APC/CTNNB1 (beta-catenin) pathway alterations in human prostate cancers.

Abstract	Genetic alterations serve as beacons for the involvement of specific pathways in tumorigenesis. It was previously shown that 5% of prostate tumors harbor CTNNB1 mutations, suggesting that this tumor type may involve a deregulated APC/CTNNB1 pathway. To explore this possibility further, we searched for mutations in genes implicated in this pathway in 22 samples that included cell lines, xenografts, and primary tumors. We identified seven alterations: two in CTNNB1, three in APC, and two in hTRCP1 (also known as BTRC) which controls the degradation of CTNNB1. Alterations in the CTNNB1 regulatory domain, APC, and hTRCP1 were mutually exclusive, consistent with their equivalent effects on CTNNB1 stability. These results suggest that CTNNB1 signaling plays a critical role in the development of a significant fraction of prostate cancers. Moreover, they provide the first evidence that hTRCP1 plays a role in human neoplasia.
Authors	Amy V Gerstein, Teresa Acosta Almeida, Guojing Zhao, Eric Chess, Ie-Ming Shih, Kent Buhler, Kenneth Pienta, Mark A Rubin, Robert Vessella, Nickolas Papadopoulos
Journal	Genes, chromosomes & cancer (Genes Chromosomes Cancer) Vol. 34 Issue 1 Pg. 9-16 (May 2002) ISSN: 1045-2257 [Print] United States
PMID	11921277 (Publication Type: Journal Article)
Copyright	Copyright 2002 Wiley-Liss, Inc.
Chemical References	BTRC protein, human Btrc protein, mouse CTNNB1 protein, human CTNNB1 protein, mouse Cytoskeletal Proteins Trans-Activators beta Catenin beta-Transducin Repeat-Containing Proteins GTP-Binding Proteins
Topics	Animals Cytoskeletal Proteins (genetics) DNA Mutational Analysis (methods) Exons (genetics) GTP-Binding Proteins (genetics) Genes, APC Humans Male Mice Mutation (genetics) Prostatic Neoplasms (genetics) Signal Transduction (genetics) Trans-Activators Tumor Cells, Cultured beta Catenin beta-Transducin Repeat-Containing Proteins

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