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3. Risk for contralateral breast cancer among carriers of the CHEK2*1100delC mutation in the WECARE Study.

Author

Mellemkjaer, L, Dahl, C, Olsen, JH, Bertelsen, L, Guldberg, P, Christensen, J, Børresen-Dale, A-L, Stovall, M, Langholz, B, Bernstein, L, Lynch, CF, Malone, KE, Haile, RW, Andersson, M, Thomas, DC, Concannon, P, Capanu, M, Boice, JD, WECARE Study Collaborative Group, and Bernstein, JL

Subjects
WECARE Study Collaborative Group, Humans, Breast Neoplasms, Protein-Serine-Threonine Kinases, SEER Program, Risk Factors, Case-Control Studies, Genotype, Germ-Line Mutation, Middle Aged, Female, Checkpoint Kinase 2, Oncology & Carcinogenesis, Oncology and Carcinogenesis, Public Health and Health Services
Abstract

The protein encoded by the CHEK2 gene is involved in cellular repair of DNA damage. The truncating mutation, CHEK2*1100delC, seems to increase the risk for breast cancer. We investigated whether the CHEK2*1100delC mutation carrier status increases the risk for asynchronous contralateral breast cancer (CBC) and whether it interacts with radiation therapy (RT) or chemotherapy in regard to CBC risk. The germline mutation frequency was assessed in 708 women with CBC and 1395 women with unilateral breast cancer (UBC) in the Women's Environment, Cancer and Radiation Epidemiology (WECARE) Study whose first primary breast cancer was diagnosed before age 55 years and during 1985--1999. Seven women with CBC (1.0%) and 10 women with UBC (0.7%) were CHEK2*1100delC variant carriers (rate ratio (RR)=1.8, 95% confidence interval (CI)=0.6-5.4 for CBC vs UBC). Carriers who received RT for their first breast cancer, compared with non-carriers not treated with RT, had an RR of developing CBC of 2.6 (95% CI=0.8-8.7). We found no significant associations between the CHEK2*1100delC mutation and CBC overall or among those treated with RT. However, the sampling variability was such that modest increases in risk could not be excluded. Nonetheless, because this is a rare mutation, it is unlikely to explain a major fraction of CBC in the population.

Published
2008

4. Risk for contralateral breast cancer among carriers of the CHEK2*1100delC mutation in the WECARE Study

Author

Mellemkjær, L, Dahl, C, Olsen, JH, Bertelsen, L, Guldberg, P, Christensen, J, Børresen-Dale, A-L, Stovall, M, Langholz, B, Bernstein, L, Lynch, CF, Malone, KE, Haile, RW, Andersson, M, Thomas, DC, Concannon, P, Capanu, M, Boice, JD, The WECARE Study Collaborative Group, and Bernstein, JL

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Breast Cancer, Clinical Research, Prevention, Cancer, Genetics, Breast Neoplasms, Case-Control Studies, Checkpoint Kinase 2, Female, Genotype, Germ-Line Mutation, Humans, Middle Aged, Protein Serine-Threonine Kinases, Risk Factors, SEER Program, WECARE Study Collaborative Group, Public Health and Health Services, Oncology & Carcinogenesis, Oncology and carcinogenesis
Abstract

The protein encoded by the CHEK2 gene is involved in cellular repair of DNA damage. The truncating mutation, CHEK2*1100delC, seems to increase the risk for breast cancer. We investigated whether the CHEK2*1100delC mutation carrier status increases the risk for asynchronous contralateral breast cancer (CBC) and whether it interacts with radiation therapy (RT) or chemotherapy in regard to CBC risk. The germline mutation frequency was assessed in 708 women with CBC and 1395 women with unilateral breast cancer (UBC) in the Women's Environment, Cancer and Radiation Epidemiology (WECARE) Study whose first primary breast cancer was diagnosed before age 55 years and during 1985--1999. Seven women with CBC (1.0%) and 10 women with UBC (0.7%) were CHEK2*1100delC variant carriers (rate ratio (RR)=1.8, 95% confidence interval (CI)=0.6-5.4 for CBC vs UBC). Carriers who received RT for their first breast cancer, compared with non-carriers not treated with RT, had an RR of developing CBC of 2.6 (95% CI=0.8-8.7). We found no significant associations between the CHEK2*1100delC mutation and CBC overall or among those treated with RT. However, the sampling variability was such that modest increases in risk could not be excluded. Nonetheless, because this is a rare mutation, it is unlikely to explain a major fraction of CBC in the population.

Published
2008

5. ATM variants 7271T>G and IVS10-6T>G among women with unilateral and bilateral breast cancer

Author

Bernstein, JL, Bernstein, L, Thompson, WD, Lynch, CF, Malone, KE, Teitelbaum, SL, Olsen, JH, Anton-Culver, H, Boice, JD, Rosenstein, BS, Børresen-Dale, A-L, Gatti, RA, Concannon, P, and Haile, RW

Subjects
Prevention, Genetics, Human Genome, Cancer, Breast Cancer, Genetic Testing, Aetiology, 2.1 Biological and endogenous factors, Adult, Aged, Ataxia Telangiectasia, Ataxia Telangiectasia Mutated Proteins, Breast Neoplasms, Case-Control Studies, Cell Cycle Proteins, DNA Mutational Analysis, DNA-Binding Proteins, Female, Genetic Predisposition to Disease, Humans, Leucine Zippers, Mass Screening, Middle Aged, Neoplasms, Second Primary, Pedigree, Phosphatidylinositol 3-Kinases, Protein Serine-Threonine Kinases, Risk Factors, Tumor Suppressor Proteins, ATM gene screening, +G+mutation%22">7271T > G mutation, +G+mutation%22">IVS10-6T > G mutation, breast cancer, bilateral breast cancer, WECARE Study Collaborative Group, Oncology and Carcinogenesis, Public Health and Health Services, Oncology & Carcinogenesis
Abstract

Recent reports suggest that two ATM gene mutations, 7271T>G and IVS10-6T>G, are associated with a high risk of breast cancer among multiple-case families. To assess the importance of these two mutations in another 'high-risk' group, young women (under age 51) with multiple primaries, we screened a large population-based series of young women with bilateral breast cancer and compared the frequency of these mutations among similar women diagnosed with unilateral breast cancer. The 1149 women included were enrolled in an ongoing population-based case-control study of the genetic factors that contribute to bilateral breast cancer; they were not selected on the basis of family history of cancer. Screening for 7271T>G and IVS10-6T>G ATM gene mutations was conducted using DHPLC followed by direct sequencing. The 7271T>G mutation was detected in one out of 638 (0.2%) women with unilateral breast cancer and in none of the bilateral cases, and the IVS10-6T>G mutation in one out of 511 (0.2%) bilateral and in eight out of 638 (1.3%) unilateral breast cancer cases. Carriers of either mutation were not limited to women with a family history. Given the likelihood that young women with bilateral breast cancer have a genetic predisposition, the observed mutation distribution is contrary to that expected if these two mutations were to play an important role in breast carcinogenesis among individuals at high risk.

Published
2003

6. Risk-reducing hysterectomy and bilateral salpingo-oophorectomy in female heterozygotes of pathogenic mismatch repair variants: a Prospective Lynch Syndrome Database report

Author

Dominguez-Valentin, M, Crosbie, EJ, Engel, C, Aretz, S, Macrae, F, Winship, I, Capella, G, Thomas, H, Nakken, S, Hovig, E, Nielsen, M, Sijmons, RH, Bertario, L, Bonanni, B, Tibiletti, MG, Cavestro, GM, Mints, M, Gluck, N, Katz, L, Heinimann, K, Vaccaro, CA, Green, K, Lalloo, F, Hill, J, Schmiegel, W, Vangala, D, Perne, C, Strauss, H-G, Tecklenburg, J, Holinski-Feder, E, Steinke-Lange, V, Mecklin, J-P, Plazzer, J-P, Pineda, M, Navarro, M, Brunet Vidal, J, Kariv, R, Rosner, G, Alejandra Pinero, T, Laura Gonzalez, M, Kalfayan, P, Ryan, N, Ten Broeke, SW, Jenkins, MA, Sunde, L, Bernstein, I, Burn, J, Greenblatt, M, Cappel, WHDVTN, Della Valle, A, Lopez-Koestner, F, Alvarez, K, Buettner, R, Goergens, H, Morak, M, Holzapfel, S, Hueneburg, R, Doeberitz, MVK, Loeffler, M, Rahner, N, Weitz, J, Pylvanainen, K, Renkonen-Sinisalo, L, Lepisto, A, Auranen, A, Hopper, JL, Win, AK, Haile, RW, Lindor, NM, Gallinger, S, Le Marchand, L, Newcomb, PA, Figueiredo, JC, Thibodeau, SN, Therkildsen, C, Okkels, H, Ketabi, Z, Denton, OG, Rodland, EA, Vasen, H, Neffa, F, Esperon, P, Tjandra, D, Moeslein, G, Sampson, JR, Evans, DG, Seppala, TT, Moller, P, Dominguez-Valentin, M, Crosbie, EJ, Engel, C, Aretz, S, Macrae, F, Winship, I, Capella, G, Thomas, H, Nakken, S, Hovig, E, Nielsen, M, Sijmons, RH, Bertario, L, Bonanni, B, Tibiletti, MG, Cavestro, GM, Mints, M, Gluck, N, Katz, L, Heinimann, K, Vaccaro, CA, Green, K, Lalloo, F, Hill, J, Schmiegel, W, Vangala, D, Perne, C, Strauss, H-G, Tecklenburg, J, Holinski-Feder, E, Steinke-Lange, V, Mecklin, J-P, Plazzer, J-P, Pineda, M, Navarro, M, Brunet Vidal, J, Kariv, R, Rosner, G, Alejandra Pinero, T, Laura Gonzalez, M, Kalfayan, P, Ryan, N, Ten Broeke, SW, Jenkins, MA, Sunde, L, Bernstein, I, Burn, J, Greenblatt, M, Cappel, WHDVTN, Della Valle, A, Lopez-Koestner, F, Alvarez, K, Buettner, R, Goergens, H, Morak, M, Holzapfel, S, Hueneburg, R, Doeberitz, MVK, Loeffler, M, Rahner, N, Weitz, J, Pylvanainen, K, Renkonen-Sinisalo, L, Lepisto, A, Auranen, A, Hopper, JL, Win, AK, Haile, RW, Lindor, NM, Gallinger, S, Le Marchand, L, Newcomb, PA, Figueiredo, JC, Thibodeau, SN, Therkildsen, C, Okkels, H, Ketabi, Z, Denton, OG, Rodland, EA, Vasen, H, Neffa, F, Esperon, P, Tjandra, D, Moeslein, G, Sampson, JR, Evans, DG, Seppala, TT, and Moller, P

Abstract

PURPOSE: To determine impact of risk-reducing hysterectomy and bilateral salpingo-oophorectomy (BSO) on gynecological cancer incidence and death in heterozygotes of pathogenic MMR (path_MMR) variants. METHODS: The Prospective Lynch Syndrome Database was used to investigate the effects of gynecological risk-reducing surgery (RRS) at different ages. RESULTS: Risk-reducing hysterectomy at 25 years of age prevents endometrial cancer before 50 years in 15%, 18%, 13%, and 0% of path_MLH1, path_MSH2, path_MSH6, and path_PMS2 heterozygotes and death in 2%, 2%, 1%, and 0%, respectively. Risk-reducing BSO at 25 years of age prevents ovarian cancer before 50 years in 6%, 11%, 2%, and 0% and death in 1%, 2%, 0%, and 0%, respectively. Risk-reducing hysterectomy at 40 years prevents endometrial cancer by 50 years in 13%, 16%, 11%, and 0% and death in 1%, 2%, 1%, and 0%, respectively. BSO at 40 years prevents ovarian cancer before 50 years in 4%, 8%, 0%, and 0%, and death in 1%, 1%, 0%, and 0%, respectively. CONCLUSION: Little benefit is gained by performing RRS before 40 years of age and premenopausal BSO in path_MSH6 and path_PMS2 heterozygotes has no measurable benefit for mortality. These findings may aid decision making for women with LS who are considering RRS.

Published
2021

7. Genetic architectures of proximal and distal colorectal cancer are partly distinct

Author

Huyghe, JR, Harrison, TA, Bien, SA, Hampel, H, Figueiredo, JC, Schmit, SL, Conti, D, Chen, S, Qu, C, Lin, Y, Barfield, R, Baron, JA, Cross, AJ, Diergaarde, B, Duggan, D, Harlid, S, Imaz, L, Kang, HM, Levine, DM, Perduca, V, Perez-Cornago, A, Sakoda, LC, Schumacher, FR, Slattery, ML, Toland, AE, van Duijnhoven, FJB, Van Guelpen, B, Agudo, A, Albanes, D, Alonso, MH, Anderson, K, Arnau-Collell, C, Arndt, V, Banbury, BL, Bassik, MC, Berndt, S, Bezieau, S, Bishop, DT, Boehm, J, Boeing, H, Boutron-Ruault, M-C, Brenner, H, Brezina, S, Buch, S, Buchanan, DD, Burnett-Hartman, A, Caan, BJ, Campbell, PT, Carr, PR, Castells, A, Castellvi-Bel, S, Chan, AT, Chang-Claude, J, Chanock, SJ, Curtis, KR, de la Chapelle, A, Easton, DF, English, DR, Feskens, EJM, Gala, M, Gallinger, SJ, Gauderman, WJ, Giles, GG, Goodman, PJ, Grady, WM, Grove, JS, Gsur, A, Gunter, MJ, Haile, RW, Hampe, J, Hoffmeister, M, Hopper, JL, Hsu, W-L, Huang, W-Y, Hudson, TJ, Jenab, M, Jenkins, MA, Joshi, AD, Keku, TO, Kooperberg, C, Kuhn, T, Kury, S, Le Marchand, L, Lejbkowicz, F, Li, C, Li, L, Lieb, W, Lindblom, A, Lindor, NM, Mannisto, S, Markowitz, SD, Milne, RL, Moreno, L, Murphy, N, Nassir, R, Offit, K, Ogino, S, Panico, S, Parfrey, PS, Pearlman, R, Pharoah, PDP, Phipps, A, Platz, EA, Potter, JD, Prentice, RL, Qi, L, Raskin, L, Rennert, G, Rennert, HS, Riboli, E, Schafmayer, C, Schoen, RE, Seminara, D, Song, M, Su, Y-R, Tangen, CM, Thibodeau, SN, Thomas, DC, Trichopoulou, A, Ulrich, CM, Visvanathan, K, Vodicka, P, Vodickova, L, Vymetalkova, V, Weigl, K, Weinstein, SJ, White, E, Wolk, A, Woods, MO, Wu, AH, Abecasis, GR, Nickerson, DA, Scacheri, PC, Kundaje, A, Casey, G, Gruber, SB, Hsu, L, Moreno, V, Hayes, RB, Newcomb, PA, Peters, U, Huyghe, JR, Harrison, TA, Bien, SA, Hampel, H, Figueiredo, JC, Schmit, SL, Conti, D, Chen, S, Qu, C, Lin, Y, Barfield, R, Baron, JA, Cross, AJ, Diergaarde, B, Duggan, D, Harlid, S, Imaz, L, Kang, HM, Levine, DM, Perduca, V, Perez-Cornago, A, Sakoda, LC, Schumacher, FR, Slattery, ML, Toland, AE, van Duijnhoven, FJB, Van Guelpen, B, Agudo, A, Albanes, D, Alonso, MH, Anderson, K, Arnau-Collell, C, Arndt, V, Banbury, BL, Bassik, MC, Berndt, S, Bezieau, S, Bishop, DT, Boehm, J, Boeing, H, Boutron-Ruault, M-C, Brenner, H, Brezina, S, Buch, S, Buchanan, DD, Burnett-Hartman, A, Caan, BJ, Campbell, PT, Carr, PR, Castells, A, Castellvi-Bel, S, Chan, AT, Chang-Claude, J, Chanock, SJ, Curtis, KR, de la Chapelle, A, Easton, DF, English, DR, Feskens, EJM, Gala, M, Gallinger, SJ, Gauderman, WJ, Giles, GG, Goodman, PJ, Grady, WM, Grove, JS, Gsur, A, Gunter, MJ, Haile, RW, Hampe, J, Hoffmeister, M, Hopper, JL, Hsu, W-L, Huang, W-Y, Hudson, TJ, Jenab, M, Jenkins, MA, Joshi, AD, Keku, TO, Kooperberg, C, Kuhn, T, Kury, S, Le Marchand, L, Lejbkowicz, F, Li, C, Li, L, Lieb, W, Lindblom, A, Lindor, NM, Mannisto, S, Markowitz, SD, Milne, RL, Moreno, L, Murphy, N, Nassir, R, Offit, K, Ogino, S, Panico, S, Parfrey, PS, Pearlman, R, Pharoah, PDP, Phipps, A, Platz, EA, Potter, JD, Prentice, RL, Qi, L, Raskin, L, Rennert, G, Rennert, HS, Riboli, E, Schafmayer, C, Schoen, RE, Seminara, D, Song, M, Su, Y-R, Tangen, CM, Thibodeau, SN, Thomas, DC, Trichopoulou, A, Ulrich, CM, Visvanathan, K, Vodicka, P, Vodickova, L, Vymetalkova, V, Weigl, K, Weinstein, SJ, White, E, Wolk, A, Woods, MO, Wu, AH, Abecasis, GR, Nickerson, DA, Scacheri, PC, Kundaje, A, Casey, G, Gruber, SB, Hsu, L, Moreno, V, Hayes, RB, Newcomb, PA, and Peters, U

Abstract

OBJECTIVE: An understanding of the etiologic heterogeneity of colorectal cancer (CRC) is critical for improving precision prevention, including individualized screening recommendations and the discovery of novel drug targets and repurposable drug candidates for chemoprevention. Known differences in molecular characteristics and environmental risk factors among tumors arising in different locations of the colorectum suggest partly distinct mechanisms of carcinogenesis. The extent to which the contribution of inherited genetic risk factors for CRC differs by anatomical subsite of the primary tumor has not been examined. DESIGN: To identify new anatomical subsite-specific risk loci, we performed genome-wide association study (GWAS) meta-analyses including data of 48 214 CRC cases and 64 159 controls of European ancestry. We characterised effect heterogeneity at CRC risk loci using multinomial modelling. RESULTS: We identified 13 loci that reached genome-wide significance (p<5×10-8) and that were not reported by previous GWASs for overall CRC risk. Multiple lines of evidence support candidate genes at several of these loci. We detected substantial heterogeneity between anatomical subsites. Just over half (61) of 109 known and new risk variants showed no evidence for heterogeneity. In contrast, 22 variants showed association with distal CRC (including rectal cancer), but no evidence for association or an attenuated association with proximal CRC. For two loci, there was strong evidence for effects confined to proximal colon cancer. CONCLUSION: Genetic architectures of proximal and distal CRC are partly distinct. Studies of risk factors and mechanisms of carcinogenesis, and precision prevention strategies should take into consideration the anatomical subsite of the tumour.

