PURPOSE: The presence of intrinsic radiosensitivity within prostate cancer patients may be an important factor contributing to development of radiation toxicity. We investigated whether variants in genes responsible for detecting and repairing DNA damage independently contribute to toxicity following prostate brachytherapy. EXPERIMENTAL DESIGN: Genomic DNA was extracted from blood samples of 41 prostate brachytherapy patients, 21 with high and 20 with low late toxicity scores. For each patient, 242 PCR amplicons were generated containing 173 exons of eight candidate genes: ATM, BRCA1, ERCC2, H2AFX, LIG4, MDC1, MRE11A, and RAD50. These amplicons were sequenced and all sequence variants were subjected to statistical analysis to identify those associated with late radiation toxicity. RESULTS: Across 41 patients, 239 sites differed from the human genome reference sequence; 170 of these corresponded to known polymorphisms. Sixty variants, 14 of them novel, affected protein coding regions and 43 of these were missense mutations. In our patient population, the high toxicity group was enriched for individuals with at least one LIG4 coding variant (P = 0.028). One synonymous variant in MDC1, rs28986317, was associated with increased radiosensitivity (P = 0.048). A missense variant in ATM, rs1800057, associated with increased prostate cancer risk, was found exclusively in two high toxicity patients but did not reach statistical significance for association with radiosensitivity (P = 0.488). CONCLUSIONS: Our data revealed new germ-line sequence variants, indicating that existing sequence databases do not fully represent the full extent of sequence variation. Variants in three DNA repair genes were linked to increased radiosensitivity but require validation in larger populations.
PURPOSE: The presence of intrinsic radiosensitivity within prostate cancerpatients may be an important factor contributing to development of radiation toxicity. We investigated whether variants in genes responsible for detecting and repairing DNA damage independently contribute to toxicity following prostate brachytherapy. EXPERIMENTAL DESIGN: Genomic DNA was extracted from blood samples of 41 prostate brachytherapy patients, 21 with high and 20 with low late toxicity scores. For each patient, 242 PCR amplicons were generated containing 173 exons of eight candidate genes: ATM, BRCA1, ERCC2, H2AFX, LIG4, MDC1, MRE11A, and RAD50. These amplicons were sequenced and all sequence variants were subjected to statistical analysis to identify those associated with late radiation toxicity. RESULTS: Across 41 patients, 239 sites differed from the human genome reference sequence; 170 of these corresponded to known polymorphisms. Sixty variants, 14 of them novel, affected protein coding regions and 43 of these were missense mutations. In our patient population, the high toxicity group was enriched for individuals with at least one LIG4 coding variant (P = 0.028). One synonymous variant in MDC1, rs28986317, was associated with increased radiosensitivity (P = 0.048). A missense variant in ATM, rs1800057, associated with increased prostate cancer risk, was found exclusively in two high toxicitypatients but did not reach statistical significance for association with radiosensitivity (P = 0.488). CONCLUSIONS: Our data revealed new germ-line sequence variants, indicating that existing sequence databases do not fully represent the full extent of sequence variation. Variants in three DNA repair genes were linked to increased radiosensitivity but require validation in larger populations.
Authors: Lois B Travis; Andrea K Ng; James M Allan; Ching-Hon Pui; Ann R Kennedy; X George Xu; James A Purdy; Kimberly Applegate; Joachim Yahalom; Louis S Constine; Ethel S Gilbert; John D Boice Journal: J Natl Cancer Inst Date: 2012-02-06 Impact factor: 13.506
Authors: Li Xu; Elaine Cristina Morari; Qingyi Wei; Erich M Sturgis; Laura S Ward Journal: J Clin Endocrinol Metab Date: 2012-03-21 Impact factor: 5.958
Authors: Kiran Mahajan; Domenico Coppola; Bhupendra Rawal; Y Ann Chen; Harshani R Lawrence; Robert W Engelman; Nicholas J Lawrence; Nupam P Mahajan Journal: J Biol Chem Date: 2012-05-07 Impact factor: 5.157