Robinson; Navonil De Sarkar; Lakshmi P Kunju; Scott Tomlins; Yi Mi Wu; Daniel Nava Rodrigues; Massimo Loda; Anuradha Gopalan; Victor E Reuter; Colin C Pritchard; Joaquin Mateo; Diletta Bianchini; Susana Miranda; Suzanne Carreira; Pasquale Rescigno; Julie Filipenko; Jacob Vinson; Robert B Montgomery; Himisha Beltran; Elisabeth I Heath; Howard I Scher; Philip W Kantoff; Mary-Ellen Taplin; Nikolaus Schultz; Johann S deBono; Francesca Demichelis; Peter S Nelson; Mark A Rubin; Arul M Chinnaiyan; Charles L Sawyers
Journal:  Proc Natl Acad Sci U S A       Date:  2019-05-06       Impact factor: 11.205

8.  Androgen receptor variant-driven prostate cancer II: advances in laboratory investigations.

Authors:  Emmanuel S Antonarakis; Andrew J Armstrong; Jun Luo; Changxue Lu; Landon C Brown
Journal:  Prostate Cancer Prostatic Dis       Date:  2020-03-05       Impact factor: 5.554

9.  ERG signaling in prostate cancer is driven through PRMT5-dependent methylation of the Androgen Receptor.

Authors:  Zineb Mounir; Joshua M Korn; Thomas Westerling; Fallon Lin; Christina A Kirby; Markus Schirle; Gregg McAllister; Greg Hoffman; Nadire Ramadan; Anke Hartung; Yan Feng; David Randal Kipp; Christopher Quinn; Michelle Fodor; Jason Baird; Marie Schoumacher; Ronald Meyer; James Deeds; Gilles Buchwalter; Travis Stams; Nicholas Keen; William R Sellers; Myles Brown; Raymond A Pagliarini
Journal:  Elife       Date:  2016-05-16       Impact factor: 8.140

10.  Niclosamide enhances abiraterone treatment via inhibition of androgen receptor variants in castration resistant prostate cancer.

Authors:  Chengfei Liu; Cameron Armstrong; Yezi Zhu; Wei Lou; Allen C Gao
Journal:  Oncotarget       Date:  2016-05-31
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  5 in total

1.  Targeting Protein Arginine Methyltransferase 5 Suppresses Radiation-induced Neuroendocrine Differentiation and Sensitizes Prostate Cancer Cells to Radiation.

Authors:  Elena Beketova; Sheng Liu; Jake L Owens; Qi Shen; Jogendra Singh Pawar; Andrew M Asberry; Jie Yang; Xuehong Deng; Bennett D Elzey; Timothy L Ratliff; Liang Cheng; Richard Choo; Deborah E Citrin; Thomas J Polascik; Bangchen Wang; Jiaoti Huang; Chenglong Li; Jun Wan; Chang-Deng Hu
Journal:  Mol Cancer Ther       Date:  2022-03-01       Impact factor: 6.009

Review 2.  Protein arginine methyltransferases: promising targets for cancer therapy.

Authors:  Jee Won Hwang; Yena Cho; Gyu-Un Bae; Su-Nam Kim; Yong Kee Kim
Journal:  Exp Mol Med       Date:  2021-05-18       Impact factor: 8.718

Review 3.  PRMT5: a putative oncogene and therapeutic target in prostate cancer.

Authors:  Elena Beketova; Jake L Owens; Andrew M Asberry; Chang-Deng Hu
Journal:  Cancer Gene Ther       Date:  2021-04-14       Impact factor: 5.854

4.  Prostate-specific membrane antigen modulates the progression of prostate cancer by regulating the synthesis of arginine and proline and the expression of androgen receptors and Fos proto-oncogenes.

Authors:  Xi Hong; Liang Mao; Luwei Xu; Qiang Hu; Ruipeng Jia
Journal:  Bioengineered       Date:  2022-01       Impact factor: 3.269

Review 5.  How Protein Methylation Regulates Steroid Receptor Function.

Authors:  Lucie Malbeteau; Ha Thuy Pham; Louisane Eve; Michael R Stallcup; Coralie Poulard; Muriel Le Romancer
Journal:  Endocr Rev       Date:  2022-01-12       Impact factor: 19.871
  5 in total

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