Literature DB >> 28490466

RET Signaling in Prostate Cancer.

Kechen Ban1, Shu Feng1, Longjiang Shao1, Michael Ittmann2.   

Abstract

Purpose: Large diameter perineural prostate cancer is associated with poor outcomes. GDNF, with its coreceptor GFRα1, binds RET and activates downstream pro-oncogenic signaling. Because both GDNF and GFRα1 are secreted by nerves, we examined the role of RET signaling in prostate cancer.Experimental Design: Expression of RET, GDNF, and/or GFRα1 was assessed. The impact of RET signaling on proliferation, invasion and soft agar colony formation, perineural invasion, and growth in vivo was determined. Cellular signaling downstream of RET was examined by Western blotting.
Results: RET is expressed in all prostate cancer cell lines. GFRα1 is only expressed in 22Rv1 cells, which is the only line that responds to exogenous GDNF. In contrast, all cell lines respond to GDNF plus GFRα1. Conditioned medium from dorsal root ganglia contains secreted GFRα1 and promotes transformation-related phenotypes, which can be blocked by anti-GFRα1 antibody. Perineural invasion in the dorsal root ganglion assay is inhibited by anti-GFRα antibody and RET knockdown. In vivo, knockdown of RET inhibits tumor growth. RET signaling activates ERK or AKT signaling depending on context, but phosphorylation of p70S6 kinase is markedly increased in all cases. Knockdown of p70S6 kinase markedly decreases RET induced transformed phenotypes. Finally, RET is expressed in 18% of adenocarcinomas and all three small-cell carcinomas examined.Conclusions: RET promotes transformation associated phenotypes, including perineural invasion in prostate cancer via activation of p70S6 kinase. GFRα1, which is secreted by nerves, is a limiting factor for RET signaling, creating a perineural niche where RET signaling can occur. Clin Cancer Res; 23(16); 4885-96. ©2017 AACR. ©2017 American Association for Cancer Research.

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Year:  2017        PMID: 28490466      PMCID: PMC5609835          DOI: 10.1158/1078-0432.CCR-17-0528

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  43 in total

1.  Oncogene-specific activation of tyrosine kinase networks during prostate cancer progression.

Authors:  Justin M Drake; Nicholas A Graham; Tanya Stoyanova; Amir Sedghi; Andrew S Goldstein; Houjian Cai; Daniel A Smith; Hong Zhang; Evangelia Komisopoulou; Jiaoti Huang; Thomas G Graeber; Owen N Witte
Journal:  Proc Natl Acad Sci U S A       Date:  2012-01-17       Impact factor: 11.205

2.  A tyrosine kinase profile of prostate carcinoma.

Authors:  D Robinson; F He; T Pretlow; H J Kung
Journal:  Proc Natl Acad Sci U S A       Date:  1996-06-11       Impact factor: 11.205

Review 3.  RET revisited: expanding the oncogenic portfolio.

Authors:  Lois M Mulligan
Journal:  Nat Rev Cancer       Date:  2014-03       Impact factor: 60.716

4.  Biological significance of perineural invasion (PNI) in prostate cancer.

Authors:  Gaëlle Fromont; Julie Godet; Christophe Pires; Mokrane Yacoub; Bertrand Dore; Jacques Irani
Journal:  Prostate       Date:  2011-07-11       Impact factor: 4.104

5.  Prognostic significance of the diameter of perineural invasion in radical prostatectomy specimens.

Authors:  N Maru; M Ohori; M W Kattan; P T Scardino; T M Wheeler
Journal:  Hum Pathol       Date:  2001-08       Impact factor: 3.466

6.  GFRα1 released by nerves enhances cancer cell perineural invasion through GDNF-RET signaling.

Authors:  Shuangba He; Chun-Hao Chen; Natalya Chernichenko; Shizhi He; Richard L Bakst; Fernando Barajas; Sylvie Deborde; Peter J Allen; Efsevia Vakiani; Zhenkun Yu; Richard J Wong
Journal:  Proc Natl Acad Sci U S A       Date:  2014-04-28       Impact factor: 11.205

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Journal:  Cell Rep       Date:  2016-07-21       Impact factor: 9.423

8.  Cancer-related axonogenesis and neurogenesis in prostate cancer.

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Journal:  Clin Cancer Res       Date:  2008-12-01       Impact factor: 12.531

9.  Global gene expression analysis of reactive stroma in prostate cancer.

Authors:  Olga Dakhova; Mustafa Ozen; Chad J Creighton; Rile Li; Gustavo Ayala; David Rowley; Michael Ittmann
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10.  Preclinical Efficacy and Safety Assessment of an Antibody-Drug Conjugate Targeting the c-RET Proto-Oncogene for Breast Carcinoma.