Published
2021

8. Correction: Cancer risks by gene, age, and gender in 6350 carriers of pathogenic mismatch repair variants: findings from the Prospective Lynch Syndrome Database (vol 22, pg 15, 2020)

Author

Dominguez-Valentin, M, Sampson, JR, Seppala, TT, ten Broeke, SW, Plazzer, J-P, Nakken, S, Engel, C, Aretz, S, Jenkins, MA, Sunde, L, Bernstein, I, Capella, G, Balaguer, F, Thomas, H, Evans, DG, Burn, J, Greenblatt, M, Hovig, E, de Vos tot Nederveen Cappel, WH, Sijmons, RH, Bertario, L, Tibiletti, MG, Cavestro, GM, Lindblom, A, Della Valle, A, Lopez-Kostner, F, Gluck, N, Katz, LH, Heinimann, K, Vaccaro, CA, Buttner, R, Gorgens, H, Holinski-Feder, E, Morak, M, Holzapfel, S, Huneburg, R, Knebel Doeberitz, MV, Loeffler, M, Rahner, N, Schackert, HK, Steinke-Lange, V, Schmiegel, W, Vangala, D, Pylvanainen, K, Renkonen-Sinisalo, L, Hopper, JL, Win, AK, Haile, RW, Lindor, NM, Gallinger, S, Le Marchand, L, Newcomb, PA, Figueiredo, JC, Thibodeau, SN, Wadt, K, Therkildsen, C, Okkels, H, Ketabi, Z, Moreira, L, Sanchez, A, Serra-Burriel, M, Pineda, M, Navarro, M, Blanco, I, Green, K, Lalloo, F, Crosbie, EJ, Hill, J, Denton, OG, Frayling, IM, Rodland, EA, Vasen, H, Mints, M, Neffa, F, Esperon, P, Alvarez, K, Kariv, R, Rosner, G, Pinero, TA, Gonzalez, ML, Kalfayan, P, Tjandra, D, Winship, IM, Macrae, F, Moslein, G, Mecklin, J-P, Nielsen, M, Moller, P, Dominguez-Valentin, M, Sampson, JR, Seppala, TT, ten Broeke, SW, Plazzer, J-P, Nakken, S, Engel, C, Aretz, S, Jenkins, MA, Sunde, L, Bernstein, I, Capella, G, Balaguer, F, Thomas, H, Evans, DG, Burn, J, Greenblatt, M, Hovig, E, de Vos tot Nederveen Cappel, WH, Sijmons, RH, Bertario, L, Tibiletti, MG, Cavestro, GM, Lindblom, A, Della Valle, A, Lopez-Kostner, F, Gluck, N, Katz, LH, Heinimann, K, Vaccaro, CA, Buttner, R, Gorgens, H, Holinski-Feder, E, Morak, M, Holzapfel, S, Huneburg, R, Knebel Doeberitz, MV, Loeffler, M, Rahner, N, Schackert, HK, Steinke-Lange, V, Schmiegel, W, Vangala, D, Pylvanainen, K, Renkonen-Sinisalo, L, Hopper, JL, Win, AK, Haile, RW, Lindor, NM, Gallinger, S, Le Marchand, L, Newcomb, PA, Figueiredo, JC, Thibodeau, SN, Wadt, K, Therkildsen, C, Okkels, H, Ketabi, Z, Moreira, L, Sanchez, A, Serra-Burriel, M, Pineda, M, Navarro, M, Blanco, I, Green, K, Lalloo, F, Crosbie, EJ, Hill, J, Denton, OG, Frayling, IM, Rodland, EA, Vasen, H, Mints, M, Neffa, F, Esperon, P, Alvarez, K, Kariv, R, Rosner, G, Pinero, TA, Gonzalez, ML, Kalfayan, P, Tjandra, D, Winship, IM, Macrae, F, Moslein, G, Mecklin, J-P, Nielsen, M, and Moller, P

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2020

9. Circulating bilirubin levels and risk of colorectal cancer: serological and Mendelian randomization analyses

Author

Seyed Khoei, N, Jenab, M, Murphy, N, Banbury, BL, Carreras-Torres, R, Viallon, V, Kuehn, T, Bueno-de-Mesquita, B, Aleksandrova, K, Cross, AJ, Weiderpass, E, Stepien, M, Bulmer, A, Tjonneland, A, Boutron-Ruault, M-C, Severi, G, Carbonnel, F, Katzke, V, Boeing, H, Bergmann, MM, Trichopoulou, A, Karakatsani, A, Martimianaki, G, Palli, D, Tagliabue, G, Panico, S, Tumino, R, Sacerdote, C, Skeie, G, Merino, S, Bonet, C, Rodriguez-Barranco, M, Gil, L, Chirlaque, M-D, Ardanaz, E, Myte, R, Hultdin, J, Perez-Cornago, A, Aune, D, Tsilidis, K, Albanes, Baron, JA, Berndt, SI, Bezieau, S, Brenner, H, Campbell, PT, Casey, G, Chan, AT, Chang-Claude, J, Chanock, SJ, Cotterchio, M, Gallinger, S, Gruber, SB, Haile, RW, Hampe, J, Hoffmeister, M, Hopper, JL, Hsu, L, Huyghe, JR, Jenkins, MA, Joshi, AD, Kampman, E, Larsson, SC, Le Marchand, L, Li, CI, Li, L, Lindblom, A, Lindor, NM, Martin, V, Moreno, V, Newcomb, PA, Offit, K, Ogino, S, Parfrey, PS, Pharoah, PDP, Rennert, G, Sakoda, LC, Schafmayer, C, Schmit, SL, Schoen, RE, Slattery, ML, Thibodeau, SN, Ulrich, CM, van Duijnhoven, FJB, Weigl, K, Weinstein, SJ, White, E, Wolk, A, Woods, MO, Wu, AH, Zhang, X, Ferrari, P, Anton, G, Peters, A, Peters, U, Gunter, MJ, Wagner, K-H, Freisling, H, Seyed Khoei, N, Jenab, M, Murphy, N, Banbury, BL, Carreras-Torres, R, Viallon, V, Kuehn, T, Bueno-de-Mesquita, B, Aleksandrova, K, Cross, AJ, Weiderpass, E, Stepien, M, Bulmer, A, Tjonneland, A, Boutron-Ruault, M-C, Severi, G, Carbonnel, F, Katzke, V, Boeing, H, Bergmann, MM, Trichopoulou, A, Karakatsani, A, Martimianaki, G, Palli, D, Tagliabue, G, Panico, S, Tumino, R, Sacerdote, C, Skeie, G, Merino, S, Bonet, C, Rodriguez-Barranco, M, Gil, L, Chirlaque, M-D, Ardanaz, E, Myte, R, Hultdin, J, Perez-Cornago, A, Aune, D, Tsilidis, K, Albanes, Baron, JA, Berndt, SI, Bezieau, S, Brenner, H, Campbell, PT, Casey, G, Chan, AT, Chang-Claude, J, Chanock, SJ, Cotterchio, M, Gallinger, S, Gruber, SB, Haile, RW, Hampe, J, Hoffmeister, M, Hopper, JL, Hsu, L, Huyghe, JR, Jenkins, MA, Joshi, AD, Kampman, E, Larsson, SC, Le Marchand, L, Li, CI, Li, L, Lindblom, A, Lindor, NM, Martin, V, Moreno, V, Newcomb, PA, Offit, K, Ogino, S, Parfrey, PS, Pharoah, PDP, Rennert, G, Sakoda, LC, Schafmayer, C, Schmit, SL, Schoen, RE, Slattery, ML, Thibodeau, SN, Ulrich, CM, van Duijnhoven, FJB, Weigl, K, Weinstein, SJ, White, E, Wolk, A, Woods, MO, Wu, AH, Zhang, X, Ferrari, P, Anton, G, Peters, A, Peters, U, Gunter, MJ, Wagner, K-H, and Freisling, H

Abstract

BACKGROUND: Bilirubin, a byproduct of hemoglobin breakdown and purported anti-oxidant, is thought to be cancer preventive. We conducted complementary serological and Mendelian randomization (MR) analyses to investigate whether alterations in circulating levels of bilirubin are associated with risk of colorectal cancer (CRC). We decided a priori to perform analyses separately in men and women based on suggestive evidence that associations may differ by sex. METHODS: In a case-control study nested in the European Prospective Investigation into Cancer and Nutrition (EPIC), pre-diagnostic unconjugated bilirubin (UCB, the main component of total bilirubin) concentrations were measured by high-performance liquid chromatography in plasma samples of 1386 CRC cases and their individually matched controls. Additionally, 115 single-nucleotide polymorphisms (SNPs) robustly associated (P < 5 × 10-8) with circulating total bilirubin were instrumented in a 2-sample MR to test for a potential causal effect of bilirubin on CRC risk in 52,775 CRC cases and 45,940 matched controls in the Genetics and Epidemiology of Colorectal Cancer Consortium (GECCO), the Colon Cancer Family Registry (CCFR), and the Colorectal Transdisciplinary (CORECT) study. RESULTS: The associations between circulating UCB levels and CRC risk differed by sex (Pheterogeneity = 0.008). Among men, higher levels of UCB were positively associated with CRC risk (odds ratio [OR] = 1.19, 95% confidence interval [CI] = 1.04-1.36; per 1-SD increment of log-UCB). In women, an inverse association was observed (OR = 0.86 (0.76-0.97)). In the MR analysis of the main UGT1A1 SNP (rs6431625), genetically predicted higher levels of total bilirubin were associated with a 7% increase in CRC risk in men (OR = 1.07 (1.02-1.12); P = 0.006; per 1-SD increment of total bilirubin), while there was no association in women (OR = 1.01 (0.96-1.06); P = 0.73). Raised bilirubin levels, predicted by instrumental variables excluding rs6431625, we

Published
2020

10. Cancer risks by gene, age, and gender in 6350 carriers of pathogenic mismatch repair variants: findings from the Prospective Lynch Syndrome Database

Author

Dominguez-Valentin, M, Sampson, JR, Seppala, TT, ten Broeke, SW, Plazzer, J-P, Nakken, S, Engel, C, Aretz, S, Jenkins, MA, Sunde, L, Bernstein, I, Capella, G, Balaguer, F, Thomas, H, Evans, DG, Burn, J, Greenblatt, M, Hovig, E, de Vos Tot Nederveen Cappel, WH, Sijmons, RH, Bertario, L, Tibiletti, MG, Cavestro, GM, Lindblom, A, Della Valle, A, Lopez-Kostner, F, Gluck, N, Katz, LH, Heinimann, K, Vaccaro, CA, Buettner, R, Goergens, H, Holinski-Feder, E, Morak, M, Holzapfel, S, Hueneburg, R, von Knebel Doeberitz, M, Loeffler, M, Rahner, N, Schackert, HK, Steinke-Lange, V, Schmiegel, W, Vangala, D, Pylvanainen, K, Renkonen-Sinisalo, L, Hopper, JL, Win, AK, Haile, RW, Lindor, NM, Gallinger, S, Le Marchand, L, Newcomb, PA, Figueiredo, JC, Thibodeau, SN, Wadt, K, Therkildsen, C, Okkels, H, Ketabi, Z, Moreira, L, Sanchez, A, Serra-Burriel, M, Pineda, M, Navarro, M, Blanco, I, Green, K, Lalloo, F, Crosbie, EJ, Hill, J, Denton, OG, Frayling, IM, Rodland, EA, Vasen, H, Mints, M, Neffa, F, Esperon, P, Alvarez, K, Kariv, R, Rosner, G, Pinero, TA, Gonzalez, ML, Kalfayan, P, Tjandra, D, Winship, IM, Macrae, F, Moeslein, G, Mecklin, J-P, Nielsen, M, Moller, P, Dominguez-Valentin, M, Sampson, JR, Seppala, TT, ten Broeke, SW, Plazzer, J-P, Nakken, S, Engel, C, Aretz, S, Jenkins, MA, Sunde, L, Bernstein, I, Capella, G, Balaguer, F, Thomas, H, Evans, DG, Burn, J, Greenblatt, M, Hovig, E, de Vos Tot Nederveen Cappel, WH, Sijmons, RH, Bertario, L, Tibiletti, MG, Cavestro, GM, Lindblom, A, Della Valle, A, Lopez-Kostner, F, Gluck, N, Katz, LH, Heinimann, K, Vaccaro, CA, Buettner, R, Goergens, H, Holinski-Feder, E, Morak, M, Holzapfel, S, Hueneburg, R, von Knebel Doeberitz, M, Loeffler, M, Rahner, N, Schackert, HK, Steinke-Lange, V, Schmiegel, W, Vangala, D, Pylvanainen, K, Renkonen-Sinisalo, L, Hopper, JL, Win, AK, Haile, RW, Lindor, NM, Gallinger, S, Le Marchand, L, Newcomb, PA, Figueiredo, JC, Thibodeau, SN, Wadt, K, Therkildsen, C, Okkels, H, Ketabi, Z, Moreira, L, Sanchez, A, Serra-Burriel, M, Pineda, M, Navarro, M, Blanco, I, Green, K, Lalloo, F, Crosbie, EJ, Hill, J, Denton, OG, Frayling, IM, Rodland, EA, Vasen, H, Mints, M, Neffa, F, Esperon, P, Alvarez, K, Kariv, R, Rosner, G, Pinero, TA, Gonzalez, ML, Kalfayan, P, Tjandra, D, Winship, IM, Macrae, F, Moeslein, G, Mecklin, J-P, Nielsen, M, and Moller, P

Abstract

PURPOSE: Pathogenic variants affecting MLH1, MSH2, MSH6, and PMS2 cause Lynch syndrome and result in different but imprecisely known cancer risks. This study aimed to provide age and organ-specific cancer risks according to gene and gender and to determine survival after cancer. METHODS: We conducted an international, multicenter prospective observational study using independent test and validation cohorts of carriers of class 4 or class 5 variants. After validation the cohorts were merged providing 6350 participants and 51,646 follow-up years. RESULTS: There were 1808 prospectively observed cancers. Pathogenic MLH1 and MSH2 variants caused high penetrance dominant cancer syndromes sharing similar colorectal, endometrial, and ovarian cancer risks, but older MSH2 carriers had higher risk of cancers of the upper urinary tract, upper gastrointestinal tract, brain, and particularly prostate. Pathogenic MSH6 variants caused a sex-limited trait with high endometrial cancer risk but only modestly increased colorectal cancer risk in both genders. We did not demonstrate a significantly increased cancer risk in carriers of pathogenic PMS2 variants. Ten-year crude survival was over 80% following colon, endometrial, or ovarian cancer. CONCLUSION: Management guidelines for Lynch syndrome may require revision in light of these different gene and gender-specific risks and the good prognosis for the most commonly associated cancers.

Published
2020

11. DNA repair and cancer in colon and rectum: Novel players in genetic susceptibility

Author

Pardini, B, Corrado, A, Paolicchi, E, Cugliari, G, Berndt, S, Bezieau, S, Bien, SA, Brenner, H, Caan, BJ, Campbell, PT, Casey, G, Chan, AT, Chang-Claude, J, Cotterchio, M, Gala, M, Gallinger, SJ, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hsu, L, Huyghe, J, Jenkins, MA, Le Marchand, L, Lin, Y, Lindor, NM, Nan, H, Newcomb, PA, Ogino, S, Potter, JD, Schoen, RE, Slattery, ML, White, E, Vodickova, L, Vymetalkova, V, Vodicka, P, Gemignani, F, Peters, U, Naccarati, A, Landi, S, Pardini, B, Corrado, A, Paolicchi, E, Cugliari, G, Berndt, S, Bezieau, S, Bien, SA, Brenner, H, Caan, BJ, Campbell, PT, Casey, G, Chan, AT, Chang-Claude, J, Cotterchio, M, Gala, M, Gallinger, SJ, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hsu, L, Huyghe, J, Jenkins, MA, Le Marchand, L, Lin, Y, Lindor, NM, Nan, H, Newcomb, PA, Ogino, S, Potter, JD, Schoen, RE, Slattery, ML, White, E, Vodickova, L, Vymetalkova, V, Vodicka, P, Gemignani, F, Peters, U, Naccarati, A, and Landi, S

Abstract

Interindividual differences in DNA repair systems may play a role in modulating the individual risk of developing colorectal cancer. To better ascertain the role of DNA repair gene polymorphisms on colon and rectal cancer risk individually, we evaluated 15,419 single nucleotide polymorphisms (SNPs) within 185 DNA repair genes using GWAS data from the Colon Cancer Family Registry (CCFR) and the Genetics and Epidemiology of Colorectal Cancer Consortium (GECCO), which included 8,178 colon cancer, 2,936 rectum cancer cases and 14,659 controls. Rs1800734 (in MLH1 gene) was associated with colon cancer risk (p-value = 3.5 × 10-6 ) and rs2189517 (in RAD51B) with rectal cancer risk (p-value = 5.7 × 10-6 ). The results had statistical significance close to the Bonferroni corrected p-value of 5.8 × 10-6 . Ninety-four SNPs were significantly associated with colorectal cancer risk after Binomial Sequential Goodness of Fit (BSGoF) procedure and confirmed the relevance of DNA mismatch repair (MMR) and homologous recombination pathways for colon and rectum cancer, respectively. Defects in MMR genes are known to be crucial for familial form of colorectal cancer but our findings suggest that specific genetic variations in MLH1 are important also in the individual predisposition to sporadic colon cancer. Other SNPs associated with the risk of colon cancer (e.g., rs16906252 in MGMT) were found to affect mRNA expression levels in colon transverse and therefore working as possible cis-eQTL suggesting possible mechanisms of carcinogenesis.

Published
2020

12. Potential impact of family history-based screening guidelines on the detection of early-onset colorectal cancer

Author

Gupta, S, Bharti, B, Ahnen, DJ, Buchanan, DD, Cheng, IC, Cotterchio, M, Figueiredo, JC, Gallinger, SJ, Haile, RW, Jenkins, MA, Lindor, NM, Macrae, FA, Le Marchand, L, Newcomb, PA, Thibodeau, SN, Win, AK, Martinez, ME, Gupta, S, Bharti, B, Ahnen, DJ, Buchanan, DD, Cheng, IC, Cotterchio, M, Figueiredo, JC, Gallinger, SJ, Haile, RW, Jenkins, MA, Lindor, NM, Macrae, FA, Le Marchand, L, Newcomb, PA, Thibodeau, SN, Win, AK, and Martinez, ME

Abstract

BACKGROUND: Initiating screening at an earlier age based on cancer family history is one of the primary recommended strategies for the prevention and detection of early-onset colorectal cancer (EOCRC), but data supporting the effectiveness of this approach are limited. The authors assessed the performance of family history-based guidelines for identifying individuals with EOCRC. METHODS: The authors conducted a population-based, case-control study of individuals aged 40 to 49 years with (2473 individuals) and without (772 individuals) incident CRC in the Colon Cancer Family Registry from 1998 through 2007. They estimated the sensitivity and specificity of family history-based criteria jointly recommended by the American Cancer Society, the US Multi-Society Task Force on CRC, and the American College of Radiology in 2008 for early screening, and the age at which each participant could have been recommended screening initiation if these criteria had been applied. RESULTS: Family history-based early screening criteria were met by approximately 25% of cases (614 of 2473 cases) and 10% of controls (74 of 772 controls), with a sensitivity of 25% and a specificity of 90% for identifying EOCRC cases aged 40 to 49 years. Among 614 individuals meeting early screening criteria, 98.4% could have been recommended screening initiation at an age younger than the observed age of diagnosis. CONCLUSIONS: Of CRC cases aged 40 to 49 years, 1 in 4 met family history-based early screening criteria, and nearly all cases who met these criteria could have had CRC diagnosed earlier (or possibly even prevented) if earlier screening had been implemented as per family history-based guidelines. Additional strategies are needed to improve the detection and prevention of EOCRC for individuals not meeting family history criteria for early screening.

