Common genetic polymorphisms modify the effect of smoking on absolute risk of bladder cancer
Montserrat Garcia-Closas, Nathaniel Rothman, Jonine D Figueroa, Ludmila Prokunina-Olsson, Summer S Han, Dalsu Baris, Eric J Jacobs, Nuria Malats, Immaculata De Vivo, Demetrius Albanes, Mark P Purdue, Sapna Sharma, Yi-Ping Fu, Manolis Kogevinas, Zhaoming Wang, Wei Tang, Adonina Tardón, Consol Serra, Alfredo Carrato, Reina García-Closas, Josep Lloreta, Alison Johnson, Molly Schwenn, Margaret R Karagas, Alan Schned, Gerald Andriole Jr, Robert Grubb 3rd, Amanda Black, Susan M Gapstur, Michael Thun, William Ryan Diver, Stephanie J Weinstein, Jarmo Virtamo, David J Hunter, Neil Caporaso, Maria Teresa Landi, Amy Hutchinson, Laurie Burdett, Kevin B Jacobs, Meredith Yeager, Joseph F Fraumeni Jr, Stephen J Chanock, Debra T Silverman, Nilanjan Chatterjee, Montserrat Garcia-Closas, Nathaniel Rothman, Jonine D Figueroa, Ludmila Prokunina-Olsson, Summer S Han, Dalsu Baris, Eric J Jacobs, Nuria Malats, Immaculata De Vivo, Demetrius Albanes, Mark P Purdue, Sapna Sharma, Yi-Ping Fu, Manolis Kogevinas, Zhaoming Wang, Wei Tang, Adonina Tardón, Consol Serra, Alfredo Carrato, Reina García-Closas, Josep Lloreta, Alison Johnson, Molly Schwenn, Margaret R Karagas, Alan Schned, Gerald Andriole Jr, Robert Grubb 3rd, Amanda Black, Susan M Gapstur, Michael Thun, William Ryan Diver, Stephanie J Weinstein, Jarmo Virtamo, David J Hunter, Neil Caporaso, Maria Teresa Landi, Amy Hutchinson, Laurie Burdett, Kevin B Jacobs, Meredith Yeager, Joseph F Fraumeni Jr, Stephen J Chanock, Debra T Silverman, Nilanjan Chatterjee
Abstract
Bladder cancer results from the combined effects of environmental and genetic factors, smoking being the strongest risk factor. Evaluating absolute risks resulting from the joint effects of smoking and genetic factors is critical to assess the public health relevance of genetic information. Analyses included up to 3,942 cases and 5,680 controls of European background in seven studies. We tested for multiplicative and additive interactions between smoking and 12 susceptibility loci, individually and combined as a polygenic risk score (PRS). Thirty-year absolute risks and risk differences by levels of the PRS were estimated for U.S. males aged 50 years. Six of 12 variants showed significant additive gene-environment interactions, most notably NAT2 (P = 7 × 10(-4)) and UGT1A6 (P = 8 × 10(-4)). The 30-year absolute risk of bladder cancer in U.S. males was 6.2% for all current smokers. This risk ranged from 2.9% for current smokers in the lowest quartile of the PRS to 9.9% for current smokers in the upper quartile. Risk difference estimates indicated that 8,200 cases would be prevented if elimination of smoking occurred in 100,000 men in the upper PRS quartile compared with 2,000 cases prevented by a similar effort in the lowest PRS quartile (P(additive) = 1 × 10(-4)). Thus, the potential impact of eliminating smoking on the number of bladder cancer cases prevented is larger for individuals at higher than lower genetic risk. Our findings could have implications for targeted prevention strategies. However, other smoking-related diseases, as well as practical and ethical considerations, need to be considered before any recommendations could be made.
©2012 AACR.
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Source: PubMed