BACKGROUND: ATBF1 has been recently identified as a candidate prostate tumor suppressor gene. In addition to more unique mutations, two somatic mutations (shortening of a polypyrimidine tract [Poly(T)n] and a deletion beginning at codon 3381 (3381del)) were each observed in multiple prostate cancer samples and both appear to have an impact on ATBF1 gene function and expression. METHODS: We assayed two recurrent sequence variants in germline DNA from prostate cancer cases and controls, and examined whether carriers of these variants are at increased risk for prostate cancer. RESULTS: We found Poly(T)n variants in both normal and matched tumor DNA samples from multiple patients, indicating a germline origin in each case. Genotyping germline DNA samples indicated that 3381del was significantly associated with prostate cancer risk among sporadic cases (P = 0.03), but not among men with hereditary disease. CONCLUSIONS: Our study indicates that the germline 3381del allele may influence prostate cancer susceptibility. Copyright 2005 Wiley-Liss, Inc.
BACKGROUND:ATBF1 has been recently identified as a candidate prostate tumor suppressor gene. In addition to more unique mutations, two somatic mutations (shortening of a polypyrimidine tract [Poly(T)n] and a deletion beginning at codon 3381 (3381del)) were each observed in multiple prostate cancer samples and both appear to have an impact on ATBF1 gene function and expression. METHODS: We assayed two recurrent sequence variants in germline DNA from prostate cancer cases and controls, and examined whether carriers of these variants are at increased risk for prostate cancer. RESULTS: We found Poly(T)n variants in both normal and matched tumor DNA samples from multiple patients, indicating a germline origin in each case. Genotyping germline DNA samples indicated that 3381del was significantly associated with prostate cancer risk among sporadic cases (P = 0.03), but not among men with hereditary disease. CONCLUSIONS: Our study indicates that the germline 3381del allele may influence prostate cancer susceptibility. Copyright 2005 Wiley-Liss, Inc.
Authors: Anne-Marie Cleton-Jansen; Ronald van Eijk; Marcel Lombaerts; Marjanka K Schmidt; Laura J Van't Veer; Katja Philippo; Rhyenne M E Zimmerman; Johannes L Peterse; Vincent T B H M Smit; Tom van Wezel; Cees J Cornelisse Journal: BMC Cancer Date: 2008-04-16 Impact factor: 4.430