Published
2020

13. Exploratory Genome-Wide Interaction Analysis of Nonsteroidal Anti-inflammatory Drugs and Predicted Gene Expression on Colorectal Cancer Risk

Author

Wang, X, Su, Y-R, Petersen, PS, Bien, S, Schmit, SL, Drew, DA, Albanes, D, Berndt, S, Brenner, H, Campbell, PT, Casey, G, Cheng-Claude, J, Gallinger, S, Gruber, SB, Haile, RW, Harrison, TA, Hoffmeister, M, Jacobs, EJ, Jenkins, MA, Joshi, AD, Li, L, Lin, Y, Lindor, NM, Le Marchand, L, Martin, V, Milne, R, Maclnnis, R, Moreno, V, Nan, H, Newcomb, PA, Potter, JD, Rennert, G, Rennert, HS, Slattery, ML, Thibodeau, SN, Weinstein, SJ, Woods, MO, Chan, AT, White, E, Hsu, L, Peters, U, Wang, X, Su, Y-R, Petersen, PS, Bien, S, Schmit, SL, Drew, DA, Albanes, D, Berndt, S, Brenner, H, Campbell, PT, Casey, G, Cheng-Claude, J, Gallinger, S, Gruber, SB, Haile, RW, Harrison, TA, Hoffmeister, M, Jacobs, EJ, Jenkins, MA, Joshi, AD, Li, L, Lin, Y, Lindor, NM, Le Marchand, L, Martin, V, Milne, R, Maclnnis, R, Moreno, V, Nan, H, Newcomb, PA, Potter, JD, Rennert, G, Rennert, HS, Slattery, ML, Thibodeau, SN, Weinstein, SJ, Woods, MO, Chan, AT, White, E, Hsu, L, and Peters, U

Abstract

BACKGROUND: Regular use of nonsteroidal anti-inflammatory drugs (NSAID) is associated with lower risk of colorectal cancer. Genome-wide interaction analysis on single variants (G × E) has identified several SNPs that may interact with NSAIDs to confer colorectal cancer risk, but variations in gene expression levels may also modify the effect of NSAID use. Therefore, we tested interactions between NSAID use and predicted gene expression levels in relation to colorectal cancer risk. METHODS: Genetically predicted gene expressions were tested for interaction with NSAID use on colorectal cancer risk among 19,258 colorectal cancer cases and 18,597 controls from 21 observational studies. A Mixed Score Test for Interactions (MiSTi) approach was used to jointly assess G × E effects which are modeled via fixed interaction effects of the weighted burden within each gene set (burden) and residual G × E effects (variance). A false discovery rate (FDR) at 0.2 was applied to correct for multiple testing. RESULTS: Among the 4,840 genes tested, genetically predicted expression levels of four genes modified the effect of any NSAID use on colorectal cancer risk, including DPP10 (PG×E = 1.96 × 10-4), KRT16 (PG×E = 2.3 × 10-4), CD14 (PG×E = 9.38 × 10-4), and CYP27A1 (PG×E = 1.44 × 10-3). There was a significant interaction between expression level of RP11-89N17 and regular use of aspirin only on colorectal cancer risk (PG×E = 3.23 × 10-5). No interactions were observed between predicted gene expression and nonaspirin NSAID use at FDR < 0.2. CONCLUSIONS: By incorporating functional information, we discovered several novel genes that interacted with NSAID use. IMPACT: These findings provide preliminary support that could help understand the chemopreventive mechanisms of NSAIDs on colorectal cancer.

Published
2020

14. Ability of known susceptibility SNPs to predict colorectal cancer risk for persons with and without a family history

Author

Jenkins, MA, Win, AK, Dowty, JG, MacInnis, RJ, Makalic, E, Schmidt, DF, Dite, GS, Kapuscinski, M, Clendenning, M, Rosty, C, Winship, IM, Emery, JD, Saya, S, Macrae, FA, Ahnen, DJ, Duggan, D, Figueiredo, JC, Lindor, NM, Haile, RW, Potter, JD, Cotterchio, M, Gallinger, S, Newcomb, PA, Buchanan, DD, Casey, G, Hopper, JL, Jenkins, MA, Win, AK, Dowty, JG, MacInnis, RJ, Makalic, E, Schmidt, DF, Dite, GS, Kapuscinski, M, Clendenning, M, Rosty, C, Winship, IM, Emery, JD, Saya, S, Macrae, FA, Ahnen, DJ, Duggan, D, Figueiredo, JC, Lindor, NM, Haile, RW, Potter, JD, Cotterchio, M, Gallinger, S, Newcomb, PA, Buchanan, DD, Casey, G, and Hopper, JL

Abstract

Before SNP-based risk can be incorporated in colorectal cancer (CRC) screening, the ability of these SNPs to estimate CRC risk for persons with and without a family history of CRC, and the screening implications need to be determined. We estimated the association with CRC of a 45 SNP-based risk using 1181 cases and 999 controls, and its correlation with CRC risk predicted from detailed family history. We estimated the predicted change in the distribution across predefined risk categories, and implications for recommended screening commencement age, from adding SNP-based risk to family history. The inter-quintile risk ratio for colorectal cancer risk of the SNP-based risk was 3.28 (95% CI 2.54-4.22). SNP-based and family history-based risks were not correlated (r = 0.02). For persons with no first-degree relatives with CRC, screening could commence 4 years earlier for women (5 years for men) in the highest quintile of SNP-based risk. For persons with two first-degree relatives with CRC, screening could commence 16 years earlier for men and women in the highest quintile, and 7 years earlier for the lowest quintile. This 45 SNP panel in conjunction with family history, can identify people who could benefit from earlier screening. Risk reclassification by 45 SNPs could inform targeted screening for CRC prevention, particularly in clinical genetics settings when mutations in high-risk genes cannot be identified. Yet to be determined is cost-effectiveness, resources requirements, community, patient and clinician acceptance, and feasibility with potentially ethical, legal and insurance implications.

Published
2019

15. Discovery of common and rare genetic risk variants for colorectal cancer

Author

Huyghe, JR, Bien, SA, Harrison, TA, Kang, HM, Chen, S, Schmit, SL, Conti, DV, Qu, C, Jeon, J, Edlund, CK, Greenside, P, Wainberg, M, Schumacher, FR, Smith, JD, Levine, DM, Nelson, SC, Sinnott-Armstrong, NA, Albanes, D, Alonso, MH, Anderson, K, Arnau-Collell, C, Arndt, V, Bamia, C, Banbury, BL, Baron, JA, Berndt, SI, Bezieau, S, Bishop, DT, Boehm, J, Boeing, H, Brenner, H, Brezina, S, Buch, S, Buchanan, DD, Burnett-Hartman, A, Butterbach, K, Caan, BJ, Campbell, PT, Carlson, CS, Castellvi-Bel, S, Chan, AT, Chang-Claude, J, Chanock, SJ, Chirlaque, M-D, Cho, SH, Connolly, CM, Cross, AJ, Cuk, K, Curtis, KR, de la Chapelle, A, Doheny, KF, Duggan, D, Easton, DF, Elias, SG, Elliott, F, English, DR, Feskens, EJM, Figueiredo, JC, Fischer, R, FitzGerald, LM, Forman, D, Gala, M, Gallinger, S, Gauderman, WJ, Giles, GG, Gillanders, E, Gong, J, Goodman, PJ, Grady, WM, Grove, JS, Gsur, A, Gunter, MJ, Haile, RW, Hampe, J, Hampel, H, Harlid, S, Hayes, RB, Hofer, P, Hoffmeister, M, Hopper, JL, Hsu, W-L, Huang, W-Y, Hudson, TJ, Hunter, DJ, Ibanez-Sanz, G, Idos, GE, Ingersoll, R, Jackson, RD, Jacobs, EJ, Jenkins, MA, Joshi, AD, Joshu, CE, Keku, TO, Key, TJ, Kim, HR, Kobayashi, E, Kolonel, LN, Kooperberg, C, Kuehn, T, Kury, S, Kweon, S-S, Larsson, SC, Laurie, CA, Le Marchand, L, Leal, SM, Lee, SC, Lejbkowicz, F, Lemire, M, Li, CI, Li, L, Lieb, W, Lin, Y, Lindblom, A, Lindor, NM, Ling, H, Louie, TL, Mannisto, S, Markowitz, SD, Martin, V, Masala, G, McNeil, CE, Melas, M, Milne, RL, Moreno, L, Murphy, N, Myte, R, Naccarati, A, Newcomb, PA, Offit, K, Ogino, S, Onland-Moret, NC, Pardini, B, Parfrey, PS, Pearlman, R, Perduca, V, Pharoah, PDP, Pinchev, M, Platz, EA, Prentice, RL, Pugh, E, Raskin, L, Rennert, G, Rennert, HS, Riboli, E, Rodriguez-Barranco, M, Romm, J, Sakoda, LC, Schafmayer, C, Schoen, RE, Seminara, D, Shah, M, Shelford, T, Shin, M-H, Shulman, K, Sieri, S, Slattery, ML, Southey, MC, Stadler, ZK, Stegmaier, C, Su, Y-R, Tangen, CM, Thibodeau, SN, Thomas, DC, Thomas, SS, Toland, AE, Trichopoulou, A, Ulrich, CM, Van den Berg, DJ, van Duijnhoven, FJB, Van Guelpen, B, van Kranen, H, Vijai, J, Visvanathan, K, Vodicka, P, Vodickova, L, Vymetalkova, V, Weigl, K, Weinstein, SJ, White, E, Win, AK, Wolf, CR, Wolk, A, Woods, MO, Wu, AH, Zaidi, SH, Zanke, BW, Zhang, Q, Zheng, W, Scacheri, PC, Potter, JD, Bassik, MC, Kundaje, A, Casey, G, Moreno, V, Abecasis, GR, Nickerson, DA, Gruber, SB, Hsu, L, Peters, U, Huyghe, JR, Bien, SA, Harrison, TA, Kang, HM, Chen, S, Schmit, SL, Conti, DV, Qu, C, Jeon, J, Edlund, CK, Greenside, P, Wainberg, M, Schumacher, FR, Smith, JD, Levine, DM, Nelson, SC, Sinnott-Armstrong, NA, Albanes, D, Alonso, MH, Anderson, K, Arnau-Collell, C, Arndt, V, Bamia, C, Banbury, BL, Baron, JA, Berndt, SI, Bezieau, S, Bishop, DT, Boehm, J, Boeing, H, Brenner, H, Brezina, S, Buch, S, Buchanan, DD, Burnett-Hartman, A, Butterbach, K, Caan, BJ, Campbell, PT, Carlson, CS, Castellvi-Bel, S, Chan, AT, Chang-Claude, J, Chanock, SJ, Chirlaque, M-D, Cho, SH, Connolly, CM, Cross, AJ, Cuk, K, Curtis, KR, de la Chapelle, A, Doheny, KF, Duggan, D, Easton, DF, Elias, SG, Elliott, F, English, DR, Feskens, EJM, Figueiredo, JC, Fischer, R, FitzGerald, LM, Forman, D, Gala, M, Gallinger, S, Gauderman, WJ, Giles, GG, Gillanders, E, Gong, J, Goodman, PJ, Grady, WM, Grove, JS, Gsur, A, Gunter, MJ, Haile, RW, Hampe, J, Hampel, H, Harlid, S, Hayes, RB, Hofer, P, Hoffmeister, M, Hopper, JL, Hsu, W-L, Huang, W-Y, Hudson, TJ, Hunter, DJ, Ibanez-Sanz, G, Idos, GE, Ingersoll, R, Jackson, RD, Jacobs, EJ, Jenkins, MA, Joshi, AD, Joshu, CE, Keku, TO, Key, TJ, Kim, HR, Kobayashi, E, Kolonel, LN, Kooperberg, C, Kuehn, T, Kury, S, Kweon, S-S, Larsson, SC, Laurie, CA, Le Marchand, L, Leal, SM, Lee, SC, Lejbkowicz, F, Lemire, M, Li, CI, Li, L, Lieb, W, Lin, Y, Lindblom, A, Lindor, NM, Ling, H, Louie, TL, Mannisto, S, Markowitz, SD, Martin, V, Masala, G, McNeil, CE, Melas, M, Milne, RL, Moreno, L, Murphy, N, Myte, R, Naccarati, A, Newcomb, PA, Offit, K, Ogino, S, Onland-Moret, NC, Pardini, B, Parfrey, PS, Pearlman, R, Perduca, V, Pharoah, PDP, Pinchev, M, Platz, EA, Prentice, RL, Pugh, E, Raskin, L, Rennert, G, Rennert, HS, Riboli, E, Rodriguez-Barranco, M, Romm, J, Sakoda, LC, Schafmayer, C, Schoen, RE, Seminara, D, Shah, M, Shelford, T, Shin, M-H, Shulman, K, Sieri, S, Slattery, ML, Southey, MC, Stadler, ZK, Stegmaier, C, Su, Y-R, Tangen, CM, Thibodeau, SN, Thomas, DC, Thomas, SS, Toland, AE, Trichopoulou, A, Ulrich, CM, Van den Berg, DJ, van Duijnhoven, FJB, Van Guelpen, B, van Kranen, H, Vijai, J, Visvanathan, K, Vodicka, P, Vodickova, L, Vymetalkova, V, Weigl, K, Weinstein, SJ, White, E, Win, AK, Wolf, CR, Wolk, A, Woods, MO, Wu, AH, Zaidi, SH, Zanke, BW, Zhang, Q, Zheng, W, Scacheri, PC, Potter, JD, Bassik, MC, Kundaje, A, Casey, G, Moreno, V, Abecasis, GR, Nickerson, DA, Gruber, SB, Hsu, L, and Peters, U

Abstract

To further dissect the genetic architecture of colorectal cancer (CRC), we performed whole-genome sequencing of 1,439 cases and 720 controls, imputed discovered sequence variants and Haplotype Reference Consortium panel variants into genome-wide association study data, and tested for association in 34,869 cases and 29,051 controls. Findings were followed up in an additional 23,262 cases and 38,296 controls. We discovered a strongly protective 0.3% frequency variant signal at CHD1. In a combined meta-analysis of 125,478 individuals, we identified 40 new independent signals at P < 5 × 10-8, bringing the number of known independent signals for CRC to ~100. New signals implicate lower-frequency variants, Krüppel-like factors, Hedgehog signaling, Hippo-YAP signaling, long noncoding RNAs and somatic drivers, and support a role for immune function. Heritability analyses suggest that CRC risk is highly polygenic, and larger, more comprehensive studies enabling rare variant analysis will improve understanding of biology underlying this risk and influence personalized screening strategies and drug development.

Published
2019

16. Type 2 diabetes mellitus, blood cholesterol, triglyceride and colorectal cancer risk in Lynch syndrome

Author

Dashti, SG, Li, WY, Buchanan, DD, Clendenning, M, Rosty, C, Winship, IM, Macrae, FA, Giles, GG, Hardikar, S, Hua, X, Thibodeau, SN, Figueiredo, JC, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Newcomb, PA, Potter, JD, Lindor, NM, Hopper, JL, Jenkins, MA, Win, AK, Dashti, SG, Li, WY, Buchanan, DD, Clendenning, M, Rosty, C, Winship, IM, Macrae, FA, Giles, GG, Hardikar, S, Hua, X, Thibodeau, SN, Figueiredo, JC, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Newcomb, PA, Potter, JD, Lindor, NM, Hopper, JL, Jenkins, MA, and Win, AK

Abstract

BACKGROUND: Type 2 diabetes mellitus and high total cholesterol and triglycerides are known to be associated with increased colorectal cancer risk for the general population. These associations are unknown for people with a germline DNA mismatch repair gene mutation (Lynch syndrome), who are at high risk of colorectal cancer. METHODS: This study included 2023 (56.4% female) carriers with a mismatch repair gene mutation (737 in MLH1, 928 in MSH2, 230 in MSH6, 106 in PMS2, 22 in EPCAM) recruited by the Colon Cancer Family Registry between 1998 and 2012. Weighted Cox regression was used to estimate the hazard ratios (HR) and 95% confidence intervals (CI) for the associations between self-reported type 2 diabetes, high cholesterol, triglyceride and colorectal cancer risk. RESULTS: Overall, 802 carriers were diagnosed with colorectal cancer at a median age of 42 years. A higher risk of colorectal cancer was observed in those with self-reported type-2 diabetes (HR 1.92; 95% CI, 1.03-3.58) and high cholesterol (HR 1.76; CI 1.23-2.52) compared with those without these conditions. There was no evidence of high triglyceride being associated with colorectal cancer risk. CONCLUSION: For people with Lynch syndrome, self-reported type-2 diabetes mellitus and high cholesterol were associated with increased colorectal cancer risk.

Published
2019

17. Physical activity and the risk of colorectal cancer in Lynch syndrome

Author

Dashti, SG, Win, AK, Hardikar, SS, Glombicki, SE, Mallenahalli, S, Thirumurthi, S, Peterson, SK, You, YN, Buchanan, DD, Figueiredo, JC, Campbell, PT, Gallinger, S, Newcomb, PA, Potter, JD, Lindor, NM, Le Marchand, L, Haile, RW, Hopper, JL, Jenkins, MA, Basen-Engquist, KM, Lynch, PM, Pande, M, Dashti, SG, Win, AK, Hardikar, SS, Glombicki, SE, Mallenahalli, S, Thirumurthi, S, Peterson, SK, You, YN, Buchanan, DD, Figueiredo, JC, Campbell, PT, Gallinger, S, Newcomb, PA, Potter, JD, Lindor, NM, Le Marchand, L, Haile, RW, Hopper, JL, Jenkins, MA, Basen-Engquist, KM, Lynch, PM, and Pande, M

Abstract

Greater physical activity is associated with a decrease in risk of colorectal cancer for the general population; however, little is known about its relationship with colorectal cancer risk in people with Lynch syndrome, carriers of inherited pathogenic mutations in genes affecting DNA mismatch repair (MMR). We studied a cohort of 2,042 MMR gene mutations carriers (n = 807, diagnosed with colorectal cancer), from the Colon Cancer Family Registry. Self-reported physical activity in three age-periods (20-29, 30-49 and ≥50 years) was summarized as average metabolic equivalent of task hours per week (MET-hr/week) during the age-period of cancer diagnosis or censoring (near-term exposure) and across all age-periods preceding cancer diagnosis or censoring (long-term exposure). Weighted Cox regression was used to estimate the hazard ratio (HR) and 95% confidence intervals (CI) for the association between physical activity and colorectal cancer risk. Near-term physical activity was associated with a small reduction in the risk of colorectal cancer (HR ≥35 vs. <3.5 MET-hr/week, 0.71; 95% CI, 0.53-0.96). The strength and direction of associations were similar for long-term physical activity, although the associations were not nominally significant. Our results suggest that physical activity is inversely associated with the risk of colorectal cancer for people with Lynch syndrome; however, further confirmation is warranted. The potential modifying effect of physical activity on colorectal cancer risk in people with Lynch syndrome could be useful for risk prediction and support counseling advice for lifestyle modification to reduce cancer risk.

