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Literature DB >> 30697579

Concurrent EAF2 and ELL2 loss phenocopies individual EAF2 or ELL2 loss in prostate cancer cells and murine prostate.

Mingming Zhong¹, Laura E Pascal¹, Erdong Cheng¹, Khalid Z Masoodi^1,2, Wei Chen¹, Anthony Green³, Brian W Cross¹, Erica Parrinello¹, Lora H Rigatti⁴, Zhou Wang^5,1,6.

Abstract

Elongation factor for RNA polymerase II 2 (ELL2) and ELL-associated factor 2 (EAF2) are two functionally related androgen responsive gene-encoded proteins with prostate tumor suppressor characteristics. EAF2 and ELL2 have both been shown to be down-regulated in advanced prostate cancer, and mice with either Eaf2 or Ell2 deficiency developed murine prostatic intraepithelial neoplasia (mPIN), increased cellular proliferation and increased vascularity. Functional studies have revealed that EAF2 and ELL2 can bind to each other and have similar roles in regulating cell proliferation, angiogenesis and prostate homeostasis. Here, cell line experiments showed that knockdown of EAF2 or ELL2 induced an increase in proliferation and migration in C4-2 and 22Rv1 prostate cancer cells. Concurrent knockdown of EAF2 and ELL2 increased proliferation and migration similarly to the loss of EAF2 or ELL2 alone. Mice with homozygous deletion of Ell2 or heterozygous deletion of Eaf2 developed mPIN lesions characterized by increased epithelial proliferation, intraductal microvessel density, and infiltrating intraductal CD3-positive T-cells compared to wild-type controls. Mice with combined heterozygous deletion of Eaf2 and Ell2 developed mPIN lesions that were similar to those observed in mice with deficiency in Eaf2 or Ell2 alone. These results suggest that EAF2 and ELL2 have similar functions and are likely to require each other in their regulation of prostate epithelial cell proliferation and migration in prostate cancer cells as well as their tumor suppressive properties in the murine prostate.

Entities: Disease Gene Species

Keywords: 22Rv1; C4-2; EAF2; ELL2; mouse; prostate cancer

Year: 2018 PMID： 30697579 PMCID： PMC6334201

Source DB: PubMed Journal: Am J Clin Exp Urol ISSN： 2330-1910

19 in total

1. Regulation of fertility, survival, and cuticle collagen function by the Caenorhabditis elegans eaf-1 and ell-1 genes.

Authors: Liquan Cai; Binh L Phong; Alfred L Fisher; Zhou Wang
Journal: J Biol Chem Date: 2011-08-31 Impact factor: 5.157

2. ELL-associated factors 1 and 2 are positive regulators of RNA polymerase II elongation factor ELL.

Authors: Stephanie E Kong; Charles A S Banks; Ali Shilatifard; Joan Weliky Conaway; Ronald C Conaway
Journal: Proc Natl Acad Sci U S A Date: 2005-07-08 Impact factor: 11.205

3. Upregulation of androgen-responsive genes and transforming growth factor-β1 cascade genes in a rat model of non-bacterial prostatic inflammation.

Authors: Yasuhito Funahashi; Katherine J O'Malley; Naoki Kawamorita; Pradeep Tyagi; Donald B DeFranco; Ryosuke Takahashi; Momokazu Gotoh; Zhou Wang; Naoki Yoshimura
Journal: Prostate Date: 2013-12-17 Impact factor: 4.104

4. Identification, cloning, expression, and biochemical characterization of the testis-specific RNA polymerase II elongation factor ELL3.

Authors: T Miller; K Williams; R W Johnstone; A Shilatifard
Journal: J Biol Chem Date: 2000-10-13 Impact factor: 5.157

5. Identification and Characterization of a Schizosaccharomyces pombe RNA Polymerase II Elongation Factor with Similarity to the Metazoan Transcription Factor ELL.

Authors: Charles A S Banks; Stephanie E Kong; Henrik Spahr; Laurence Florens; Skylar Martin-Brown; Michael P Washburn; Joan W Conaway; Arcady Mushegian; Ronald C Conaway
Journal: J Biol Chem Date: 2006-12-06 Impact factor: 5.157

6. U19/Eaf2 knockout causes lung adenocarcinoma, B-cell lymphoma, hepatocellular carcinoma and prostatic intraepithelial neoplasia.

Authors: W Xiao; Q Zhang; G Habermacher; X Yang; A-Y Zhang; X Cai; J Hahn; J Liu; M Pins; L Doglio; R Dhir; J Gingrich; Z Wang
Journal: Oncogene Date: 2007-09-17 Impact factor: 9.867

7. Concomitant loss of EAF2/U19 and Pten synergistically promotes prostate carcinogenesis in the mouse model.

Authors: J Ai; L E Pascal; K J O'Malley; J A Dar; S Isharwal; Z Qiao; B Ren; L H Rigatti; R Dhir; W Xiao; J B Nelson; Z Wang
Journal: Oncogene Date: 2013-05-27 Impact factor: 9.867

8. The expression of androgen-responsive genes is up-regulated in the epithelia of benign prostatic hyperplasia.

Authors: Katherine J O'Malley; Rajiv Dhir; Joel B Nelson; James Bost; Yan Lin; Zhou Wang
Journal: Prostate Date: 2009-12-01 Impact factor: 4.104

9. Suppression of prostate tumor growth by U19, a novel testosterone-regulated apoptosis inducer.

Authors: Wuhan Xiao; Qiuheng Zhang; Feng Jiang; Michael Pins; James M Kozlowski; Zhou Wang
Journal: Cancer Res Date: 2003-08-01 Impact factor: 12.701

10. Development of a reactive stroma associated with prostatic intraepithelial neoplasia in EAF2 deficient mice.

Authors: Laura E Pascal; Junkui Ai; Khalid Z Masoodi; Yujuan Wang; Dan Wang; Kurtis Eisermann; Lora H Rigatti; Katherine J O'Malley; Hei M Ma; Xinhui Wang; Javid A Dar; Anil V Parwani; Brian W Simons; Michael M Ittman; Luyuan Li; Benjamin J Davies; Zhou Wang
Journal: PLoS One Date: 2013-11-18 Impact factor: 3.240

4 in total