Literature DB >> 28895566

WNT signalling in prostate cancer.

Virginia Murillo-Garzón1, Robert Kypta1,2.   

Abstract

Genome sequencing and gene expression analyses of prostate tumours have highlighted the potential importance of genetic and epigenetic changes observed in WNT signalling pathway components in prostate tumours - particularly in the development of castration-resistant prostate cancer. WNT signalling is also important in the prostate tumour microenvironment, in which WNT proteins secreted by the tumour stroma promote resistance to therapy, and in prostate cancer stem or progenitor cells, in which WNT-β-catenin signals promote self-renewal or expansion. Preclinical studies have demonstrated the potential of inhibitors that target WNT receptor complexes at the cell membrane or that block the interaction of β-catenin with lymphoid enhancer-binding factor 1 and the androgen receptor, in preventing prostate cancer progression. Some WNT signalling inhibitors are in phase I trials, but they have yet to be tested in patients with prostate cancer.

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Year:  2017        PMID: 28895566     DOI: 10.1038/nrurol.2017.144

Source DB:  PubMed          Journal:  Nat Rev Urol        ISSN: 1759-4812            Impact factor:   14.432


  158 in total

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Authors:  Hans Clevers
Journal:  Cell       Date:  2006-11-03       Impact factor: 41.582

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Authors:  Babita Madan; David M Virshup
Journal:  Mol Cancer Ther       Date:  2015-04-21       Impact factor: 6.261

3.  YAP/TAZ incorporation in the β-catenin destruction complex orchestrates the Wnt response.

Authors:  Luca Azzolin; Tito Panciera; Sandra Soligo; Elena Enzo; Silvio Bicciato; Sirio Dupont; Silvia Bresolin; Chiara Frasson; Giuseppe Basso; Vincenza Guzzardo; Ambrogio Fassina; Michelangelo Cordenonsi; Stefano Piccolo
Journal:  Cell       Date:  2014-06-26       Impact factor: 41.582

4.  Wnt signaling in castration-resistant prostate cancer: implications for therapy.

Authors:  Noriko N Yokoyama; Shujuan Shao; Bang H Hoang; Dan Mercola; Xiaolin Zi
Journal:  Am J Clin Exp Urol       Date:  2014-04-15

5.  An RNAi-based chemical genetic screen identifies three small-molecule inhibitors of the Wnt/wingless signaling pathway.

Authors:  Foster C Gonsalves; Keren Klein; Brittany B Carson; Shauna Katz; Laura A Ekas; Steve Evans; Robert Nagourney; Timothy Cardozo; Anthony M C Brown; Ramanuj DasGupta
Journal:  Proc Natl Acad Sci U S A       Date:  2011-03-10       Impact factor: 11.205

6.  Estrogen induces androgen-repressed SOX4 expression to promote progression of prostate cancer cells.

Authors:  Muyi Yang; Jing Wang; Lin Wang; Chengwu Shen; Bo Su; Mei Qi; Jing Hu; Wei Gao; Weiwei Tan; Bo Han
Journal:  Prostate       Date:  2015-05-27       Impact factor: 4.104

7.  Wnt-11 promotes neuroendocrine-like differentiation, survival and migration of prostate cancer cells.

Authors:  Pinar Uysal-Onganer; Yoshiaki Kawano; Mercedes Caro; Marjorie M Walker; Soraya Diez; R Siobhan Darrington; Jonathan Waxman; Robert M Kypta
Journal:  Mol Cancer       Date:  2010-03-10       Impact factor: 27.401

8.  SOX4 Is Essential for Prostate Tumorigenesis Initiated by PTEN Ablation.

Authors:  Birdal Bilir; Adeboye O Osunkoya; W Guy Wiles; Soma Sannigrahi; Veronique Lefebvre; Daniel Metzger; Demetri D Spyropoulos; W David Martin; Carlos S Moreno
Journal:  Cancer Res       Date:  2015-12-23       Impact factor: 12.701

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Authors:  Dan Robinson; Eliezer M Van Allen; Yi-Mi Wu; Nikolaus Schultz; Robert J Lonigro; Juan-Miguel Mosquera; Bruce Montgomery; Mary-Ellen Taplin; Colin C Pritchard; Gerhardt Attard; Himisha Beltran; Wassim Abida; Robert K Bradley; Jake Vinson; Xuhong Cao; Pankaj Vats; Lakshmi P Kunju; Maha Hussain; Felix Y Feng; Scott A Tomlins; Kathleen A Cooney; David C Smith; Christine Brennan; Javed Siddiqui; Rohit Mehra; Yu Chen; Dana E Rathkopf; Michael J Morris; Stephen B Solomon; Jeremy C Durack; Victor E Reuter; Anuradha Gopalan; Jianjiong Gao; Massimo Loda; Rosina T Lis; Michaela Bowden; Stephen P Balk; Glenn Gaviola; Carrie Sougnez; Manaswi Gupta; Evan Y Yu; Elahe A Mostaghel; Heather H Cheng; Hyojeong Mulcahy; Lawrence D True; Stephen R Plymate; Heidi Dvinge; Roberta Ferraldeschi; Penny Flohr; Susana Miranda; Zafeiris Zafeiriou; Nina Tunariu; Joaquin Mateo; Raquel Perez-Lopez; Francesca Demichelis; Brian D Robinson; Marc Schiffman; David M Nanus; Scott T Tagawa; Alexandros Sigaras; Kenneth W Eng; Olivier Elemento; Andrea Sboner; Elisabeth I Heath; Howard I Scher; Kenneth J Pienta; Philip Kantoff; Johann S de Bono; Mark A Rubin; Peter S Nelson; Levi A Garraway; Charles L Sawyers; Arul M Chinnaiyan
Journal:  Cell       Date:  2015-05-21       Impact factor: 41.582