Published
2018

18. Prevalence and Penetrance of Major Genes and Polygenes for Colorectal Cancer

Author

Win, AK, Jenkins, MA, Dowty, JG, Antoniou, AC, Lee, A, Giles, GG, Buchanan, DD, Clendenning, M, Rosty, C, Ahnen, DJ, Thibodeau, SN, Casey, G, Gallinger, S, Le Marchand, L, Haile, RW, Potter, JD, Zheng, Y, Lindor, NM, Newcomb, PA, Hopper, JL, Maclnnis, RJ, Win, AK, Jenkins, MA, Dowty, JG, Antoniou, AC, Lee, A, Giles, GG, Buchanan, DD, Clendenning, M, Rosty, C, Ahnen, DJ, Thibodeau, SN, Casey, G, Gallinger, S, Le Marchand, L, Haile, RW, Potter, JD, Zheng, Y, Lindor, NM, Newcomb, PA, Hopper, JL, and Maclnnis, RJ

Abstract

© 2016 American Association for Cancer Research.Background: Although high-risk mutations in identified major susceptibility genes (DNA mismatch repair genes and MUTYH) account for some familial aggregation of colorectal cancer, their population prevalence and the causes of the remaining familial aggregation are not known. Methods: We studied the families of 5,744 colorectal cancer cases (probands) recruited from population cancer registries in the United States, Canada, and Australia and screened probands for mutations in mismatch repair genes and MUTYH. We conducted modified segregation analyses using the cancer history of first-degree relatives, conditional on the proband's age at diagnosis. We estimated the prevalence of mutations in the identified genes, the prevalence of HR for unidentified major gene mutations, and the variance of the residual polygenic component. Results: We estimated that 1 in 279 of the population carry mutationsin mismatchrepair genes(MLH1 = 1 in 1,946, MSH2 = 1 in 2,841, MSH6 = 1 in 758, PMS2 = 1 in 714), 1 in 45 carry mutations in MUTYH, and 1 in 504 carry mutations associated with an average 31-fold increased risk of colorectal cancer in unidentified major genes. The estimated polygenic variance was reduced by 30% to 50% after allowing for unidentified major genes and decreased from 3.3 for age >40 years to 0.5 for age 70 years(equivalenttosiblingrelativerisksof5.1to1.3,respectively). Conclusions: Unidentified major genes might explain one third to one half of the missing heritability of colorectal cancer. Impact: Our findings could aid gene discovery and development of better colorectal cancer risk prediction models., Background: Although high-risk mutations in identified major susceptibility genes (DNA mismatch repair genes and MUTYH) account for some familial aggregation of colorectal cancer, their population prevalence and the causes of the remaining familial aggregation are not known.Methods: We studied the families of 5,744 colorectal cancer cases (probands) recruited from population cancer registries in the United States, Canada, and Australia and screened probands for mutations in mismatch repair genes and MUTYH We conducted modified segregation analyses using the cancer history of first-degree relatives, conditional on the proband's age at diagnosis. We estimated the prevalence of mutations in the identified genes, the prevalence of HR for unidentified major gene mutations, and the variance of the residual polygenic component.Results: We estimated that 1 in 279 of the population carry mutations in mismatch repair genes (MLH1 = 1 in 1,946, MSH2 = 1 in 2,841, MSH6 = 1 in 758, PMS2 = 1 in 714), 1 in 45 carry mutations in MUTYH, and 1 in 504 carry mutations associated with an average 31-fold increased risk of colorectal cancer in unidentified major genes. The estimated polygenic variance was reduced by 30% to 50% after allowing for unidentified major genes and decreased from 3.3 for age <40 years to 0.5 for age ≥70 years (equivalent to sibling relative risks of 5.1 to 1.3, respectively).Conclusions: Unidentified major genes might explain one third to one half of the missing heritability of colorectal cancer.Impact: Our findings could aid gene discovery and development of better colorectal cancer risk prediction models. Cancer Epidemiol Biomarkers Prev; 26(3); 404-12. ©2016 AACR.

Published
2017

19. Alcohol Consumption and the Risk of Colorectal Cancer for Mismatch Repair Gene Mutation Carriers

Author

Dashti, SG, Buchanan, DD, Jayasekara, H, Ouakrim, DA, Clendenning, M, Rosty, C, Winship, IM, Macrae, FA, Giles, GG, Parry, S, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Thibodeau, SN, Lindor, NM, Newcomb, PA, Potter, JD, Baron, JA, Hopper, JL, Jenkins, MA, Win, AK, Dashti, SG, Buchanan, DD, Jayasekara, H, Ouakrim, DA, Clendenning, M, Rosty, C, Winship, IM, Macrae, FA, Giles, GG, Parry, S, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Thibodeau, SN, Lindor, NM, Newcomb, PA, Potter, JD, Baron, JA, Hopper, JL, Jenkins, MA, and Win, AK

Abstract

© 2016 American Association for Cancer Research.Background: People with germline mutation in one of the DNA mismatch repair (MMR) genes have increased colorectal cancer risk. For these high-risk people, study findings of the relationship between alcohol consumption and colorectal cancer risk have been inconclusive. Methods: 1,925 MMR gene mutations carriers recruited into the Colon Cancer Family Registry who had completed a questionnaire on lifestyle factors were included. Weighted Cox proportional hazard regression models were used to estimate hazard ratios (HR) and 95% confidence intervals (CI) for the association between alcohol consumption and colorectal cancer. Results: Colorectal cancer was diagnosed in 769 carriers (40%) at a mean (SD) age of 42.6 (10.3) years. Compared with abstention, ethanol consumption from any alcoholic beverage up to 14 g/day and >28 g/day was associated with increased colorectal cancer risk (HR, 1.50; 95% CI, 1.09-2.07 and 1.69; 95% CI, 1.07-2.65, respectively; Ptrend = 0.05), and colon cancer risk (HR, 1.78; 95% CI, 1.27-2.49 and 1.94; 95% CI, 1.19-3.18, respectively; Ptrend = 0.02). However, there was no clear evidence for an association with rectal cancer risk. Also, there was no evidence for associations between consumption of individual alcoholic beverage types (beer, wine, spirits) and colorectal, colon, or rectal cancer risk. Conclusions: Our data suggest that alcohol consumption, particularly more than 28 g/day of ethanol (∼2 standard drinks of alcohol in the United States), is associated with increased colorectal cancer risk for MMR gene mutation carriers. Impact: Although these data suggested that alcohol consumption in MMR carriers was associated with increased colorectal cancer risk, there was no evidence of a dose-response, and not all types of alcohol consumption were associated with increased risk., Background: People with germline mutation in one of the DNA mismatch repair (MMR) genes have increased colorectal cancer risk. For these high-risk people, study findings of the relationship between alcohol consumption and colorectal cancer risk have been inconclusive.Methods: 1,925 MMR gene mutations carriers recruited into the Colon Cancer Family Registry who had completed a questionnaire on lifestyle factors were included. Weighted Cox proportional hazard regression models were used to estimate hazard ratios (HR) and 95% confidence intervals (CI) for the association between alcohol consumption and colorectal cancer.Results: Colorectal cancer was diagnosed in 769 carriers (40%) at a mean (SD) age of 42.6 (10.3) years. Compared with abstention, ethanol consumption from any alcoholic beverage up to 14 g/day and >28 g/day was associated with increased colorectal cancer risk (HR, 1.50; 95% CI, 1.09-2.07 and 1.69; 95% CI, 1.07-2.65, respectively; Ptrend = 0.05), and colon cancer risk (HR, 1.78; 95% CI, 1.27-2.49 and 1.94; 95% CI, 1.19-3.18, respectively; Ptrend = 0.02). However, there was no clear evidence for an association with rectal cancer risk. Also, there was no evidence for associations between consumption of individual alcoholic beverage types (beer, wine, spirits) and colorectal, colon, or rectal cancer risk.Conclusions: Our data suggest that alcohol consumption, particularly more than 28 g/day of ethanol (∼2 standard drinks of alcohol in the United States), is associated with increased colorectal cancer risk for MMR gene mutation carriers.Impact: Although these data suggested that alcohol consumption in MMR carriers was associated with increased colorectal cancer risk, there was no evidence of a dose-response, and not all types of alcohol consumption were associated with increased risk. Cancer Epidemiol Biomarkers Prev; 26(3); 366-75. ©2016 AACR.

Published
2017

20. Enrichment of colorectal cancer associations in functional regions: Insight for using epigenomics data in the analysis of whole genome sequence-imputed GWAS data

Author

Zhao, Z, Bien, SA, Auer, PL, Harrison, TA, Qu, C, Connolly, CM, Greenside, PG, Chen, S, Berndt, SI, Bezieau, S, Kang, HM, Huyghe, J, Brenner, H, Casey, G, Chan, AT, Hopper, JL, Banbury, BL, Chang-Claude, J, Chanock, SJ, Haile, RW, Hoffmeister, M, Fuchsberger, C, Jenkins, MA, Leal, SM, Lemire, M, Newcomb, PA, Gallinger, S, Potter, JD, Schoen, RE, Slattery, ML, Smith, JD, Le Marchand, L, White, E, Zanke, BW, Abecasis, GR, Carlson, CS, Peters, U, Nickerson, DA, Kundaje, A, Hsu, L, Zhao, Z, Bien, SA, Auer, PL, Harrison, TA, Qu, C, Connolly, CM, Greenside, PG, Chen, S, Berndt, SI, Bezieau, S, Kang, HM, Huyghe, J, Brenner, H, Casey, G, Chan, AT, Hopper, JL, Banbury, BL, Chang-Claude, J, Chanock, SJ, Haile, RW, Hoffmeister, M, Fuchsberger, C, Jenkins, MA, Leal, SM, Lemire, M, Newcomb, PA, Gallinger, S, Potter, JD, Schoen, RE, Slattery, ML, Smith, JD, Le Marchand, L, White, E, Zanke, BW, Abecasis, GR, Carlson, CS, Peters, U, Nickerson, DA, Kundaje, A, and Hsu, L

Abstract

BACKGROUND: The evaluation of less frequent genetic variants and their effect on complex disease pose new challenges for genomic research. To investigate whether epigenetic data can be used to inform aggregate rare-variant association methods (RVAM), we assessed whether variants more significantly associated with colorectal cancer (CRC) were preferentially located in non-coding regulatory regions, and whether enrichment was specific to colorectal tissues. METHODS: Active regulatory elements (ARE) were mapped using data from 127 tissues and cell-types from NIH Roadmap Epigenomics and Encyclopedia of DNA Elements (ENCODE) projects. We investigated whether CRC association p-values were more significant for common variants inside versus outside AREs, or 2) inside colorectal (CR) AREs versus AREs of other tissues and cell-types. We employed an integrative epigenomic RVAM for variants with allele frequency <1%. Gene sets were defined as ARE variants within 200 kilobases of a transcription start site (TSS) using either CR ARE or ARE from non-digestive tissues. CRC-set association p-values were used to evaluate enrichment of less frequent variant associations in CR ARE versus non-digestive ARE. RESULTS: ARE from 126/127 tissues and cell-types were significantly enriched for stronger CRC-variant associations. Strongest enrichment was observed for digestive tissues and immune cell types. CR-specific ARE were also enriched for stronger CRC-variant associations compared to ARE combined across non-digestive tissues (p-value = 9.6 × 10-4). Additionally, we found enrichment of stronger CRC association p-values for rare variant sets of CR ARE compared to non-digestive ARE (p-value = 0.029). CONCLUSIONS: Integrative epigenomic RVAM may enable discovery of less frequent variants associated with CRC, and ARE of digestive and immune tissues are most informative. Although distance-based aggregation of less frequent variants in CR ARE surrounding TSS showed modest enrichment, future asso

Published
2017

21. Targeted sequencing of 36 known or putative colorectal cancer susceptibility genes

Author

DeRycke, MS, Gunawardena, S, Balcom, JR, Pickart, AM, Waltman, LA, French, AJ, McDonnell, S, Riska, SM, Fogarty, ZC, Larson, MC, Middha, S, Eckloff, BW, Asmann, YW, Ferber, MJ, Haile, RW, Gallinger, S, Clendenning, M, Rosty, C, Win, AK, Buchanan, DD, Hopper, JL, Newcomb, PA, Le Marchand, L, Goode, EL, Lindor, NM, Thibodeau, SN, DeRycke, MS, Gunawardena, S, Balcom, JR, Pickart, AM, Waltman, LA, French, AJ, McDonnell, S, Riska, SM, Fogarty, ZC, Larson, MC, Middha, S, Eckloff, BW, Asmann, YW, Ferber, MJ, Haile, RW, Gallinger, S, Clendenning, M, Rosty, C, Win, AK, Buchanan, DD, Hopper, JL, Newcomb, PA, Le Marchand, L, Goode, EL, Lindor, NM, and Thibodeau, SN

Abstract

BACKGROUND: Mutations in several genes predispose to colorectal cancer. Genetic testing for hereditary colorectal cancer syndromes was previously limited to single gene tests; thus, only a very limited number of genes were tested, and rarely those infrequently mutated in colorectal cancer. Next-generation sequencing technologies have made it possible to sequencing panels of genes known and suspected to influence colorectal cancer susceptibility. METHODS: Targeted sequencing of 36 known or putative CRC susceptibility genes was conducted for 1231 CRC cases from five subsets: (1) Familial Colorectal Cancer Type X (n = 153); (2) CRC unselected by tumor immunohistochemical or microsatellite stability testing (n = 548); (3) young onset (age <50 years) (n = 333); (4) proficient mismatch repair (MMR) in cases diagnosed at ≥50 years (n = 68); and (5) deficient MMR CRCs with no germline mutations in MLH1, MSH2, MSH6, or PMS2 (n = 129). Ninety-three unaffected controls were also sequenced. RESULTS: Overall, 29 nonsense, 43 frame-shift, 13 splice site, six initiator codon variants, one stop codon, 12 exonic deletions, 658 missense, and 17 indels were identified. Missense variants were reviewed by genetic counselors to determine pathogenicity; 13 were pathogenic, 61 were not pathogenic, and 584 were variants of uncertain significance. Overall, we identified 92 cases with pathogenic mutations in APC,MLH1,MSH2,MSH6, or multiple pathogenic MUTYH mutations (7.5%). Four cases with intact MMR protein expression by immunohistochemistry carried pathogenic MMR mutations. CONCLUSIONS: Results across case subsets may help prioritize genes for inclusion in clinical gene panel tests and underscore the issue of variants of uncertain significance both in well-characterized genes and those for which limited experience has accumulated.

Published
2017

22. Risk factors for metachronous colorectal cancer following a primary colorectal cancer: A prospective cohort study

Author

Jayasekara, H, Reece, JC, Buchanan, DD, Rosty, C, Dashti, SG, Ouakrim, DA, Winship, IM, Macrae, FA, Boussioutas, A, Giles, GG, Ahnen, DJ, Lowery, J, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Newcomb, PA, Lindor, NM, Hopper, JL, Parry, S, Jenkins, MA, Win, AK, Jayasekara, H, Reece, JC, Buchanan, DD, Rosty, C, Dashti, SG, Ouakrim, DA, Winship, IM, Macrae, FA, Boussioutas, A, Giles, GG, Ahnen, DJ, Lowery, J, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Newcomb, PA, Lindor, NM, Hopper, JL, Parry, S, Jenkins, MA, and Win, AK

Published
2016

23. CYP24A1 variant modifies the association between use of oestrogen plus progestogen therapy and colorectal cancer risk

Author

Garcia-Albeniz, X, Rudolph, A, Hutter, C, White, E, Lin, Y, Rosse, SA, Figueiredo, JC, Harrison, TA, Jiao, S, Brenner, H, Casey, G, Hudson, TJ, Thornquist, M, Le Marchand, L, Potter, J, Slattery, ML, Zanke, B, Baron, JA, Caan, BJ, Chanock, SJ, Berndt, SI, Stelling, D, Fuchs, CS, Hoffmeister, M, Butterbach, K, Du, M, Gauderman, WJ, Gunter, MJ, Lemire, M, Ogino, S, Lin, J, Hayes, RB, Haile, RW, Schoen, RE, SWarnick, G, Jenkins, MA, Thibodeau, SN, Schumacher, FR, Lindor, NM, Kolonel, LN, Hopper, JL, Gong, J, Seminara, D, Pflugeisen, BM, Ulrich, CM, Qu, C, Duggan, D, Cotterchio, M, Campbell, PT, Carlson, CS, Newcomb, PA, Giovannucci, E, Hsu, L, Chan, AT, Peters, U, Chang-Claude, J, Garcia-Albeniz, X, Rudolph, A, Hutter, C, White, E, Lin, Y, Rosse, SA, Figueiredo, JC, Harrison, TA, Jiao, S, Brenner, H, Casey, G, Hudson, TJ, Thornquist, M, Le Marchand, L, Potter, J, Slattery, ML, Zanke, B, Baron, JA, Caan, BJ, Chanock, SJ, Berndt, SI, Stelling, D, Fuchs, CS, Hoffmeister, M, Butterbach, K, Du, M, Gauderman, WJ, Gunter, MJ, Lemire, M, Ogino, S, Lin, J, Hayes, RB, Haile, RW, Schoen, RE, SWarnick, G, Jenkins, MA, Thibodeau, SN, Schumacher, FR, Lindor, NM, Kolonel, LN, Hopper, JL, Gong, J, Seminara, D, Pflugeisen, BM, Ulrich, CM, Qu, C, Duggan, D, Cotterchio, M, Campbell, PT, Carlson, CS, Newcomb, PA, Giovannucci, E, Hsu, L, Chan, AT, Peters, U, and Chang-Claude, J

Abstract

BACKGROUND: Menopausal hormone therapy (MHT) use has been consistently associated with a decreased risk of colorectal cancer (CRC) in women. Our aim was to use a genome-wide gene-environment interaction analysis to identify genetic modifiers of CRC risk associated with use of MHT. METHODS: We included 10 835 postmenopausal women (5419 cases and 5416 controls) from 10 studies. We evaluated use of any MHT, oestrogen-only (E-only) and combined oestrogen-progestogen (E+P) hormone preparations. To test for multiplicative interactions, we applied the empirical Bayes (EB) test as well as the Wald test in conventional case-control logistic regression as primary tests. The Cocktail test was used as secondary test. RESULTS: The EB test identified a significant interaction between rs964293 at 20q13.2/CYP24A1 and E+P (interaction OR (95% CIs)=0.61 (0.52-0.72), P=4.8 × 10(-9)). The secondary analysis also identified this interaction (Cocktail test OR=0.64 (0.52-0.78), P=1.2 × 10(-5) (alpha threshold=3.1 × 10(-4)). The ORs for association between E+P and CRC risk by rs964293 genotype were as follows: C/C, 0.96 (0.61-1.50); A/C, 0.61 (0.39-0.95) and A/A, 0.40 (0.22-0.73), respectively. CONCLUSIONS: Our results indicate that rs964293 modifies the association between E+P and CRC risk. The variant is located near CYP24A1, which encodes an enzyme involved in vitamin D metabolism. This novel finding offers additional insight into downstream pathways of CRC etiopathogenesis.

Published
2016

24. Genome-Wide Interaction Analyses between Genetic Variants and Alcohol Consumption and Smoking for Risk of Colorectal Cancer

Author

Williams, SM, Gong, J, Hutter, CM, Newcomb, PA, Ulrich, CM, Bien, SA, Campbell, PT, Baron, JA, Berndt, SI, Bezieau, S, Brenner, H, Casey, G, Chan, AT, Chang-Claude, J, Du, M, Duggan, D, Figueiredo, JC, Gallinger, S, Giovannucci, EL, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hudson, TJ, Jeon, J, Jenkins, MA, Kocarnik, J, Kury, S, Le Marchand, L, Lin, Y, Lindor, NM, Nishihara, R, Ogino, S, Potter, JD, Rudolph, A, Schoen, RE, Schrotz-King, P, Seminara, D, Slattery, ML, Thibodeau, SN, Thornquist, M, Toth, R, Wallace, R, White, E, Jiao, S, Lemire, M, Hsu, L, Peters, U, Williams, SM, Gong, J, Hutter, CM, Newcomb, PA, Ulrich, CM, Bien, SA, Campbell, PT, Baron, JA, Berndt, SI, Bezieau, S, Brenner, H, Casey, G, Chan, AT, Chang-Claude, J, Du, M, Duggan, D, Figueiredo, JC, Gallinger, S, Giovannucci, EL, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hudson, TJ, Jeon, J, Jenkins, MA, Kocarnik, J, Kury, S, Le Marchand, L, Lin, Y, Lindor, NM, Nishihara, R, Ogino, S, Potter, JD, Rudolph, A, Schoen, RE, Schrotz-King, P, Seminara, D, Slattery, ML, Thibodeau, SN, Thornquist, M, Toth, R, Wallace, R, White, E, Jiao, S, Lemire, M, Hsu, L, and Peters, U

Abstract

Genome-wide association studies (GWAS) have identified many genetic susceptibility loci for colorectal cancer (CRC). However, variants in these loci explain only a small proportion of familial aggregation, and there are likely additional variants that are associated with CRC susceptibility. Genome-wide studies of gene-environment interactions may identify variants that are not detected in GWAS of marginal gene effects. To study this, we conducted a genome-wide analysis for interaction between genetic variants and alcohol consumption and cigarette smoking using data from the Colon Cancer Family Registry (CCFR) and the Genetics and Epidemiology of Colorectal Cancer Consortium (GECCO). Interactions were tested using logistic regression. We identified interaction between CRC risk and alcohol consumption and variants in the 9q22.32/HIATL1 (Pinteraction = 1.76×10-8; permuted p-value 3.51x10-8) region. Compared to non-/occasional drinking light to moderate alcohol consumption was associated with a lower risk of colorectal cancer among individuals with rs9409565 CT genotype (OR, 0.82 [95% CI, 0.74-0.91]; P = 2.1×10-4) and TT genotypes (OR,0.62 [95% CI, 0.51-0.75]; P = 1.3×10-6) but not associated among those with the CC genotype (p = 0.059). No genome-wide statistically significant interactions were observed for smoking. If replicated our suggestive finding of a genome-wide significant interaction between genetic variants and alcohol consumption might contribute to understanding colorectal cancer etiology and identifying subpopulations with differential susceptibility to the effect of alcohol on CRC risk.

