X Wu1, H Yu, C I Amos, W K Hong, M R Spitz. 1. Department of Epidemiology, The University of Texas M. D. Anderson Cancer Center, and School of Public Health, The University of Texas Health Science Center, Houston 77030, USA. xwu@notes.mdacc.tmc.edu
Abstract
BACKGROUND: We hypothesize that accumulation of genetic damage is dependent on an individual's intrinsic carcinogen sensitivity and on various humoral factors (e.g., insulin-like growth factors [IGFs]) that enhance proliferation, resistance to apoptotic cell death, and clonal outgrowth of genetically damaged cells. We tested this hypothesis by determining whether proliferation potential and genetic instability are associated with the risk of lung cancer. METHODS: In a study of 183 lung cancer patients and 227 matched control subjects, we examined the joint effects of latent genetic instability (measured as mutagen sensitivity) and elevated proliferation potential (assessed by measuring IGFs) in lung cancer risk. Levels of IGF-I, IGF-II, and IGF-binding protein-3 (IGFBP-3) in plasma were measured by use of immunoassay kits. Mutagen sensitivity was assessed by quantitating bleomycin- and benzo[a]pyrene diol epoxide (BPDE)-induced chromatid breaks in peripheral blood lymphocyte cultures. RESULTS: Although not statistically significant, the mean levels of IGF-I and the molar ratio of IGF-I/IGFBP-3 were higher in patients with advanced or poorly differentiated disease than in patients with early or well-differentiated disease. Variation in IGFs was not associated with any specific histologic type or tumor stage. High levels of IGF-I and enhanced mutagen sensitivity were individually associated with increased risk of lung cancer: odds ratio (OR) of 2.13 (95% confidence interval [CI] = 1.20-3.78) for IGF-I, 2.50 (95% CI = 1. 49-4.20) for bleomycin sensitivity, and 2.95 (95% CI = 1.72-5.06) for BPDE sensitivity. The OR was statistically significantly elevated to 8.88 for both higher IGF-I and bleomycin sensitivity (95% CI = 3.67-21.50) and to 13.53 for higher IGF-I and BPDE sensitivity combined (95% CI = 4.48-40.89). With all three risk factors considered together, the OR was 17.09 (95% CI = 4.16-70.27). High levels of IGFBP-3 alone were associated with reduced lung cancer risk: OR = 0.59 (95% CI = 0.33-1.05). CONCLUSIONS: Our data suggest that individuals with genetic instability and higher proliferation potential are at enhanced risk for lung cancer.
BACKGROUND: We hypothesize that accumulation of genetic damage is dependent on an individual's intrinsic carcinogen sensitivity and on various humoral factors (e.g., insulin-like growth factors [IGFs]) that enhance proliferation, resistance to apoptotic cell death, and clonal outgrowth of genetically damaged cells. We tested this hypothesis by determining whether proliferation potential and genetic instability are associated with the risk of lung cancer. METHODS: In a study of 183 lung cancerpatients and 227 matched control subjects, we examined the joint effects of latent genetic instability (measured as mutagen sensitivity) and elevated proliferation potential (assessed by measuring IGFs) in lung cancer risk. Levels of IGF-I, IGF-II, and IGF-binding protein-3 (IGFBP-3) in plasma were measured by use of immunoassay kits. Mutagen sensitivity was assessed by quantitating bleomycin- and benzo[a]pyrene diol epoxide (BPDE)-induced chromatid breaks in peripheral blood lymphocyte cultures. RESULTS: Although not statistically significant, the mean levels of IGF-I and the molar ratio of IGF-I/IGFBP-3 were higher in patients with advanced or poorly differentiated disease than in patients with early or well-differentiated disease. Variation in IGFs was not associated with any specific histologic type or tumor stage. High levels of IGF-I and enhanced mutagen sensitivity were individually associated with increased risk of lung cancer: odds ratio (OR) of 2.13 (95% confidence interval [CI] = 1.20-3.78) for IGF-I, 2.50 (95% CI = 1. 49-4.20) for bleomycin sensitivity, and 2.95 (95% CI = 1.72-5.06) for BPDE sensitivity. The OR was statistically significantly elevated to 8.88 for both higher IGF-I and bleomycin sensitivity (95% CI = 3.67-21.50) and to 13.53 for higher IGF-I and BPDE sensitivity combined (95% CI = 4.48-40.89). With all three risk factors considered together, the OR was 17.09 (95% CI = 4.16-70.27). High levels of IGFBP-3 alone were associated with reduced lung cancer risk: OR = 0.59 (95% CI = 0.33-1.05). CONCLUSIONS: Our data suggest that individuals with genetic instability and higher proliferation potential are at enhanced risk for lung cancer.
Authors: Yen-Tsung Huang; Xihong Lin; Yan Liu; Lucian R Chirieac; Ray McGovern; John Wain; Rebecca Heist; Vidar Skaug; Shanbeh Zienolddiny; Aage Haugen; Li Su; Edward A Fox; Kwok-Kin Wong; David C Christiani Journal: Proc Natl Acad Sci U S A Date: 2011-09-12 Impact factor: 11.205
Authors: Yonggang He; Yilei Gong; Jie Lin; David W Chang; Jian Gu; Jack A Roth; Xifeng Wu Journal: Cancer Epidemiol Biomarkers Prev Date: 2013-01-08 Impact factor: 4.254