Authors:  Minh Nguyen; Shuichi Miyakawa; Junichi Kato; Toshiyuki Mori; Toshimitsu Arai; Mark Armanini; Karen Gelmon; Rinat Yerushalmi; Samuel Leung; Dongxia Gao; Gregory Landes; Mary Haak-Frendscho; Kathleen Elias; Andrew D Simmons
Journal:  Clin Cancer Res       Date:  2015-08-03       Impact factor: 12.531
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  17 in total

Review 1.  Tumour innervation and neurosignalling in prostate cancer.

Authors:  Brayden March; Sam Faulkner; Phillip Jobling; Allison Steigler; Alison Blatt; Jim Denham; Hubert Hondermarck
Journal:  Nat Rev Urol       Date:  2020-01-14       Impact factor: 14.432

Review 2.  Hallmarks of RET and Co-occuring Genomic Alterations in RET-aberrant Cancers.

Authors:  Jacob J Adashek; Aakash P Desai; Alexander Y Andreev-Drakhlin; Jason Roszik; Gilbert J Cote; Vivek Subbiah
Journal:  Mol Cancer Ther       Date:  2021-09-06       Impact factor: 6.261

3.  Targeting RET Kinase in Neuroendocrine Prostate Cancer.

Authors:  Halena R VanDeusen; Johnny R Ramroop; Katherine L Morel; Song Yi Bae; Anjali V Sheahan; Zoi Sychev; Nathan A Lau; Larry C Cheng; Victor M Tan; Zhen Li; Ashley Petersen; John K Lee; Jung Wook Park; Rendong Yang; Justin H Hwang; Ilsa Coleman; Owen N Witte; Colm Morrissey; Eva Corey; Peter S Nelson; Leigh Ellis; Justin M Drake
Journal:  Mol Cancer Res       Date:  2020-05-27       Impact factor: 5.852

Review 4.  Ret Receptor Has Distinct Alterations and Functions in Breast Cancer.

Authors:  Albana Gattelli; Nancy E Hynes; Ignacio E Schor; Sabrina A Vallone
Journal:  J Mammary Gland Biol Neoplasia       Date:  2020-02-21       Impact factor: 2.673

5.  Inference of transcription factor binding from cell-free DNA enables tumor subtype prediction and early detection.

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Journal:  Nat Commun       Date:  2019-10-11       Impact factor: 14.919

Review 6.  Molecular Links Between Angiogenesis and Neuroendocrine Phenotypes in Prostate Cancer Progression.

Authors:  Zheng Wang; Yicheng Zhao; Zhiqiang An; Wenliang Li
Journal:  Front Oncol       Date:  2020-01-21       Impact factor: 6.244

7.  Weighted Gene Co-Expression Network Analysis Identified Cancer Cell Proliferation as a Common Phenomenon During Perineural Invasion.

Authors:  Ting Huang; Yiwei Wang; Zhihua Wang; Yunxia Cui; Xiao Sun; Yudong Wang
Journal:  Onco Targets Ther       Date:  2019-11-28       Impact factor: 4.147

Review 8.  The GDNF Family: A Role in Cancer?

Authors:  Graeme C Fielder; Teresa Wen-Shan Yang; Mahalakshmi Razdan; Yan Li; Jun Lu; Jo K Perry; Peter E Lobie; Dong-Xu Liu
Journal:  Neoplasia       Date:  2017-12-12       Impact factor: 5.715

9.  Fibroblast growth factor receptor signaling plays a key role in transformation induced by the TMPRSS2/ERG fusion gene and decreased PTEN.

Authors:  Longjiang Shao; Jianghua Wang; Omer Faruk Karatas; Shu Feng; Yiqun Zhang; Chad J Creighton; Michael Ittmann
Journal:  Oncotarget       Date:  2018-02-12

Review 10.  RET Receptor Tyrosine Kinase: Role in Neurodegeneration, Obesity, and Cancer.

Authors:  Arun Kumar Mahato; Yulia A Sidorova
Journal:  Int J Mol Sci       Date:  2020-09-26       Impact factor: 5.923
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