Published
2016

25. Determining the familial risk distribution of colorectal cancer: a data mining approach

Author

Chau, R, Jenkins, MA, Buchanan, DD, Ouakrim, DA, Giles, GG, Casey, G, Gallinger, S, Haile, RW, Le Marchand, L, Newcomb, PA, Lindor, NM, Hopper, JL, Win, AK, Chau, R, Jenkins, MA, Buchanan, DD, Ouakrim, DA, Giles, GG, Casey, G, Gallinger, S, Haile, RW, Le Marchand, L, Newcomb, PA, Lindor, NM, Hopper, JL, and Win, AK

Abstract

This study was aimed to characterize the distribution of colorectal cancer risk using family history of cancers by data mining. Family histories for 10,066 colorectal cancer cases recruited to population cancer registries of the Colon Cancer Family Registry were analyzed using a data mining framework. A novel index was developed to quantify familial cancer aggregation. Artificial neural network was used to identify distinct categories of familial risk. Standardized incidence ratios (SIRs) and corresponding 95% confidence intervals (CIs) of colorectal cancer were calculated for each category. We identified five major, and 66 minor categories of familial risk for developing colorectal cancer. The distribution the major risk categories were: (1) 7% of families (SIR = 7.11; 95% CI 6.65-7.59) had a strong family history of colorectal cancer; (2) 13% of families (SIR = 2.94; 95% CI 2.78-3.10) had a moderate family history of colorectal cancer; (3) 11% of families (SIR = 1.23; 95% CI 1.12-1.36) had a strong family history of breast cancer and a weak family history of colorectal cancer; (4) 9 % of families (SIR = 1.06; 95 % CI 0.96-1.18) had strong family history of prostate cancer and weak family history of colorectal cancer; and (5) 60% of families (SIR = 0.61; 95% CI 0.57-0.65) had a weak family history of all cancers. There is a wide variation of colorectal cancer risk that can be categorized by family history of cancer, with a strong gradient of colorectal cancer risk between the highest and lowest risk categories. The risk of colorectal cancer for people with the highest risk category of family history (7% of the population) was 12-times that for people in the lowest risk category (60%) of the population. Data mining was proven an effective approach for gaining insight into the underlying cancer aggregation patterns and for categorizing familial risk of colorectal cancer.

Published
2016

26. Risk of extracolonic cancers for people with biallelic and monoallelic mutations in MUTYH

Author

Win, AK, Reece, JC, Dowty, JG, Buchanan, DD, Clendenning, M, Rosty, C, Southey, MC, Young, JP, Cleary, SP, Kim, H, Cotterchio, M, Macrae, FA, Tucker, KM, Baron, JA, Burnett, T, Le Marchand, L, Casey, G, Haile, RW, Newcomb, PA, Thibodeau, SN, Hopper, JL, Gallinger, S, Winship, IM, Lindor, NM, Jenkins, MA, Win, AK, Reece, JC, Dowty, JG, Buchanan, DD, Clendenning, M, Rosty, C, Southey, MC, Young, JP, Cleary, SP, Kim, H, Cotterchio, M, Macrae, FA, Tucker, KM, Baron, JA, Burnett, T, Le Marchand, L, Casey, G, Haile, RW, Newcomb, PA, Thibodeau, SN, Hopper, JL, Gallinger, S, Winship, IM, Lindor, NM, and Jenkins, MA

Published
2016

27. Fine-Mapping of Common Genetic Variants Associated with Colorectal Tumor Risk Identified Potential Functional Variants

Author

Wang, J, Du, M, Jiao, S, Bien, SA, Gala, M, Abecasis, G, Bezieau, S, Brenner, H, Butterbach, K, Caan, BJ, Carlson, CS, Casey, G, Chang-Claude, J, Conti, DV, Curtis, KR, Duggan, D, Gallinger, S, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hudson, TJ, Jenkins, MA, Kury, S, Le Marchand, L, Leal, SM, Newcomb, PA, Nickerson, DA, Potter, JD, Schoen, RE, Schumacher, FR, Seminara, D, Slattery, ML, Hsu, L, Chan, AT, White, E, Berndt, SI, Peters, U, Wang, J, Du, M, Jiao, S, Bien, SA, Gala, M, Abecasis, G, Bezieau, S, Brenner, H, Butterbach, K, Caan, BJ, Carlson, CS, Casey, G, Chang-Claude, J, Conti, DV, Curtis, KR, Duggan, D, Gallinger, S, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hudson, TJ, Jenkins, MA, Kury, S, Le Marchand, L, Leal, SM, Newcomb, PA, Nickerson, DA, Potter, JD, Schoen, RE, Schumacher, FR, Seminara, D, Slattery, ML, Hsu, L, Chan, AT, White, E, Berndt, SI, and Peters, U

Abstract

Genome-wide association studies (GWAS) have identified many common single nucleotide polymorphisms (SNPs) associated with colorectal cancer risk. These SNPs may tag correlated variants with biological importance. Fine-mapping around GWAS loci can facilitate detection of functional candidates and additional independent risk variants. We analyzed 11,900 cases and 14,311 controls in the Genetics and Epidemiology of Colorectal Cancer Consortium and the Colon Cancer Family Registry. To fine-map genomic regions containing all known common risk variants, we imputed high-density genetic data from the 1000 Genomes Project. We tested single-variant associations with colorectal tumor risk for all variants spanning genomic regions 250-kb upstream or downstream of 31 GWAS-identified SNPs (index SNPs). We queried the University of California, Santa Cruz Genome Browser to examine evidence for biological function. Index SNPs did not show the strongest association signals with colorectal tumor risk in their respective genomic regions. Bioinformatics analysis of SNPs showing smaller P-values in each region revealed 21 functional candidates in 12 loci (5q31.1, 8q24, 11q13.4, 11q23, 12p13.32, 12q24.21, 14q22.2, 15q13, 18q21, 19q13.1, 20p12.3, and 20q13.33). We did not observe evidence of additional independent association signals in GWAS-identified regions. Our results support the utility of integrating data from comprehensive fine-mapping with expanding publicly available genomic databases to help clarify GWAS associations and identify functional candidates that warrant more onerous laboratory follow-up. Such efforts may aid the eventual discovery of disease-causing variant(s).

Published
2016

28. Germline mutations in PMS2 and MLH1 in individuals with solitary loss of PMS2 expression in colorectal carcinomas from the Colon Cancer Family Registry Cohort

Author

Rosty, C, Clendenning, M, Walsh, MD, Eriksen, SV, Southey, MC, Winship, IM, Macrae, FA, Boussioutas, A, Poplawski, NK, Parry, S, Arnold, J, Young, JP, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Newcomb, PA, Potter, JD, DeRycke, M, Lindor, NM, Thibodeau, SN, Baron, JA, Win, AK, Hopper, JL, Jenkins, MA, Buchanan, DD, Rosty, C, Clendenning, M, Walsh, MD, Eriksen, SV, Southey, MC, Winship, IM, Macrae, FA, Boussioutas, A, Poplawski, NK, Parry, S, Arnold, J, Young, JP, Casey, G, Haile, RW, Gallinger, S, Le Marchand, L, Newcomb, PA, Potter, JD, DeRycke, M, Lindor, NM, Thibodeau, SN, Baron, JA, Win, AK, Hopper, JL, Jenkins, MA, and Buchanan, DD

Abstract

OBJECTIVES: Immunohistochemistry for DNA mismatch repair proteins is used to screen for Lynch syndrome in individuals with colorectal carcinoma (CRC). Although solitary loss of PMS2 expression is indicative of carrying a germline mutation in PMS2, previous studies reported MLH1 mutation in some cases. We determined the prevalence of MLH1 germline mutations in a large cohort of individuals with a CRC demonstrating solitary loss of PMS2 expression. DESIGN: This cohort study included 88 individuals affected with a PMS2-deficient CRC from the Colon Cancer Family Registry Cohort. Germline PMS2 mutation analysis (long-range PCR and multiplex ligation-dependent probe amplification) was followed by MLH1 mutation testing (Sanger sequencing and multiplex ligation-dependent probe amplification). RESULTS: Of the 66 individuals with complete mutation screening, we identified a pathogenic PMS2 mutation in 49 (74%), a pathogenic MLH1 mutation in 8 (12%) and a MLH1 variant of uncertain clinical significance predicted to be damaging by in silico analysis in 3 (4%); 6 (9%) carried variants likely to have no clinical significance. Missense point mutations accounted for most alterations (83%; 9/11) in MLH1. The MLH1 c.113A> G p.Asn38Ser mutation was found in 2 related individuals. One individual who carried the MLH1 intronic mutation c.677+3A>G p.Gln197Argfs*8 leading to the skipping of exon 8, developed 2 tumours, both of which retained MLH1 expression. CONCLUSIONS: A substantial proportion of CRCs with solitary loss of PMS2 expression are associated with a deleterious MLH1 germline mutation supporting the screening for MLH1 in individuals with tumours of this immunophenotype, when no PMS2 mutation has been identified.

Published
2016

29. Mendelian randomization study of height and risk of colorectal cancer

Author

Thrift, AP, Gong, J, Peters, U, Chang-Claude, J, Rudolph, A, Slattery, ML, Chan, AT, Esko, T, Wood, AR, Yang, J, Vedantam, S, Gustafsson, S, Pers, TH, Baron, JA, Bezieau, S, Kuery, S, Ogino, S, Berndt, SI, Casey, G, Haile, RW, Du, M, Harrison, TA, Thornquist, M, Duggan, DJ, Le Marchand, L, Lemire, M, Lindor, NM, Seminara, D, Song, M, Thibodeau, SN, Cotterchio, M, Win, AK, Jenkins, MA, Hopper, JL, Ulrich, CM, Potter, JD, Newcomb, PA, Schoen, RE, Hoffmeister, M, Brenner, H, White, E, Hsu, L, Campbell, PT, Thrift, AP, Gong, J, Peters, U, Chang-Claude, J, Rudolph, A, Slattery, ML, Chan, AT, Esko, T, Wood, AR, Yang, J, Vedantam, S, Gustafsson, S, Pers, TH, Baron, JA, Bezieau, S, Kuery, S, Ogino, S, Berndt, SI, Casey, G, Haile, RW, Du, M, Harrison, TA, Thornquist, M, Duggan, DJ, Le Marchand, L, Lemire, M, Lindor, NM, Seminara, D, Song, M, Thibodeau, SN, Cotterchio, M, Win, AK, Jenkins, MA, Hopper, JL, Ulrich, CM, Potter, JD, Newcomb, PA, Schoen, RE, Hoffmeister, M, Brenner, H, White, E, Hsu, L, and Campbell, PT

Abstract

BACKGROUND: For men and women, taller height is associated with increased risk of all cancers combined. For colorectal cancer (CRC), it is unclear whether the differential association of height by sex is real or is due to confounding or bias inherent in observational studies. We performed a Mendelian randomization study to examine the association between height and CRC risk. METHODS: To minimize confounding and bias, we derived a weighted genetic risk score predicting height (using 696 genetic variants associated with height) in 10,226 CRC cases and 10,286 controls. Logistic regression was used to estimate odds ratios (OR) and 95% confidence intervals (95% CI) for associations between height, genetically predicted height and CRC. RESULTS: Using conventional methods, increased height (per 10-cm increment) was associated with increased CRC risk (OR = 1.08, 95% CI = 1.02-1.15). In sex-specific analyses, height was associated with CRC risk for women (OR = 1.15, 95% CI = 1.05-1.26), but not men (OR = 0.98, 95% CI = 0.92-1.05). Consistent with these results, carrying greater numbers of (weighted) height-increasing alleles (per 1-unit increase) was associated with higher CRC risk for women and men combined (OR = 1.07, 95% CI = 1.01-1.14) and for women (OR = 1.09, 95% CI = .01-1.19). There was weaker evidence of an association for men (OR = 1.05, 95% CI = 0.96-1.15). CONCLUSION: We provide evidence for a causal association between height and CRC for women. The CRC-height association for men remains unclear and warrants further investigation in other large studies.

Published
2015

30. Mendelian Randomization Study of Body Mass Index and Colorectal Cancer Risk

Author

Thrift, AP, Gong, J, Peters, U, Chang-Claude, J, Rudolph, A, Slattery, ML, Chan, AT, Locke, A, Kahali, B, Justice, AE, Pers, TH, Gallinger, S, Hayes, RB, Baron, JA, Caan, BJ, Ogino, S, Berndt, SI, Chanock, SJ, Casey, G, Haile, RW, Du, M, Harrison, TA, Thornquist, M, Duggan, DJ, Le Marchand, L, Lindor, NM, Seminara, D, Song, M, Wu, K, Thibodeau, SN, Cotterchio, M, Win, AK, Jenkins, MA, Hopper, J, Ulrich, CM, Potter, JD, Newcomb, PA, Hoffmeister, M, Brenner, H, White, E, Hsu, L, Campbell, PT, Thrift, AP, Gong, J, Peters, U, Chang-Claude, J, Rudolph, A, Slattery, ML, Chan, AT, Locke, A, Kahali, B, Justice, AE, Pers, TH, Gallinger, S, Hayes, RB, Baron, JA, Caan, BJ, Ogino, S, Berndt, SI, Chanock, SJ, Casey, G, Haile, RW, Du, M, Harrison, TA, Thornquist, M, Duggan, DJ, Le Marchand, L, Lindor, NM, Seminara, D, Song, M, Wu, K, Thibodeau, SN, Cotterchio, M, Win, AK, Jenkins, MA, Hopper, J, Ulrich, CM, Potter, JD, Newcomb, PA, Hoffmeister, M, Brenner, H, White, E, Hsu, L, and Campbell, PT

Abstract

BACKGROUND: High body mass index (BMI) is consistently linked to increased risk of colorectal cancer for men, whereas the association is less clear for women. As risk estimates from observational studies may be biased and/or confounded, we conducted a Mendelian randomization study to estimate the causal association between BMI and colorectal cancer. METHODS: We used data from 10,226 colorectal cancer cases and 10,286 controls of European ancestry. The Mendelian randomization analysis used a weighted genetic risk score, derived from 77 genome-wide association study-identified variants associated with higher BMI, as an instrumental variable (IV). We compared the IV odds ratio (IV-OR) with the OR obtained using a conventional covariate-adjusted analysis. RESULTS: Individuals carrying greater numbers of BMI-increasing alleles had higher colorectal cancer risk [per weighted allele OR, 1.31; 95% confidence interval (CI), 1.10-1.57]. Our IV estimation results support the hypothesis that genetically influenced BMI is directly associated with risk for colorectal cancer (IV-OR per 5 kg/m(2), 1.50; 95% CI, 1.13-2.01). In the sex-specific IV analyses higher BMI was associated with higher risk of colorectal cancer among women (IV-OR per 5 kg/m(2), 1.82; 95% CI, 1.26-2.61). For men, genetically influenced BMI was not associated with colorectal cancer (IV-OR per 5 kg/m(2), 1.18; 95% CI, 0.73-1.92). CONCLUSIONS: High BMI was associated with increased colorectal cancer risk for women. Whether abdominal obesity, rather than overall obesity, is a more important risk factor for men requires further investigation. IMPACT: Overall, conventional epidemiologic and Mendelian randomization studies suggest a strong association between obesity and the risk of colorectal cancer.

Published
2015

31. Association between Body Mass Index and Mortality for Colorectal Cancer Survivors: Overall and by Tumor Molecular Phenotype

Author

Campbell, PT, Newton, CC, Newcomb, PA, Phipps, AI, Ahnen, DJ, Baron, JA, Buchanan, DD, Casey, G, Cleary, SP, Cotterchio, M, Farris, AB, Figueiredo, JC, Gallinger, S, Green, RC, Haile, RW, Hopper, JL, Jenkins, MA, Le Marchand, L, Makar, KW, McLaughlin, JR, Potter, JD, Renehan, AG, Sinicrope, FA, Thibodeau, SN, Ulrich, CM, Win, AK, Lindor, NM, Limburg, PJ, Campbell, PT, Newton, CC, Newcomb, PA, Phipps, AI, Ahnen, DJ, Baron, JA, Buchanan, DD, Casey, G, Cleary, SP, Cotterchio, M, Farris, AB, Figueiredo, JC, Gallinger, S, Green, RC, Haile, RW, Hopper, JL, Jenkins, MA, Le Marchand, L, Makar, KW, McLaughlin, JR, Potter, JD, Renehan, AG, Sinicrope, FA, Thibodeau, SN, Ulrich, CM, Win, AK, Lindor, NM, and Limburg, PJ

Abstract

BACKGROUND: Microsatellite instability (MSI) and BRAF mutation status are associated with colorectal cancer survival, whereas the role of body mass index (BMI) is less clear. We evaluated the association between BMI and colorectal cancer survival, overall and by strata of MSI, BRAF mutation, sex, and other factors. METHODS: This study included 5,615 men and women diagnosed with invasive colorectal cancer who were followed for mortality (maximum: 14.7 years; mean: 5.9 years). Prediagnosis BMI was derived from self-reported weight approximately one year before diagnosis and height. Tumor MSI and BRAF mutation status were available for 4,131 and 4,414 persons, respectively. Multivariable hazard ratios (HR) and 95% confidence intervals (CI) were estimated from delayed-entry Cox proportional hazards models. RESULTS: In multivariable models, high prediagnosis BMI was associated with higher risk of all-cause mortality in both sexes (per 5-kg/m(2); HR, 1.10; 95% CI, 1.06-1.15), with similar associations stratified by sex (Pinteraction: 0.41), colon versus rectum (Pinteraction: 0.86), MSI status (Pinteraction: 0.84), and BRAF mutation status (Pinteraction: 0.28). In joint models, with MS-stable/MSI-low and normal BMI as the reference group, risk of death was higher for MS-stable/MSI-low and obese BMI (HR, 1.32; P value: 0.0002), not statistically significantly lower for MSI-high and normal BMI (HR, 0.86; P value: 0.29), and approximately the same for MSI-high and obese BMI (HR, 1.00; P value: 0.98). CONCLUSIONS: High prediagnosis BMI was associated with increased mortality; this association was consistent across participant subgroups, including strata of tumor molecular phenotype. IMPACT: High BMI may attenuate the survival benefit otherwise observed with MSI-high tumors.

