Your search keyword '"Cotterchio M"' showing total 321 results

1. Genome-wide association studies and Mendelian randomization analyses provide insights into the causes of early-onset colorectal cancer

Author

Laskar, R.S., Qu, C., Huyghe, J.R., Harrison, T., Hayes, R.B., Cao, Y., Campbell, P.T., Steinfelder, R., Talukdar, F.R., Brenner, H., Ogino, S., Brendt, S., Bishop, D.T., Buchanan, D.D., Chan, A.T., Cotterchio, M., Gruber, S.B., Gsur, A., van Guelpen, B., Jenkins, M.A., Keku, T.O., Lynch, B.M., Le Marchand, L., Martin, R.M., McCarthy, K., Moreno, V., Pearlman, R., Song, M., Tsilidis, K.K., Vodička, P., Woods, M.O., Wu, K., Hsu, L., Gunter, M.J., Peters, U., and Murphy, N.

Published

2024

2. Genome-wide interaction analysis of folate for colorectal cancer risk

Author

Bouras, E, Kim, AE, Lin, Y, Morrison, J, Du, M, Albanes, D, Barry, EL, Baurley, JW, Berndt, SI, Bien, SA, Bishop, TD, Brenner, H, Budiarto, A, Burnett-Hartman, A, Campbell, PT, Carreras-Torres, R, Casey, G, Cenggoro, TW, Chan, AT, Chang-Claude, J, Conti, DV, Cotterchio, M, Devall, M, Diez-Obrero, V, Dimou, N, Drew, DA, Figueiredo, JC, Giles, GG, Gruber, SB, Gunter, MJ, Harrison, TA, Hidaka, A, Hoffmeister, M, Huyghe, JR, Joshi, AD, Kawaguchi, ES, Keku, TO, Kundaje, A, Le Marchand, L, Lewinger, JP, Li, L, Lynch, BM, Mahesworo, B, Mannisto, S, Moreno, V, Murphy, N, Newcomb, PA, Obon-Santacana, M, Ose, J, Palmer, JR, Papadimitriou, N, Pardamean, B, Pellatt, AJ, Peoples, AR, Platz, EA, Potter, JD, Qi, L, Qu, C, Rennert, G, Ruiz-Narvaez, E, Sakoda, LC, Schmit, SL, Shcherbina, A, Stern, MC, Su, Y-R, Tangen, CM, Thomas, DC, Tian, Y, Um, CY, van Duijnhoven, FJB, Van Guelpen, B, Visvanathan, K, Wang, J, White, E, Wolk, A, Woods, MO, Ulrich, CM, Hsu, L, Gauderman, WJ, Peters, U, Tsilidis, KK, Bouras, E, Kim, AE, Lin, Y, Morrison, J, Du, M, Albanes, D, Barry, EL, Baurley, JW, Berndt, SI, Bien, SA, Bishop, TD, Brenner, H, Budiarto, A, Burnett-Hartman, A, Campbell, PT, Carreras-Torres, R, Casey, G, Cenggoro, TW, Chan, AT, Chang-Claude, J, Conti, DV, Cotterchio, M, Devall, M, Diez-Obrero, V, Dimou, N, Drew, DA, Figueiredo, JC, Giles, GG, Gruber, SB, Gunter, MJ, Harrison, TA, Hidaka, A, Hoffmeister, M, Huyghe, JR, Joshi, AD, Kawaguchi, ES, Keku, TO, Kundaje, A, Le Marchand, L, Lewinger, JP, Li, L, Lynch, BM, Mahesworo, B, Mannisto, S, Moreno, V, Murphy, N, Newcomb, PA, Obon-Santacana, M, Ose, J, Palmer, JR, Papadimitriou, N, Pardamean, B, Pellatt, AJ, Peoples, AR, Platz, EA, Potter, JD, Qi, L, Qu, C, Rennert, G, Ruiz-Narvaez, E, Sakoda, LC, Schmit, SL, Shcherbina, A, Stern, MC, Su, Y-R, Tangen, CM, Thomas, DC, Tian, Y, Um, CY, van Duijnhoven, FJB, Van Guelpen, B, Visvanathan, K, Wang, J, White, E, Wolk, A, Woods, MO, Ulrich, CM, Hsu, L, Gauderman, WJ, Peters, U, and Tsilidis, KK

