Literature DB >> 17485299

Chromosomal aberrations in prostate cancer.

Outi Saramaki1, Tapio Visakorpi.   

Abstract

Prostate cancer incidence is steadily increasing in Western industrialized countries where it has become the most common male malignancy and second most common cause of cancer death among men. Despite efforts to understand the mechanisms of prostate cancer development and progression, the reasons for the disease remain unclear. Although recurrent DNA copy number aberrations in prostate cancer have been well documented in the past 15 years, most of the target genes for these aberrations remain to be identified. The most common DNA copy number aberrations are losses in chromosomes 5q, 6q, 8p, 10q, 13q, 16q, 17p, and 18q, and gains in 7p/q, 8q, 9p, and Xq. In addition, a chromosomal rearrangement in 21q has been observed in over 50% of prostate cancers. The target genes for two common chromosomal aberrations have been identified: the androgen receptor (AR) gene at Xq12, and TMPRSS2 and ERG at 21q. Putative target genes for other copy number aberrations include: NKX3-1 (8p loss), PTEN and MXI1 (10q loss), FOXO1A (13q loss), CDH1 and ATBF1 (16q loss), MCM7 and EZH2 (7q gain), TCEB1, EIF3S3 and MYC (8q gain). The identification of target genes for the chromosomal aberrations will provide new prognostic markers and therapeutic targets for future drug development.

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Year:  2007        PMID: 17485299     DOI: 10.2741/2312

Source DB:  PubMed          Journal:  Front Biosci        ISSN: 1093-4715


  15 in total

1.  Genome-wide linkage scan for prostate cancer susceptibility from the University of Michigan Prostate Cancer Genetics Project: suggestive evidence for linkage at 16q23.

Authors:  Ethan M Lange; Jennifer L Beebe-Dimmer; Anna M Ray; Kimberly A Zuhlke; Jaclyn Ellis; Yunfei Wang; Sarah Walters; Kathleen A Cooney
Journal:  Prostate       Date:  2009-03-01       Impact factor: 4.104

2.  A fluorescence in situ hybridization screen for E26 transformation-specific aberrations: identification of DDX5-ETV4 fusion protein in prostate cancer.

Authors:  Bo Han; Rohit Mehra; Saravana M Dhanasekaran; Jindan Yu; Anjana Menon; Robert J Lonigro; Xiaosong Wang; Yusong Gong; Lei Wang; Sunita Shankar; Bharathi Laxman; Rajal B Shah; Sooryanarayana Varambally; Nallasivam Palanisamy; Scott A Tomlins; Chandan Kumar-Sinha; Arul M Chinnaiyan
Journal:  Cancer Res       Date:  2008-09-15       Impact factor: 12.701

3.  Identification of PHLPP1 as a tumor suppressor reveals the role of feedback activation in PTEN-mutant prostate cancer progression.

Authors:  Muhan Chen; Christopher P Pratt; Martha E Zeeman; Nikolaus Schultz; Barry S Taylor; Audrey O'Neill; Mireia Castillo-Martin; Dawid G Nowak; Adam Naguib; Danielle M Grace; Jernej Murn; Nick Navin; Gurinder S Atwal; Chris Sander; William L Gerald; Carlos Cordon-Cardo; Alexandra C Newton; Brett S Carver; Lloyd C Trotman
Journal:  Cancer Cell       Date:  2011-08-16       Impact factor: 31.743

4.  MicroRNA-218 is deleted and downregulated in lung squamous cell carcinoma.

Authors:  Morgan R Davidson; Jill E Larsen; Ian A Yang; Nicholas K Hayward; Belinda E Clarke; Edwina E Duhig; Linda H Passmore; Rayleen V Bowman; Kwun M Fong
Journal:  PLoS One       Date:  2010-09-03       Impact factor: 3.240

Review 5.  What is the molecular pathology of low-risk prostate cancer?

Authors:  Hemamali Samaratunga; Jonathan I Epstein
Journal:  World J Urol       Date:  2008-04-12       Impact factor: 4.226

6.  Detection of TMPRSS2-ERG fusion gene expression in prostate cancer specimens by a novel assay using branched DNA.

Authors:  Bin Lu; Botoul Maqsodi; Wen Yang; Gary K McMaster; Sven Perner; Meredith Regan; Glenn J Bubley; Steven P Balk; Mark Rubin; Martin G Sanda
Journal:  Urology       Date:  2009-08-03       Impact factor: 2.649

Review 7.  The diverse heterogeneity of molecular alterations in prostate cancer identified through next-generation sequencing.

Authors:  Alexander W Wyatt; Fan Mo; Yuzhuo Wang; Colin C Collins
Journal:  Asian J Androl       Date:  2013-03-18       Impact factor: 3.285

8.  Distinct genomic aberrations associated with ERG rearranged prostate cancer.

Authors:  Francesca Demichelis; Sunita R Setlur; Rameen Beroukhim; Sven Perner; Jan O Korbel; Christopher J Lafargue; Dorothee Pflueger; Cara Pina; Matthias D Hofer; Andrea Sboner; Maria A Svensson; David S Rickman; Alex Urban; Michael Snyder; Matthew Meyerson; Charles Lee; Mark B Gerstein; Rainer Kuefer; Mark A Rubin
Journal:  Genes Chromosomes Cancer       Date:  2009-04       Impact factor: 5.006

9.  Cyclin E and FGF8 are downstream cell growth regulators in distinct tumor suppressor effects of ANXA7 in hormone-resistant cancer cells of breast versus prostate origin.

Authors:  A Bera; X-M Leighton; H Pollard; M Srivastava
Journal:  Trends Cancer Res       Date:  2018

10.  Investigation of Chromosome 1 Aberrations in the Lymphocytes of Prostate Cancer and Benign Prostatic Hyperplasia Patients by Fluorescence in situ Hybridization.

Authors:  Justyna Miszczyk; Mikołaj Przydacz; Michał Zembrzuski; Piotr L Chłosta
Journal:  Cancer Manag Res       Date:  2021-05-31       Impact factor: 3.989
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