Published
2015

32. Risk of colorectal cancer for people with a mutation in both a MUTYH and a DNA mismatch repair gene

Author

Win, AK, Reece, JC, Buchanan, DD, Clendenning, M, Young, JP, Cleary, SP, Kim, H, Cotterchio, M, Dowty, JG, MacInnis, RJ, Tucker, KM, Winship, IM, Macrae, FA, Burnett, T, Le Marchand, L, Casey, G, Haile, RW, Newcomb, PA, Thibodeau, SN, Lindor, NM, Hopper, JL, Gallinger, S, Jenkins, MA, Win, AK, Reece, JC, Buchanan, DD, Clendenning, M, Young, JP, Cleary, SP, Kim, H, Cotterchio, M, Dowty, JG, MacInnis, RJ, Tucker, KM, Winship, IM, Macrae, FA, Burnett, T, Le Marchand, L, Casey, G, Haile, RW, Newcomb, PA, Thibodeau, SN, Lindor, NM, Hopper, JL, Gallinger, S, and Jenkins, MA

Abstract

The base excision repair protein, MUTYH, functionally interacts with the DNA mismatch repair (MMR) system. As genetic testing moves from testing one gene at a time, to gene panel and whole exome next generation sequencing approaches, understandin g the risk associated with co-existence of germline mutations in these genes will be important for clinical interpretation and management. From the Colon Cancer Family Registry, we identified 10 carriers who had both a MUTYH mutation (6 with c.1187G>A p.(Gly396Asp), 3 with c.821G>A p.(Arg274Gln), and 1 with c.536A>G p.(Tyr179Cys)) and a MMR gene mutation (3 in MLH1, 6 in MSH2, and 1 in PMS2), 375 carriers of a single (monoallelic) MUTYH mutation alone, and 469 carriers of a MMR gene mutation alone. Of the 10 carriers of both gene mutations, 8 were diagnosed with colorectal cancer. Using a weighted cohort analysis, we estimated that risk of colorectal cancer for carriers of both a MUTYH and a MMR gene mutation was substantially higher than that for carriers of a MUTYH mutation alone [hazard ratio (HR) 21.5, 95% confidence interval (CI) 9.19-50.1; p < 0.001], but not different from that for carriers of a MMR gene mutation alone (HR 1.94, 95% CI 0.63-5.99; p = 0.25). Within the limited power of this study, there was no evidence that a monoallelic MUTYH gene mutation confers additional risk of colorectal cancer for carriers of a MMR gene mutation alone. Our finding suggests MUTYH mutation testing in MMR gene mutation carriers is not clinically informative.

Published
2015

33. Mutation Spectrum and Risk of Colorectal Cancer in African American Families with Lynch Syndrome

Author

Guindalini, RSC, Win, AK, Gulden, C, Lindor, NM, Newcomb, PA, Haile, RW, Raymond, V, Stoffel, E, Hall, M, Llor, X, Ukaegbu, CI, Solomon, I, Weitzel, J, Kalady, M, Blanco, A, Terdiman, J, Shuttlesworth, GA, Lynch, PM, Hampel, H, Lynch, HT, Jenkins, MA, Olopade, OI, Kupfer, SS, Guindalini, RSC, Win, AK, Gulden, C, Lindor, NM, Newcomb, PA, Haile, RW, Raymond, V, Stoffel, E, Hall, M, Llor, X, Ukaegbu, CI, Solomon, I, Weitzel, J, Kalady, M, Blanco, A, Terdiman, J, Shuttlesworth, GA, Lynch, PM, Hampel, H, Lynch, HT, Jenkins, MA, Olopade, OI, and Kupfer, SS

Abstract

BACKGROUND & AIMS: African Americans (AAs) have the highest incidence of and mortality resulting from colorectal cancer (CRC) in the United States. Few data are available on genetic and nongenetic risk factors for CRC among AAs. Little is known about cancer risks and mutations in mismatch repair (MMR) genes in AAs with the most common inherited CRC condition, Lynch syndrome. We aimed to characterize phenotype, mutation spectrum, and risk of CRC in AAs with Lynch syndrome. METHODS: We performed a retrospective study of AAs with mutations in MMR genes (MLH1, MSH2, MSH6, and PMS2) using databases from 13 US referral centers. We analyzed data on personal and family histories of cancer. Modified segregation analysis conditioned on ascertainment criteria was used to estimate age- and sex-specific CRC cumulative risk, studying members of the mutation-carrying families. RESULTS: We identified 51 AA families with deleterious mutations that disrupt function of the MMR gene product: 31 in MLH1 (61%), 11 in MSH2 (21%), 3 in MSH6 (6%), and 6 in PMS2 (12%); 8 mutations were detected in more than 1 individual, and 11 have not been previously reported. In the 920 members of the 51 families with deleterious mutations, the cumulative risks of CRC at 80 years of age were estimated to be 36.2% (95% confidence interval [CI], 10.5%-83.9%) for men and 29.7% (95% CI, 8.31%-76.1%) for women. CRC risk was significantly higher among individuals with mutations in MLH1 or MSH2 (hazard ratio, 13.9; 95% CI, 3.44-56.5). CONCLUSIONS: We estimate the cumulative risk for CRC in AAs with MMR gene mutations to be similar to that of individuals of European descent with Lynch syndrome. Two-thirds of mutations were found in MLH1, some of which were found in multiple individuals and some that have not been previously reported. Differences in mutation spectrum are likely to reflect the genetic diversity of this population.

Published
2015

34. Role of tumour molecular and pathology features to estimate colorectal cancer risk for first-degree relatives

Author

Win, AK, Buchanan, DD, Rosty, C, MacInnis, RJ, Dowty, JG, Dite, GS, Giles, GG, Southey, MC, Young, JP, Clendenning, M, Walsh, MD, Walters, RJ, Boussioutas, A, Smyrk, TC, Thibodeau, SN, Baron, JA, Potter, JD, Newcomb, PA, Le Marchand, L, Haile, RW, Gallinger, S, Lindor, NM, Hopper, JL, Ahnen, DJ, Jenkins, MA, Win, AK, Buchanan, DD, Rosty, C, MacInnis, RJ, Dowty, JG, Dite, GS, Giles, GG, Southey, MC, Young, JP, Clendenning, M, Walsh, MD, Walters, RJ, Boussioutas, A, Smyrk, TC, Thibodeau, SN, Baron, JA, Potter, JD, Newcomb, PA, Le Marchand, L, Haile, RW, Gallinger, S, Lindor, NM, Hopper, JL, Ahnen, DJ, and Jenkins, MA

Abstract

OBJECTIVE: To estimate risk of colorectal cancer (CRC) for first-degree relatives of CRC cases based on CRC molecular subtypes and tumour pathology features. DESIGN: We studied a cohort of 33,496 first-degree relatives of 4853 incident invasive CRC cases (probands) who were recruited to the Colon Cancer Family Registry through population cancer registries in the USA, Canada and Australia. We categorised the first-degree relatives into four groups: 28,156 of 4095 mismatch repair (MMR)-proficient probands, 2302 of 301 MMR-deficient non-Lynch syndrome probands, 1799 of 271 suspected Lynch syndrome probands and 1239 of 186 Lynch syndrome probands. We compared CRC risk for first-degree relatives stratified by the absence or presence of specific tumour molecular pathology features in probands across each of these four groups and for all groups combined. RESULTS: Compared with first-degree relatives of MMR-proficient CRC cases, a higher risk of CRC was estimated for first-degree relatives of CRC cases with suspected Lynch syndrome (HR 2.06, 95% CI 1.59 to 2.67) and with Lynch syndrome (HR 5.37, 95% CI 4.16 to 6.94), but not with MMR-deficient non-Lynch syndrome (HR 1.04, 95% CI 0.82 to 1.31). A greater risk of CRC was estimated for first-degree relatives if CRC cases were diagnosed before age 50 years, had proximal colon cancer or if their tumours had any of the following: expanding tumour margin, peritumoral lymphocytes, tumour-infiltrating lymphocytes or synchronous CRC. CONCLUSIONS: Molecular pathology features are potentially useful to refine screening recommendations for first-degree relatives of CRC cases and to identify which cases are more likely to be caused by genetic or other familial factors.

Published
2015

35. Association of Aspirin and NSAID Use With Risk of Colorectal Cancer According to Genetic Variants

Author

Nan, H, Hutter, CM, Lin, Y, Jacobs, EJ, Ulrich, CM, White, E, Baron, JA, Berndt, SI, Brenner, H, Butterbach, K, Caan, BJ, Campbell, PT, Carlson, CS, Casey, G, Chang-Claude, J, Chanock, SJ, Cotterchio, M, Duggan, D, Figueiredo, JC, Fuchs, CS, Giovannucci, EL, Gong, J, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hudson, TJ, Jenkins, MA, Jiao, S, Lindor, NM, Lemire, M, Le Marchand, L, Newcomb, PA, Ogino, S, Pflugeisen, BM, Potter, JD, Qu, C, Rosse, SA, Rudolph, A, Schoen, RE, Schumacher, FR, Seminara, D, Slattery, ML, Thibodeau, SN, Thomas, F, Thornquist, M, Warnick, GS, Zanke, BW, Gauderman, WJ, Peters, U, Hsu, L, Chan, AT, Nan, H, Hutter, CM, Lin, Y, Jacobs, EJ, Ulrich, CM, White, E, Baron, JA, Berndt, SI, Brenner, H, Butterbach, K, Caan, BJ, Campbell, PT, Carlson, CS, Casey, G, Chang-Claude, J, Chanock, SJ, Cotterchio, M, Duggan, D, Figueiredo, JC, Fuchs, CS, Giovannucci, EL, Gong, J, Haile, RW, Harrison, TA, Hayes, RB, Hoffmeister, M, Hopper, JL, Hudson, TJ, Jenkins, MA, Jiao, S, Lindor, NM, Lemire, M, Le Marchand, L, Newcomb, PA, Ogino, S, Pflugeisen, BM, Potter, JD, Qu, C, Rosse, SA, Rudolph, A, Schoen, RE, Schumacher, FR, Seminara, D, Slattery, ML, Thibodeau, SN, Thomas, F, Thornquist, M, Warnick, GS, Zanke, BW, Gauderman, WJ, Peters, U, Hsu, L, and Chan, AT

Abstract

IMPORTANCE: Use of aspirin and other nonsteroidal anti-inflammatory drugs (NSAIDs) is associated with lower risk of colorectal cancer. OBJECTIVE: To identify common genetic markers that may confer differential benefit from aspirin or NSAID chemoprevention, we tested gene × environment interactions between regular use of aspirin and/or NSAIDs and single-nucleotide polymorphisms (SNPs) in relation to risk of colorectal cancer. DESIGN, SETTING, AND PARTICIPANTS: Case-control study using data from 5 case-control and 5 cohort studies initiated between 1976 and 2003 across the United States, Canada, Australia, and Germany and including colorectal cancer cases (n=8634) and matched controls (n=8553) ascertained between 1976 and 2011. Participants were all of European descent. EXPOSURES: Genome-wide SNP data and information on regular use of aspirin and/or NSAIDs and other risk factors. MAIN OUTCOMES AND MEASURES: Colorectal cancer. RESULTS: Regular use of aspirin and/or NSAIDs was associated with lower risk of colorectal cancer (prevalence, 28% vs 38%; odds ratio [OR], 0.69 [95% CI, 0.64-0.74]; P = 6.2 × 10(-28)) compared with nonregular use. In the conventional logistic regression analysis, the SNP rs2965667 at chromosome 12p12.3 near the MGST1 gene showed a genome-wide significant interaction with aspirin and/or NSAID use (P = 4.6 × 10(-9) for interaction). Aspirin and/or NSAID use was associated with a lower risk of colorectal cancer among individuals with rs2965667-TT genotype (prevalence, 28% vs 38%; OR, 0.66 [95% CI, 0.61-0.70]; P = 7.7 × 10(-33)) but with a higher risk among those with rare (4%) TA or AA genotypes (prevalence, 35% vs 29%; OR, 1.89 [95% CI, 1.27-2.81]; P = .002). In case-only interaction analysis, the SNP rs16973225 at chromosome 15q25.2 near the IL16 gene showed a genome-wide significant interaction with use of aspirin and/or NSAIDs (P = 8.2 × 10(-9) for interaction). Regular use was associated with a lower risk of colorectal cancer among individuals

Published
2015

36. Lynch syndrome and cervical cancer

Author

Antill, YC, Dowty, JG, Win, AK, Thompson, T, Walsh, MD, Cummings, MC, Gallinger, S, Lindor, NM, Le Marchand, L, Hopper, JL, Newcomb, PA, Haile, RW, Church, J, Tucker, KM, Buchanan, DD, Young, JP, Winship, IM, Jenkins, MA, Antill, YC, Dowty, JG, Win, AK, Thompson, T, Walsh, MD, Cummings, MC, Gallinger, S, Lindor, NM, Le Marchand, L, Hopper, JL, Newcomb, PA, Haile, RW, Church, J, Tucker, KM, Buchanan, DD, Young, JP, Winship, IM, and Jenkins, MA

Abstract

Carriers of germline mutations in DNA mismatch repair (MMR) genes are at increased risk of several cancers including colorectal and gynecologic cancers (Lynch syndrome). There is no substantial evidence that these mutations are associated with an increased risk of cervical cancer. A total of 369 families with at least one carrier of a mutation in a MMR gene (133 MLH1, 174 MSH2, 35 MSH6 and 27 PMS2) were ascertained via population cancer registries or via family cancer clinics in Australia, New Zealand, Canada, and USA. Personal and family histories of cancer were obtained from participant interviews. Modified segregation analysis was used to estimate the hazard ratio (incidence rates for carriers relative to those for the general population), and age-specific cumulative risks of cervical cancer for carriers. A total of 65 cases of cervical cancer were reported (including 10 verified by pathology reports). The estimated incidence was 5.6 fold (95% CI: 2.3-13.8; p = 0.001) higher for carriers than for the general population with a corresponding cumulative risk to 80 years of 4.5% (95% CI: 1.9-10.7%) compared with 0.8% for the general population. The mean age at diagnosis was 43.1 years (95% CI: 40.0-46.2), 3.9 years younger than the reported USA population mean of 47.0 years (p = 0.02). Women with MMR gene mutations were found to have an increased risk of cervical cancer. Due to limited pathology verification we cannot be certain that a proportion of these cases were not lower uterine segment endometrial cancers involving the endocervix, a recognized cancer of Lynch syndrome.

Published
2015

37. Meta-analysis of genome-wide association studies identifies common susceptibility polymorphisms for colorectal and endometrial cancer near SH2B3 and TSHZ1

Author

Cheng, THT, Thompson, D, Painter, J, O'Mara, T, Gorman, M, Martin, L, Palles, C, Jones, A, Buchanan, DD, Win, AK, Hopper, J, Jenkins, M, Lindor, NM, Newcomb, PA, Gallinger, S, Conti, D, Schumacher, F, Casey, G, Giles, GG, Pharoah, P, Peto, J, Cox, A, Swerdlow, A, Couch, F, Cunningham, JM, Goode, EL, Winham, SJ, Lambrechts, D, Fasching, P, Burwinkel, B, Brenner, H, Brauch, H, Chang-Claude, J, Salvesen, HB, Kristensen, V, Darabi, H, Li, J, Liu, T, Lindblom, A, Hall, P, Echeverry de Polanco, M, Sans, M, Carracedo, A, Castellvi-Bel, S, Rojas-Martinez, A, Aguiar, S, Teixeira, MR, Dunning, AM, Dennis, J, Otton, G, Proietto, T, Holliday, E, Attia, J, Ashton, K, Scott, RJ, McEvoy, M, Dowdy, SC, Fridley, BL, Werner, HMJ, Trovik, J, Njolstad, TS, Tham, E, Mints, M, Runnebaum, I, Hillemanns, P, Doerk, T, Amant, F, Schrauwen, S, Hein, A, Beckmann, MW, Ekici, A, Czene, K, Meindl, A, Bolla, MK, Michailidou, K, Tyrer, JP, Wang, Q, Ahmed, S, Healey, CS, Shah, M, Annibali, D, Depreeuw, J, Al-Tassan, NA, Harris, R, Meyer, BF, Whiffin, N, Hosking, FJ, Kinnersley, B, Farrington, SM, Timofeeva, M, Tenesa, A, Campbell, H, Haile, RW, Hodgson, S, Carvajal-Carmona, L, Cheadle, JP, Easton, D, Dunlop, M, Houlston, R, Spurdle, A, Tomlinson, I, Cheng, THT, Thompson, D, Painter, J, O'Mara, T, Gorman, M, Martin, L, Palles, C, Jones, A, Buchanan, DD, Win, AK, Hopper, J, Jenkins, M, Lindor, NM, Newcomb, PA, Gallinger, S, Conti, D, Schumacher, F, Casey, G, Giles, GG, Pharoah, P, Peto, J, Cox, A, Swerdlow, A, Couch, F, Cunningham, JM, Goode, EL, Winham, SJ, Lambrechts, D, Fasching, P, Burwinkel, B, Brenner, H, Brauch, H, Chang-Claude, J, Salvesen, HB, Kristensen, V, Darabi, H, Li, J, Liu, T, Lindblom, A, Hall, P, Echeverry de Polanco, M, Sans, M, Carracedo, A, Castellvi-Bel, S, Rojas-Martinez, A, Aguiar, S, Teixeira, MR, Dunning, AM, Dennis, J, Otton, G, Proietto, T, Holliday, E, Attia, J, Ashton, K, Scott, RJ, McEvoy, M, Dowdy, SC, Fridley, BL, Werner, HMJ, Trovik, J, Njolstad, TS, Tham, E, Mints, M, Runnebaum, I, Hillemanns, P, Doerk, T, Amant, F, Schrauwen, S, Hein, A, Beckmann, MW, Ekici, A, Czene, K, Meindl, A, Bolla, MK, Michailidou, K, Tyrer, JP, Wang, Q, Ahmed, S, Healey, CS, Shah, M, Annibali, D, Depreeuw, J, Al-Tassan, NA, Harris, R, Meyer, BF, Whiffin, N, Hosking, FJ, Kinnersley, B, Farrington, SM, Timofeeva, M, Tenesa, A, Campbell, H, Haile, RW, Hodgson, S, Carvajal-Carmona, L, Cheadle, JP, Easton, D, Dunlop, M, Houlston, R, Spurdle, A, and Tomlinson, I

Abstract

High-risk mutations in several genes predispose to both colorectal cancer (CRC) and endometrial cancer (EC). We therefore hypothesised that some lower-risk genetic variants might also predispose to both CRC and EC. Using CRC and EC genome-wide association series, totalling 13,265 cancer cases and 40,245 controls, we found that the protective allele [G] at one previously-identified CRC polymorphism, rs2736100 near TERT, was associated with EC risk (odds ratio (OR) = 1.08, P = 0.000167); this polymorphism influences the risk of several other cancers. A further CRC polymorphism near TERC also showed evidence of association with EC (OR = 0.92; P = 0.03). Overall, however, there was no good evidence that the set of CRC polymorphisms was associated with EC risk, and neither of two previously-reported EC polymorphisms was associated with CRC risk. A combined analysis revealed one genome-wide significant polymorphism, rs3184504, on chromosome 12q24 (OR = 1.10, P = 7.23 × 10(-9)) with shared effects on CRC and EC risk. This polymorphism, a missense variant in the gene SH2B3, is also associated with haematological and autoimmune disorders, suggesting that it influences cancer risk through the immune response. Another polymorphism, rs12970291 near gene TSHZ1, was associated with both CRC and EC (OR = 1.26, P = 4.82 × 10(-8)), with the alleles showing opposite effects on the risks of the two cancers.