Abstract

BACKGROUND: Epidemiological and experimental evidence suggests that higher folate intake is associated with decreased colorectal cancer (CRC) risk; however, the mechanisms underlying this relationship are not fully understood. Genetic variation that may have a direct or indirect impact on folate metabolism can provide insights into folate's role in CRC. OBJECTIVES: Our aim was to perform a genome-wide interaction analysis to identify genetic variants that may modify the association of folate on CRC risk. METHODS: We applied traditional case-control logistic regression, joint 3-degree of freedom, and a 2-step weighted hypothesis approach to test the interactions of common variants (allele frequency >1%) across the genome and dietary folate, folic acid supplement use, and total folate in relation to risk of CRC in 30,550 cases and 42,336 controls from 51 studies from 3 genetic consortia (CCFR, CORECT, GECCO). RESULTS: Inverse associations of dietary, total folate, and folic acid supplement with CRC were found (odds ratio [OR]: 0.93; 95% confidence interval [CI]: 0.90, 0.96; and 0.91; 95% CI: 0.89, 0.94 per quartile higher intake, and 0.82 (95% CI: 0.78, 0.88) for users compared with nonusers, respectively). Interactions (P-interaction < 5×10-8) of folic acid supplement and variants in the 3p25.2 locus (in the region of Synapsin II [SYN2]/tissue inhibitor of metalloproteinase 4 [TIMP4]) were found using traditional interaction analysis, with variant rs150924902 (located upstream to SYN2) showing the strongest interaction. In stratified analyses by rs150924902 genotypes, folate supplementation was associated with decreased CRC risk among those carrying the TT genotype (OR: 0.82; 95% CI: 0.79, 0.86) but increased CRC risk among those carrying the TA genotype (OR: 1.63; 95% CI: 1.29, 2.05), suggesting a qualitative interaction (P-interaction = 1.4×10-8). No interactions were observed for dietary and total folate. CONCLUSIONS: Variation in 3p25.2 locus may modify the assoc

Published

2023

3. Vitamin D and pancreatic cancer: a pooled analysis from the Pancreatic Cancer Case–Control Consortium

Author

Waterhouse, M., Risch, H.A., Bosetti, C., Anderson, K.E., Petersen, G.M., Bamlet, W.R., Cotterchio, M., Cleary, S.P., Ibiebele, T.I., La Vecchia, C., Skinner, H.G., Strayer, L., Bracci, P.M., Maisonneuve, P., Bueno-de-Mesquita, H.B., Zatoński, W., Lu, L., Yu, H., Janik-Koncewicz, K., and Neale, R.E.

Published

2015

4. Diabetes, antidiabetic medications, and pancreatic cancer risk: an analysis from the International Pancreatic Cancer Case-Control Consortium

Author

Bosetti, C., Rosato, V., Li, D., Silverman, D., Petersen, G.M., Bracci, P.M., Neale, R.E., Muscat, J., Anderson, K., Gallinger, S., Olson, S.H., Miller, A.B., Bas Bueno-de-Mesquita, H., Scelo, G., Janout, V., Holcatova, I., Lagiou, P., Serraino, D., Lucenteforte, E., Fabianova, E., Baghurst, P.A., Zatonski, W., Foretova, L., Fontham, E., Bamlet, W.R., Holly, E.A., Negri, E., Hassan, M., Prizment, A., Cotterchio, M., Cleary, S., Kurtz, R.C., Maisonneuve, P., Trichopoulos, D., Polesel, J., Duell, E.J., Boffetta, P., La Vecchia, C., and Ghadirian, P.

Published

2014

5. Cigarette smoking and pancreatic cancer: an analysis from the International Pancreatic Cancer Case-Control Consortium (Panc4)

Author

Bosetti, C., Lucenteforte, E., Silverman, D.T., Petersen, G., Bracci, P.M., Ji, B.T., Negri, E., Li, D., Risch, H.A., Olson, S.H., Gallinger, S., Miller, A.B., Bueno-de-Mesquita, H.B., Talamini, R., Polesel, J., Ghadirian, P., Baghurst, P.A., Zatonski, W., Fontham, E., Bamlet, W.R., Holly, E.A., Bertuccio, P., Gao, Y.T., Hassan, M., Yu, H., Kurtz, R.C., Cotterchio, M., Su, J., Maisonneuve, P., Duell, E.J., Boffetta, P., and La Vecchia, C.