10.  Elevated level of Wnt5a protein in localized prostate cancer tissue is associated with better outcome.

Authors:  Azharuddin Sajid Syed Khaja; Leszek Helczynski; Anders Edsjö; Roy Ehrnström; Anna Lindgren; David Ulmert; Tommy Andersson; Anders Bjartell
Journal:  PLoS One       Date:  2011-10-24       Impact factor: 3.240
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  101 in total

Review 1.  Targeting the turnover of oncoproteins as a new avenue for therapeutics development in castration-resistant prostate cancer.

Authors:  Shan Wang; Dede N Ekoue; Ganesh V Raj; Ralf Kittler
Journal:  Cancer Lett       Date:  2018-09-11       Impact factor: 8.679

Review 2.  Cellular and Molecular Mechanisms Underlying Prostate Cancer Development: Therapeutic Implications.

Authors:  Ugo Testa; Germana Castelli; Elvira Pelosi
Journal:  Medicines (Basel)       Date:  2019-07-30

3.  Wnt-pathway Activating Mutations Are Associated with Resistance to First-line Abiraterone and Enzalutamide in Castration-resistant Prostate Cancer.

Authors:  Pedro Isaacsson Velho; Wei Fu; Hao Wang; Nooshin Mirkheshti; Fahad Qazi; Fabiola A S Lima; Farah Shaukat; Michael A Carducci; Samuel R Denmeade; Channing J Paller; Mark C Markowski; Catherine H Marshall; Mario A Eisenberger; Emmanuel S Antonarakis
Journal:  Eur Urol       Date:  2019-06-05       Impact factor: 20.096

Review 4.  Concise Review: Prostate Cancer Stem Cells: Current Understanding.

Authors:  Sergej Skvortsov; Ira-Ida Skvortsova; Dean G Tang; Anna Dubrovska
Journal:  Stem Cells       Date:  2018-08-27       Impact factor: 6.277

Review 5.  The physiological role of Wnt pathway in normal development and cancer.

Authors:  Xiang Li; Maria A Ortiz; Leszek Kotula
Journal:  Exp Biol Med (Maywood)       Date:  2020-01-29

6.  Aberrant activation of hepatocyte growth factor/MET signaling promotes β-catenin-mediated prostatic tumorigenesis.

Authors:  Joseph Aldahl; Jiaqi Mi; Ariana Pineda; Won Kyung Kim; Adam Olson; Erika Hooker; Yongfeng He; Eun-Jeong Yu; Vien Le; Dong-Hoon Lee; Joseph Geradts; Zijie Sun
Journal:  J Biol Chem       Date:  2019-12-09       Impact factor: 5.157

Review 7.  Circulating tumor cells as "liquid biopsies" to understand cancer metastasis.

Authors:  Dennis Woo; Min Yu
Journal:  Transl Res       Date:  2018-07-17       Impact factor: 7.012

8.  An In Vivo Screen Identifies PYGO2 as a Driver for Metastatic Prostate Cancer.

Authors:  Xiaolu Pan; Xuemin Lu; Xin Lu; Chang-Jiun Wu; Di Zhao; Shan Feng; Yong Zang; Rumi Lee; Sunada Khadka; Samirkumar B Amin; Eun-Jung Jin; Xiaoying Shang; Pingna Deng; Yanting Luo; William R Morgenlander; Jacqueline Weinrich; Shan Jiang; Qing Chang; Nora M Navone; Patricia Troncoso; Ronald A DePinho; Y Alan Wang
Journal:  Cancer Res       Date:  2018-05-16       Impact factor: 12.701

9.  miR-425-5p suppresses tumorigenesis and DDP resistance in human-prostate cancer by targeting GSK3β and inactivating the Wnt/β-catenin signaling pathway.

Authors:  Sheng Liu; Qin Wang; Yin Liu; Zong-Yu Xia
Journal:  J Biosci       Date:  2019-09       Impact factor: 1.826

10.  Genetic variants in epithelial-mesenchymal transition genes as predictors of clinical outcomes in localized prostate cancer.

Authors:  Yang Deng; Kunlin Xie; Christopher J Logothetis; Timothy C Thompson; Jeri Kim; Maosheng Huang; David W Chang; Jian Gu; Xifeng Wu; Yuanqing Ye
Journal:  Carcinogenesis       Date:  2020-08-12       Impact factor: 4.944
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