Published
2015

38. A genome-wide association study for colorectal cancer identifies a risk locus in 14q23.1

Author

Lemire, M, Qu, C, Loo, LWM, Zaidi, SHE, Wang, H, Berndt, SI, Bezieau, S, Brenner, H, Campbell, PT, Chan, AT, Chang-Claude, J, Du, M, Edlund, CK, Gallinger, S, Haile, RW, Harrison, TA, Hoffmeister, M, Hopper, JL, Hou, L, Hsu, L, Jacobs, EJ, Jenkins, MA, Jeon, J, Kuery, S, Li, L, Lindor, NM, Newcomb, PA, Potter, JD, Rennert, G, Rudolph, A, Schoen, RE, Schumacher, FR, Seminara, D, Severi, G, Slattery, ML, White, E, Woods, MO, Cotterchio, M, Le Marchand, L, Casey, G, Gruber, SB, Peters, U, Hudson, TJ, Lemire, M, Qu, C, Loo, LWM, Zaidi, SHE, Wang, H, Berndt, SI, Bezieau, S, Brenner, H, Campbell, PT, Chan, AT, Chang-Claude, J, Du, M, Edlund, CK, Gallinger, S, Haile, RW, Harrison, TA, Hoffmeister, M, Hopper, JL, Hou, L, Hsu, L, Jacobs, EJ, Jenkins, MA, Jeon, J, Kuery, S, Li, L, Lindor, NM, Newcomb, PA, Potter, JD, Rennert, G, Rudolph, A, Schoen, RE, Schumacher, FR, Seminara, D, Severi, G, Slattery, ML, White, E, Woods, MO, Cotterchio, M, Le Marchand, L, Casey, G, Gruber, SB, Peters, U, and Hudson, TJ

Abstract

Over 50 loci associated with colorectal cancer (CRC) have been uncovered by genome-wide association studies (GWAS). Identifying additional loci has the potential to help elucidate aspects of the underlying biological processes leading to better understanding of the pathogenesis of the disease. We re-evaluated a GWAS by excluding controls that have family history of CRC or personal history of colorectal polyps, as we hypothesized that their inclusion reduces power to detect associations. This is supported empirically and through simulations. Two-phase GWAS analysis was performed in a total of 16,517 cases and 14,487 controls. We identified rs17094983, a SNP associated with risk of CRC [p = 2.5 × 10(-10); odds ratio estimated by re-including all controls (OR) = 0.87, 95% confidence interval (CI) 0.83-0.91; minor allele frequency (MAF) = 13%]. Results were replicated in samples of African descent (1894 cases and 4703 controls; p = 0.01; OR = 0.86, 95% CI 0.77-0.97; MAF = 16 %). Gene expression data in 195 colon adenocarcinomas and 59 normal colon tissues from two different studies revealed that this locus has genotypes that are associated with RTN1 (Reticulon 1) expression (p = 0.001), a protein-coding gene involved in survival and proliferation of cancer cells which is highly expressed in normal colon tissues but has significantly reduced expression in tumor cells (p = 1.3 × 10(-8)).

Published
2015

39. Childhood cancers in families with and without Lynch syndrome

Author

Heath, JA, Reece, JC, Buchanan, DD, Casey, G, Durno, CA, Gallinger, S, Haile, RW, Newcomb, PA, Potter, JD, Thibodeau, SN, Le Marchand, L, Lindor, NM, Hopper, JL, Jenkins, MA, Win, AK, Heath, JA, Reece, JC, Buchanan, DD, Casey, G, Durno, CA, Gallinger, S, Haile, RW, Newcomb, PA, Potter, JD, Thibodeau, SN, Le Marchand, L, Lindor, NM, Hopper, JL, Jenkins, MA, and Win, AK

Abstract

Inheritance of a germline mutation in one of the DNA mismatch repair (MMR) genes or the EPCAM gene is associated with an increased risk of colorectal cancer, endometrial cancer, and other adult malignancies (Lynch syndrome). The risk of childhood cancers in Lynch syndrome families, however, is not well studied. Using data from the Colon Cancer Family Registry, we compared the proportion of childhood cancers (diagnosed before 18 years of age) in the first-, second-, and third-degree relatives of 781 probands with a pathogenic mutation in one of the MMR genes; MLH1 (n = 275), MSH2 (n = 342), MSH6 (n = 99), or PMS2 (n = 55) or in EPCAM (n = 10) (Lynch syndrome families), with that of 5073 probands with MMR-deficient colorectal cancer (non-Lynch syndrome families). There was no evidence of a difference in the proportion of relatives with a childhood cancer between Lynch syndrome families (41/17,230; 0.24%) and non-Lynch syndrome families (179/94,302; 0.19%; p = 0.19). Incidence rate of all childhood cancers was estimated to be 147 (95% CI 107-206) per million population per year in Lynch syndrome families and 115 (95% CI 99.1-134) per million population per year in non-Lynch syndrome families. There was no evidence for a significant increase in the risk of all childhood cancers, hematologic cancers, brain and central nervous system cancers, Lynch syndrome-associated cancers, or other cancers in Lynch syndrome families compared with non-Lynch syndrome families. Larger studies, however, are required to more accurately define the risk of specific individual childhood cancers in Lynch syndrome families.

Published
2015

40. Aspirin, Ibuprofen, and the Risk for Colorectal Cancer in Lynch Syndrome

Author

Ouakrim, DA, Dashti, SG, Chau, R, Buchanan, DD, Clendenning, M, Rosty, C, Winship, IM, Young, JP, Giles, GG, Leggett, B, Macrae, FA, Ahnen, DJ, Casey, G, Gallinger, S, Haile, RW, Le Marchand, L, Thibodeau, SN, Lindor, NM, Newcomb, PA, Potter, JD, Baron, JA, Hopper, JL, Jenkins, MA, Win, AK, Ouakrim, DA, Dashti, SG, Chau, R, Buchanan, DD, Clendenning, M, Rosty, C, Winship, IM, Young, JP, Giles, GG, Leggett, B, Macrae, FA, Ahnen, DJ, Casey, G, Gallinger, S, Haile, RW, Le Marchand, L, Thibodeau, SN, Lindor, NM, Newcomb, PA, Potter, JD, Baron, JA, Hopper, JL, Jenkins, MA, and Win, AK

Abstract

BACKGROUND: Inheritance of a germline mutation in one of the DNA mismatch repair (MMR) genes MLH1, MSH2, MSH6, and PMS2 causes a high risk of colorectal and other cancers (Lynch Syndrome). Use of aspirin has been shown to be associated with a reduced risk of colorectal cancer for the general population as well as for MMR gene mutation carriers. The aim of this study was to determine whether use of aspirin and ibuprofen in a nontrial setting is associated with the risk of colorectal cancer risk for MMR gene mutation carriers. METHODS: We included 1858 participants in the Colon Cancer Family Registry who had been found to have a pathogenic germline mutation in a MMR gene (carriers). We used weighted Cox proportional hazards regression to estimate hazard ratios (HRs) and 95% confidence intervals (CIs). All statistical tests were two-sided. RESULTS: A total of 714 carriers (38%) were diagnosed with colorectal cancer at a mean age of 42.4 (standard deviation 10.6) years. A reduced risk of colorectal cancer was associated with aspirin use (for 1 month to 4.9 years: HR = 0.49, 95% CI = 0.27 to 0.90, P = .02; for ≥5 years: HR = 0.25, 95% CI = 0.10 to 0.62, P = .003) and ibuprofen use (for 1 month to 4.9 years: HR = 0.38, 95% CI = 0.18 to 0.79, P = .009; for ≥5 years: HR = 0.26, 95% CI = 0.10 to 0.69, P = .007), compared with less than one month of use. CONCLUSION: Our results provide additional evidence that, for MMR gene mutation carriers, use of aspirin and ibuprofen might be effective in reducing their high risk of colorectal cancer.

Published
2015

41. Female Hormonal Factors and the Risk of Endometrial Cancer in Lynch Syndrome

Author

Dashti, SG, Chau, R, Ouakrim, DA, Buchanan, DD, Clendenning, M, Young, JP, Winship, IM, Arnold, J, Ahnen, DJ, Haile, RW, Casey, G, Gallinger, S, Thibodeau, SN, Lindor, NM, Le Marchand, L, Newcomb, PA, Potter, JD, Baron, JA, Hopper, JL, Jenkins, MA, Win, AK, Dashti, SG, Chau, R, Ouakrim, DA, Buchanan, DD, Clendenning, M, Young, JP, Winship, IM, Arnold, J, Ahnen, DJ, Haile, RW, Casey, G, Gallinger, S, Thibodeau, SN, Lindor, NM, Le Marchand, L, Newcomb, PA, Potter, JD, Baron, JA, Hopper, JL, Jenkins, MA, and Win, AK

Abstract

IMPORTANCE: Apart from hysterectomy, there is no consensus recommendation for reducing endometrial cancer risk for women with a mismatch repair gene mutation (Lynch syndrome). OBJECTIVE: To investigate the association between hormonal factors and endometrial cancer risk in Lynch syndrome. DESIGN, SETTING, AND PARTICIPANTS: A retrospective cohort study included 1128 women with a mismatch repair gene mutation identified from the Colon Cancer Family Registry. Data were analyzed with a weighted cohort approach. Participants were recruited between 1997 and 2012 from centers across the United States, Australia, Canada, and New Zealand. EXPOSURES: Age at menarche, first and last live birth, and menopause; number of live births; hormonal contraceptive use; and postmenopausal hormone use. MAIN OUTCOMES AND MEASURES: Self-reported diagnosis of endometrial cancer. RESULTS: Endometrial cancer was diagnosed in 133 women (incidence rate per 100 person-years, 0.29; 95% CI, 0.24 to 0.34). Endometrial cancer was diagnosed in 11% (n = 70) of women with age at menarche greater than or equal to 13 years compared with 12.6% (n = 57) of women with age at menarche less than 13 years (incidence rate per 100 person-years, 0.27 vs 0.31; rate difference, -0.04 [95% CI, -0.15 to 0.05]; hazard ratio per year, 0.85 [95% CI, 0.73 to 0.99]; P = .04). Endometrial cancer was diagnosed in 10.8% (n = 88) of parous women compared with 14.4% (n = 40) of nulliparous women (incidence rate per 100 person-years, 0.25 vs 0.43; rate difference, -0.18 [95% CI, -0.32 to -0.04]; hazard ratio, 0.21 [95% CI, 0.10 to 0.42]; P < .001). Endometrial cancer was diagnosed in 8.7% (n = 70) of women who used hormonal contraceptives greater than or equal to 1 year compared with 19.2% (n = 57) of women who used contraceptives less than 1 year (incidence rate per 100 person-years, 0.22 vs 0.45; rate difference, -0.23 [95% CI, -0.36 to -0.11]; hazard ratio, 0.39 [95% CI, 0.23 to 0.64]; P < .001). There was no statistically si

Published
2015

42. Germline TP53 Mutations in Patients With Early-Onset Colorectal Cancer in the Colon Cancer Family Registry

Author

Yurgelun, MB, Masciari, S, Joshi, VA, Mercado, RC, Lindor, NM, Gallinger, S, Hopper, JL, Jenkins, MA, Buchanan, DD, Newcomb, PA, Potter, JD, Haile, RW, Kucherlapati, R, Syngal, S, Yurgelun, MB, Masciari, S, Joshi, VA, Mercado, RC, Lindor, NM, Gallinger, S, Hopper, JL, Jenkins, MA, Buchanan, DD, Newcomb, PA, Potter, JD, Haile, RW, Kucherlapati, R, and Syngal, S

Abstract

IMPORTANCE: Li-Fraumeni syndrome, usually characterized by germline TP53 mutations, is associated with markedly elevated lifetime risks of multiple cancers, and has been linked to an increased risk of early-onset colorectal cancer. OBJECTIVE: To examine the frequency of germline TP53 alterations in patients with early-onset colorectal cancer. DESIGN, SETTING, AND PARTICIPANTS: This was a multicenter cross-sectional cohort study of individuals recruited to the Colon Cancer Family Registry (CCFR) from 1998 through 2007 (genetic testing data updated as of January 2015). Both population-based and clinic-based patients in the United States, Canada, Australia, and New Zealand were recruited to the CCFR. Demographic information, clinical history, and family history data were obtained at enrollment. Biospecimens were collected from consenting probands and families, including microsatellite instability and DNA mismatch repair immunohistochemistry results. A total of a 510 individuals diagnosed as having colorectal cancer at age 40 years or younger and lacking a known hereditary cancer syndrome were identified from the CCFR as being potentially eligible. Fifty-three participants were excluded owing to subsequent identification of germline mutations in DNA mismatch repair genes (n = 47) or biallelic MUTYH mutations (n = 6). INTERVENTIONS: Germline sequencing of the TP53 gene was performed. Identified TP53 alterations were assessed for pathogenicity using literature and international mutation database searches and in silico prediction models. MAIN OUTCOMES AND MEASURES: Frequency of nonsynonymous germline TP53 alterations. RESULTS: Among 457 eligible participants (314, population-based; 143, clinic-based; median age at diagnosis, 36 years [range, 15-40 years]), 6 (1.3%; 95% CI, 0.5%-2.8%) carried germline missense TP53 alterations, none of whom met clinical criteria for Li-Fraumeni syndrome. Four of the identified TP53 alterations have been previously described in the literatur

Published
2015

43. Menarche, menopause, and breast cancer risk: individual participant meta-analysis, including 118 964 women with breast cancer from 117 epidemiological studies

Author

Beral, V, Bull, D, Pirie, K, Reeves, G, Peto, R, Skegg, D, LaVecchia, C, Magnusson, C, Pike, MC, Thomas, D, Hamajima, N, Hirose, K, Tajima, K, Rohan, T, Friedenreich, CM, Calle, EE, Gapstur, SM, Patel, AV, Coates, RJ, Liff, JM, Talamini, R, Chantarakul, N, Koetsawang, S, Rachawat, D, Marcou, Y, Kakouri, E, Duffy, SW, Morabia, A, Schuman, L, Stewart, W, Szklo, M, Coogan, PF, Palmer, JR, Rosenberg, L, Band, P, Coldman, AJ, Gallagher, RP, Hislop, TG, Yang, P, Cummings, SR, Canfell, K, Sitas, F, Chao, P, Lissowska, J, Horn-Ross, PL, John, EM, Kolonel, LM, Nomura, AMY, Ghiasvand, R, Hu, J, Johnson, KC, Mao, Y, Callaghan, K, Crossley, B, Goodill, A, Green, J, Hermon, C, Key, T, Lindgard, I, Liu, B, Collins, R, Doll, R, Bishop, T, Fentiman, IS, De Sanjose, S, Gonzaler, CA, Lee, N, Marchbanks, P, Ory, HW, Peterson, HB, Wingo, P, Ebeling, K, Kunde, D, Nishan, P, Hopper, JL, Eliassen, H, Gajalakshmi, V, Martin, N, Pardthaisong, T, Silpisornkosol, S, Theetranont, C, Boosiri, B, Chutivongse, S, Jimakorn, P, Virutamasen, P, Wongsrichanalai, C, Neugut, A, Santella, R, Baines, CJ, Kreiger, N, Miller, AB, Wall, C, Tjonneland, A, Jorgensen, T, Stahlberg, C, Pedersen, AT, Flesch-Janys, D, Hakansson, N, Cauley, J, Heuch, I, Adami, HO, Persson, I, Weiderpass, E, Chang-Claude, J, Kaaks, R, McCredie, M, Paul, C, Skegg, DCG, Spears, GFS, Iwasaki, M, Tsugane, S, Anderson, G, Daling, JR, Hampton, J, Hutchinson, WB, Li, CI, Malone, K, Mandelson, M, Newcomb, P, Noonan, EA, Ray, RM, Stanford, JL, Tang, MTC, Thomas, DB, Weiss, NS, White, E, Izquierdo, A, Viladiu, P, Fourkala, EO, Jacobs, I, Menon, U, Ryan, A, Cuevas, HR, Ontiveros, P, Palet, A, Salazar, SB, Aristizabal, N, Cuadros, A, Tryggvadottir, L, Tulinius, H, Riboli, E, Andrieu, N, Bachelot, A, Le, MG, Bremond, A, Gairard, B, Lansac, J, Piana, L, Renaud, R, Clavel-Chapelon, F, Fournier, A, Touillaud, M, Mesrine, S, Chabbert-Buffet, N, Boutron-Ruault, MC, Wolk, A, Torres-Mejia, G, Franceschi, S, Romieu, I, Boyle, P, Lubin, F, Modan, B, Ron, E, Wax, Y, Friedman, GD, Hiatt, RA, Levi, F, Kosmelj, K, Primic-Zakelj, M, Ravnihar, B, Stare, J, Ekbom, A, Erlandsson, G, Beeson, WL, Fraser, G, Peto, J, Hanson, RL, Leske, MC, Mahoney, MC, Nasca, PC, Varma, AO, Weinstein, AL, Hartman, ML, Olsson, H, Goldbohm, RA, van den Brandt, PA, Palli, D, Teitelbaum, S, Apelo, RA, Baens, J, de la Cruz, JR, Javier, B, Lacaya, LB, Ngelangel, CA, La Vecchia, C, Negri, E, Marubini, E, Ferraroni, M, Gerber, M, Richardson, S, Segala, C, Gatei, D, Kenya, P, Kungu, A, Mati, JG, Brinton, LA, Freedman, M, Hoover, R, Schairer, C, Ziegler, R, Banks, E, Spirtas, R, Lee, HP, Rookus, MA, van Leeuwen, FE, Schoenberg, JA, Graff-Iversen, S, Selmer, R, Jones, L, McPherson, K, Neil, A, Vessey, M, Yeates, D, Mabuchi, K, Preston, D, Hannaford, P, Kay, C, McCann, SE, Rosero-Bixby, L, Gao, YT, Jin, F, Yuan, J-M, Wei, HY, Yun, T, Zhiheng, C, Berry, G, Booth, JC, Jelihovsky, T, MacLennan, R, Shearman, R, Hadjisavvas, A, Kyriacou, K, Loisidou, M, Zhou, X, Wang, Q-S, Kawai, M, Minami, Y, Tsuji, I, Lund, E, Kumle, M, Stalsberg, H, Shu, XO, Zheng, W, Monninkhof, EM, Onland-Moret, NC, Peeters, PHM, Katsouyanni, K, Trichopoulou, A, Trichopoulos, D, Tzonou, A, Baltzell, KA, Dabancens, A, Martinez, L, Molina, R, Salas, O, Alexander, FE, Anderson, K, Folsom, AR, Gammon, MD, Hulka, BS, Millikan, R, Chilvers, CED, Lumachi, F, Bain, C, Schofield, F, Siskind, V, Rebbeck, TR, Bernstein, LR, Enger, S, Haile, RW, Paganini-Hill, A, Ross, RK, Ursin, G, Wu, AH, Yu, MC, Ewertz, DM, Clarke, EA, Bergkvist, L, Anderson, GL, Gass, M, O'Sullivan, MJ, Kalache, A, Farley, TMM, Holck, S, Meirik, O, Fukao, A, Factors, CGH, Grp, SHNHSIIIR, Epidemiologie, RS: CAPHRI School for Public Health and Primary Care, RS: GROW - School for Oncology and Reproduction, RS: GROW - R1 - Prevention, RS: CAPHRI - R5 - Optimising Patient Care, and Collaborative Group on Hormonal Factors in Breast Cancer

Subjects
Aging, Breast cancer, Risk factors, Menopause, Menarche, cancer, malignancy, Ethnic origin, Disease, 0302 clinical medicine, Breast cancer, Risk Factors, Neoplasms, Receptors, Epidemiology, 80 and over, 030212 general & internal medicine, skin and connective tissue diseases, Aged, 80 and over, Patient, Obstetrics, Reproduction, Smoking, Age Factors, Middle Aged, Reproducibility, 3. Good health, Menopause, Receptors, Estrogen, Oncology, 030220 oncology & carcinogenesis, Menarche, Hormonal therapy, Female, epidemiology, Cancer Type - Breast Cancer, history, Adult, Risk, trends, medicine.medical_specialty, Design, Neoplasms, Hormone-Dependent, Requiring prolonged observation, Hormone Replacement Therapy, Oncology and Carcinogenesis, Breast Neoplasms, and over, Validity, methods, 03 medical and health sciences, Age, Clinical Research, Breast Cancer, medicine, Humans, cancer, Neoplasm Invasiveness, Women, Oncology & Carcinogenesis, Hormone-Dependent, breast, Aged, Gynecology, Collaborative Group on Hormonal Factors in Breast Cancer, therapy, business.industry, Contraception/Reproduction, Research, Estrogens, Etiology - Resources and Infrastructure, medicine.disease, Estrogen, Good Health and Well Being, cessation, Premenopause, Risk factors, Relative risk, Recall, business, malignancy, Meta-Analysis
Abstract

Background Menarche and menopause mark the onset and cessation, respectively, of ovarian activity associated with reproduction, and affect breast cancer risk. Our aim was to assess the strengths of their effects and determine whether they depend on characteristics of the tumours or the affected women.Methods Individual data from 117 epidemiological studies, including 118 964 women with invasive breast cancer and 306 091 without the disease, none of whom had used menopausal hormone therapy, were included in the analyses. We calculated adjusted relative risks (RRs) associated with menarche and menopause for breast cancer overall, and by tumour histology and by oestrogen receptor expression.Findings Breast cancer risk increased by a factor of 1.050 (95% CI 1.044-1.057; p < 0.0001) for every year younger at menarche, and independently by a smaller amount (1.029, 1.025-1.032; p < 0.0001), for every year older at menopause. Premenopausal women had a greater risk of breast cancer than postmenopausal women of an identical age (RR at age 45-54 years 1.43, 1.33-1.52, p < 0.001). All three of these associations were attenuated by increasing adiposity among postmenopausal women, but did not vary materially by women's year of birth, ethnic origin, childbearing history, smoking, alcohol consumption, or hormonal contraceptive use. All three associations were stronger for lobular than for ductal tumours (p < 0.006 for each comparison). The effect of menopause in women of an identical age and trends by age at menopause were stronger for oestrogen receptor-positive disease than for oestrogen receptor-negative disease (p < 0.01 for both comparisons).Interpretation The effects of menarche and menopause on breast cancer risk might not be acting merely by lengthening women's total number of reproductive years. Endogenous ovarian hormones are more relevant for oestrogen receptor-positive disease than for oestrogen receptor-negative disease and for lobular than for ductal tumours.Funding Cancer Research UK.

Published
2012

44. HPV DNA and the Risk of Squamous Intraepithelial Lesions of the Uterine Cervix in Young Women

Author

Haile Rw, Levine Aj, Lee H. Hilborne, Harper Jm, Dorothy L. Rosenthal, and Weismeier E

Subjects
Adult, medicine.medical_specialty, Adolescent, Population, Uterine Cervical Neoplasms, Cervix Uteri, Cervical intraepithelial neoplasia, Risk Factors, Atypia, Humans, Medicine, Risk factor, education, Papillomaviridae, Vaginal Smears, Gynecology, Cervical cancer, education.field_of_study, business.industry, Obstetrics, Incidence (epidemiology), HPV infection, General Medicine, Odds ratio, medicine.disease, female genital diseases and pregnancy complications, Tumor Virus Infections, Logistic Models, Case-Control Studies, DNA, Viral, Carcinoma, Squamous Cell, Female, business, Carcinoma in Situ, Papanicolaou Test
Abstract

A population-based case-control study of college students was undertaken to estimate the effect of a positive clinical test for human papillomavirus (HPV) DNA (the Virapap test) on the rate of squamous intraepithelial lesions (SIL) of the uterine cervix. When age, multiple lifetime sexual partners, and oral contraceptive use were controlled by logistic regression, the adjusted odds ratio (OR) for a positive Virapap test was 7.3 (3.3, 17) for a cytologic diagnosis of SILs and 3.4 (1.4, 8.5) for a cytologic diagnosis of squamous intraepithelial lesions of undetermined significance (equivocal atypia). When case status was defined as patients whose Pap smears were confirmed histologically as high-grade SIL, the adjusted OR was 10.3 (3.3, 32), reflecting the high proportion of individuals with SILs who were harboring high-grade squamous intraepithelial lesions. These results confirm the many previous findings of a strong association between HPV DNA, and demonstrate that strength of the association persists when important confounding variables are controlled. This suggests a causal role for HPV in cervical neogenesis. Believing that HPV infection is a major causal agent for cervical cancer precursors suggests that in this time of rapidly increasing HPV prevalence, especially among young persons, the incidence of cervical neoplasia will rise. This underscores the importance of increasing the availability, usage, and perhaps the frequency of Pap smear screening.

Published
1993

45. EFFECT OF LIFESTYLE FACTORS ON RISK OF EARLY-ONSET COLORECTAL CANCER

Author

Win, AK, Taunde, SA, Jayasekara, H, Buchanan, DD, Young, JP, Potter, JD, Baron, JA, Le Marchand, L, Casey, G, Haile, RW, Lindor, NM, Newcomb, PA, Cotterchio, M, Gallinger, S, Hopper, JL, Jenkins, MA, Win, AK, Taunde, SA, Jayasekara, H, Buchanan, DD, Young, JP, Potter, JD, Baron, JA, Le Marchand, L, Casey, G, Haile, RW, Lindor, NM, Newcomb, PA, Cotterchio, M, Gallinger, S, Hopper, JL, and Jenkins, MA

Published
2014

46. Trans-ethnic genome-wide association study of colorectal cancer identifies a new susceptibility locus in VTI1A

Author

Wang, H, Burnett, T, Kono, S, Haiman, CA, Iwasaki, M, Wilkens, LR, Loo, LWM, Van den Berg, D, Kolonel, LN, Henderson, BE, Keku, TO, Sandler, RS, Signorello, LB, Blot, WJ, Newcomb, PA, Pande, M, Amos, CI, West, DW, Bezieau, S, Berndt, SI, Zanke, BW, Hsu, L, Lindor, NM, Haile, RW, Hopper, JL, Jenkins, MA, Gallinger, S, Casey, G, Stenzel, SL, Schumacher, FR, Peters, U, Gruber, SB, Tsugane, S, Stram, DO, Le Marchand, L, Wang, H, Burnett, T, Kono, S, Haiman, CA, Iwasaki, M, Wilkens, LR, Loo, LWM, Van den Berg, D, Kolonel, LN, Henderson, BE, Keku, TO, Sandler, RS, Signorello, LB, Blot, WJ, Newcomb, PA, Pande, M, Amos, CI, West, DW, Bezieau, S, Berndt, SI, Zanke, BW, Hsu, L, Lindor, NM, Haile, RW, Hopper, JL, Jenkins, MA, Gallinger, S, Casey, G, Stenzel, SL, Schumacher, FR, Peters, U, Gruber, SB, Tsugane, S, Stram, DO, and Le Marchand, L

Abstract

The genetic basis of sporadic colorectal cancer (CRC) is not well explained by known risk polymorphisms. Here we perform a meta-analysis of two genome-wide association studies in 2,627 cases and 3,797 controls of Japanese ancestry and 1,894 cases and 4,703 controls of African ancestry, to identify genetic variants that contribute to CRC susceptibility. We replicate genome-wide statistically significant associations (P<5 × 10(-8)) in 16,823 cases and 18,211 controls of European ancestry. This study reveals a new pan-ethnic CRC risk locus at 10q25 (rs12241008, intronic to VTI1A; P=1.4 × 10(-9)), providing additional insight into the aetiology of CRC and highlighting the value of association mapping in diverse populations.

Published
2014

47. Risk of Colorectal Cancer for Carriers of Mutations in MUTYH, With and Without a Family History of Cancer

Author

Win, AK, Dowty, JG, Cleary, SP, Kim, H, Buchanan, DD, Young, JP, Clendenning, M, Rosty, C, MacInnis, RJ, Giles, GG, Boussioutas, A, Macrae, FA, Parry, S, Goldblatt, J, Baron, JA, Burnett, T, Le Marchand, L, Newcomb, PA, Haile, RW, Hopper, JL, Cotterchio, M, Gallinger, S, Lindor, NM, Tucker, KM, Winship, IM, Jenkins, MA, Win, AK, Dowty, JG, Cleary, SP, Kim, H, Buchanan, DD, Young, JP, Clendenning, M, Rosty, C, MacInnis, RJ, Giles, GG, Boussioutas, A, Macrae, FA, Parry, S, Goldblatt, J, Baron, JA, Burnett, T, Le Marchand, L, Newcomb, PA, Haile, RW, Hopper, JL, Cotterchio, M, Gallinger, S, Lindor, NM, Tucker, KM, Winship, IM, and Jenkins, MA

Abstract

We studied 2332 individuals with monoallelic mutations in MUTYH among 9504 relatives of 264 colorectal cancer (CRC) cases with a MUTYH mutation. We estimated CRC risks through 70 years of age of 7.2% for male carriers of monoallelic mutations (95% confidence interval [CI], 4.6%-11.3%) and 5.6% for female carriers of monoallelic mutations (95% CI, 3.6%-8.8%), irrespective of family history. For monoallelic MUTYH mutation carriers with a first-degree relative with CRC diagnosed by 50 years of age who does not have the MUTYH mutation, risks of CRC were 12.5% for men (95% CI, 8.6%-17.7%) and 10% for women (95% CI, 6.7%-14.4%). Risks of CRC for carriers of monoallelic mutations in MUTYH with a first-degree relative with CRC are sufficiently high to warrant more intensive screening than for the general population.

Published
2014

48. Genome-Wide Diet-Gene Interaction Analyses for Risk of Colorectal Cancer

Author

Amos, CI, Figueiredo, JC, Hsu, L, Hutter, CM, Lin, Y, Campbell, PT, Baron, JA, Berndt, SI, Jiao, S, Casey, G, Fortini, B, Chan, AT, Cotterchio, M, Lemire, M, Gallinger, S, Harrison, TA, Le Marchand, L, Newcomb, PA, Slattery, ML, Caan, BJ, Carlson, CS, Zanke, BW, Rosse, SA, Brenner, H, Giovannucci, EL, Wu, K, Chang-Claude, J, Chanock, SJ, Curtis, KR, Duggan, D, Gong, J, Haile, RW, Hayes, RB, Hoffmeister, M, Hopper, JL, Jenkins, MA, Kolonel, LN, Qu, C, Rudolph, A, Schoen, RE, Schumacher, FR, Seminara, D, Stelling, DL, Thibodeau, SN, Thornquist, M, Warnick, GS, Henderson, BE, Ulrich, C, Gauderman, WJ, Potter, JD, White, E, Peters, U, Amos, CI, Figueiredo, JC, Hsu, L, Hutter, CM, Lin, Y, Campbell, PT, Baron, JA, Berndt, SI, Jiao, S, Casey, G, Fortini, B, Chan, AT, Cotterchio, M, Lemire, M, Gallinger, S, Harrison, TA, Le Marchand, L, Newcomb, PA, Slattery, ML, Caan, BJ, Carlson, CS, Zanke, BW, Rosse, SA, Brenner, H, Giovannucci, EL, Wu, K, Chang-Claude, J, Chanock, SJ, Curtis, KR, Duggan, D, Gong, J, Haile, RW, Hayes, RB, Hoffmeister, M, Hopper, JL, Jenkins, MA, Kolonel, LN, Qu, C, Rudolph, A, Schoen, RE, Schumacher, FR, Seminara, D, Stelling, DL, Thibodeau, SN, Thornquist, M, Warnick, GS, Henderson, BE, Ulrich, C, Gauderman, WJ, Potter, JD, White, E, and Peters, U

Abstract

Dietary factors, including meat, fruits, vegetables and fiber, are associated with colorectal cancer; however, there is limited information as to whether these dietary factors interact with genetic variants to modify risk of colorectal cancer. We tested interactions between these dietary factors and approximately 2.7 million genetic variants for colorectal cancer risk among 9,287 cases and 9,117 controls from ten studies. We used logistic regression to investigate multiplicative gene-diet interactions, as well as our recently developed Cocktail method that involves a screening step based on marginal associations and gene-diet correlations and a testing step for multiplicative interactions, while correcting for multiple testing using weighted hypothesis testing. Per quartile increment in the intake of red and processed meat were associated with statistically significant increased risks of colorectal cancer and vegetable, fruit and fiber intake with lower risks. From the case-control analysis, we detected a significant interaction between rs4143094 (10p14/near GATA3) and processed meat consumption (OR = 1.17; p = 8.7E-09), which was consistently observed across studies (p heterogeneity = 0.78). The risk of colorectal cancer associated with processed meat was increased among individuals with the rs4143094-TG and -TT genotypes (OR = 1.20 and OR = 1.39, respectively) and null among those with the GG genotype (OR = 1.03). Our results identify a novel gene-diet interaction with processed meat for colorectal cancer, highlighting that diet may modify the effect of genetic variants on disease risk, which may have important implications for prevention.

Published
2014

49. Pleiotropic effects of genetic risk variants for other cancers on colorectal cancer risk: PAGE, GECCO and CCFR consortia

Author

Cheng, I, Kocarnik, JM, Dumitrescu, L, Lindor, NM, Chang-Claude, J, Avery, CL, Caberto, CP, Love, S-A, Slattery, ML, Chan, AT, Baron, JA, Hindorff, LA, Park, SL, Schumacher, FR, Hoffmeister, M, Kraft, P, Butler, AM, Duggan, DJ, Hou, L, Carlson, CS, Monroe, KR, Lin, Y, Carty, CL, Mann, S, Ma, J, Giovannucci, EL, Fuchs, CS, Newcomb, PA, Jenkins, MA, Hopper, JL, Haile, RW, Conti, DV, Campbell, PT, Potter, JD, Caan, BJ, Schoen, RE, Hayes, RB, Chanock, SJ, Berndt, SI, Kuery, S, Bezieau, S, Ambite, JL, Kumaraguruparan, G, Richardson, DM, Goodloe, RJ, Dilks, HH, Baker, P, Zanke, BW, Lemire, M, Gallinger, S, Hsu, L, Jiao, S, Harrison, TA, Seminara, D, Haiman, CA, Kooperberg, C, Wilkens, LR, Hutter, CM, White, E, Crawford, DC, Heiss, G, Hudson, TJ, Brenner, H, Bush, WS, Casey, G, Le Marchand, L, Peters, U, Cheng, I, Kocarnik, JM, Dumitrescu, L, Lindor, NM, Chang-Claude, J, Avery, CL, Caberto, CP, Love, S-A, Slattery, ML, Chan, AT, Baron, JA, Hindorff, LA, Park, SL, Schumacher, FR, Hoffmeister, M, Kraft, P, Butler, AM, Duggan, DJ, Hou, L, Carlson, CS, Monroe, KR, Lin, Y, Carty, CL, Mann, S, Ma, J, Giovannucci, EL, Fuchs, CS, Newcomb, PA, Jenkins, MA, Hopper, JL, Haile, RW, Conti, DV, Campbell, PT, Potter, JD, Caan, BJ, Schoen, RE, Hayes, RB, Chanock, SJ, Berndt, SI, Kuery, S, Bezieau, S, Ambite, JL, Kumaraguruparan, G, Richardson, DM, Goodloe, RJ, Dilks, HH, Baker, P, Zanke, BW, Lemire, M, Gallinger, S, Hsu, L, Jiao, S, Harrison, TA, Seminara, D, Haiman, CA, Kooperberg, C, Wilkens, LR, Hutter, CM, White, E, Crawford, DC, Heiss, G, Hudson, TJ, Brenner, H, Bush, WS, Casey, G, Le Marchand, L, and Peters, U

Abstract

OBJECTIVE: Genome-wide association studies have identified a large number of single nucleotide polymorphisms (SNPs) associated with a wide array of cancer sites. Several of these variants demonstrate associations with multiple cancers, suggesting pleiotropic effects and shared biological mechanisms across some cancers. We hypothesised that SNPs previously associated with other cancers may additionally be associated with colorectal cancer. In a large-scale study, we examined 171 SNPs previously associated with 18 different cancers for their associations with colorectal cancer. DESIGN: We examined 13 338 colorectal cancer cases and 40 967 controls from three consortia: Population Architecture using Genomics and Epidemiology (PAGE), Genetic Epidemiology of Colorectal Cancer (GECCO), and the Colon Cancer Family Registry (CCFR). Study-specific logistic regression results, adjusted for age, sex, principal components of genetic ancestry, and/or study specific factors (as relevant) were combined using fixed-effect meta-analyses to evaluate the association between each SNP and colorectal cancer risk. A Bonferroni-corrected p value of 2.92×10(-4) was used to determine statistical significance of the associations. RESULTS: Two correlated SNPs--rs10090154 and rs4242382--in Region 1 of chromosome 8q24, a prostate cancer susceptibility region, demonstrated statistically significant associations with colorectal cancer risk. The most significant association was observed with rs4242382 (meta-analysis OR=1.12; 95% CI 1.07 to 1.18; p=1.74×10(-5)), which also demonstrated similar associations across racial/ethnic populations and anatomical sub-sites. CONCLUSIONS: This is the first study to clearly demonstrate Region 1 of chromosome 8q24 as a susceptibility locus for colorectal cancer; thus, adding colorectal cancer to the list of cancer sites linked to this particular multicancer risk region at 8q24.

Published
2014

50. Does risk of endometrial cancer for women without a germline mutation in a DNA mismatch repair gene depend on family history of endometrial cancer or colorectal cancer?

Author

Bharati, R, Jenkins, MA, Lindor, NM, Le Marchand, L, Gallinger, S, Haile, RW, Newcomb, PA, Hopper, JL, Win, AK, Bharati, R, Jenkins, MA, Lindor, NM, Le Marchand, L, Gallinger, S, Haile, RW, Newcomb, PA, Hopper, JL, and Win, AK

Abstract

OBJECTIVE: To determine whether risk of endometrial cancer for women without a germline mutation in a DNA mismatch repair (MMR) gene depends on family history of endometrial or colorectal cancer. METHODS: We retrospectively followed a cohort of 79,166 women who were recruited to the Colon Cancer Family Registry, after exclusion of women who were relatives of a carrier of a MMR gene mutation. The Kaplan-Meier failure method was used to estimate the cumulative risk of endometrial cancer. Cox regression was used to estimate hazard ratios (HRs) and 95% confidence intervals (CIs) for association between family history of endometrial or colorectal cancer and risk of endometrial cancer. RESULTS: A total of 628 endometrial cancer cases were observed, with mean age at diagnosis of 54.4 (standard deviation: 15.7) years. The cumulative risk of endometrial cancer to age 70 years was estimated to be 0.94% (95% CI 0.83-1.05) for women with no family history of endometrial cancer, and 3.80% (95% CI 2.75-4.98) for women with at least one first- or second-degree relative with endometrial cancer. Compared with women without family history, we found an increased risk of endometrial cancer for women with at least one first- or second-degree relative with endometrial cancer (HR 3.66, 95% CI 2.63-5.08), and for women with one first-degree relative with colorectal cancer diagnosed at age <50 years (HR 1.48, 95% CI 1.15-1.91). CONCLUSION: An increased risk of endometrial cancer is associated with a family history of endometrial cancer or early-onset colorectal cancer for women without a MMR gene mutation, indicating for potential underlying genetic and environmental factors shared by colorectal and endometrial cancers other than caused by MMR gene mutations.

Published
2014

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