Published

2012

6. Cigar and pipe smoking, smokeless tobacco use and pancreatic cancer: an analysis from the International Pancreatic Cancer Case-Control Consortium (PanC4)

Author

Bertuccio, P., La Vecchia, C., Silverman, D.T., Petersen, G.M., Bracci, P.M., Negri, E., Li, D., Risch, H.A., Olson, S.H., Gallinger, S., Miller, A.B., Bueno-de-Mesquita, H.B., Talamini, R., Polesel, J., Ghadirian, P., Baghurst, P.A., Zatonski, W., Fontham, E.T., Bamlet, W.R., Holly, E.A., Lucenteforte, E., Hassan, M., Yu, H., Kurtz, R.C., Cotterchio, M., Su, J., Maisonneuve, P., Duell, E.J., Bosetti, C., and Boffetta, P.

Published

2011

7. A transcriptome-wide association study identifies novel candidate susceptibility genes for pancreatic cancer.

Author

Hasan M., Zhang T., Xiao W., Albanes D., Andreotti G., Arslan A.A., Babic A., Bamlet W.R., Beane-Freeman L., Berndt S., Borgida A., Bracci P.M., Brais L., Brennan P., Bueno-De-Mesquita B., Buring J., Canzian F., Childs E.J., Cotterchio M., Du M., Duell E.J., Fuchs C., Gallinger S., Michael Gaziano J., Giles G.G., Giovannucci E., Goggins M., Goodman G.E., Goodman P.J., Haiman C., Hartge P., Helzlsouer K.J., Holly E.A., Klein E.A., Kogevinas M., Kurtz R.J., LeMarchand L., Malats N., Mannisto S., Milne R., Neale R.E., Ng K., Obazee O., Oberg A.L., Orlow I., Patel A.V., Peters U., Porta M., Rothman N., Scelo G., Sesso H.D., Severi G., Sieri S., Silverman D., Sund M., Tjonneland A., Thornquist M.D., Tobias G.S., Trichopoulou A., van Den Eeden S.K., Visvanathan K., Wactawski-Wende J., Wentzensen N., White E., Yu H., Yuan C., Zeleniuch-Jacquotte A., Hoover R., Brown K., Kooperberg C., Risch H.A., Jacobs E.J., Li D., Yu K., Shu X.-O., Chanock S.J., Wolpin B.M., Stolzenberg-Solomon R.Z., Chatterjee N., Klein A.P., Smith J.P., Kraft P., Shi J., Petersen G.M., Zheng W., Amundadottir L.T., Zhong J., Jermusyk A., Wu L., Hoskins J.W., Collins I., Mocci E., Zhang M., Song L., Chung C.C., Hasan M., Zhang T., Xiao W., Albanes D., Andreotti G., Arslan A.A., Babic A., Bamlet W.R., Beane-Freeman L., Berndt S., Borgida A., Bracci P.M., Brais L., Brennan P., Bueno-De-Mesquita B., Buring J., Canzian F., Childs E.J., Cotterchio M., Du M., Duell E.J., Fuchs C., Gallinger S., Michael Gaziano J., Giles G.G., Giovannucci E., Goggins M., Goodman G.E., Goodman P.J., Haiman C., Hartge P., Helzlsouer K.J., Holly E.A., Klein E.A., Kogevinas M., Kurtz R.J., LeMarchand L., Malats N., Mannisto S., Milne R., Neale R.E., Ng K., Obazee O., Oberg A.L., Orlow I., Patel A.V., Peters U., Porta M., Rothman N., Scelo G., Sesso H.D., Severi G., Sieri S., Silverman D., Sund M., Tjonneland A., Thornquist M.D., Tobias G.S., Trichopoulou A., van Den Eeden S.K., Visvanathan K., Wactawski-Wende J., Wentzensen N., White E., Yu H., Yuan C., Zeleniuch-Jacquotte A., Hoover R., Brown K., Kooperberg C., Risch H.A., Jacobs E.J., Li D., Yu K., Shu X.-O., Chanock S.J., Wolpin B.M., Stolzenberg-Solomon R.Z., Chatterjee N., Klein A.P., Smith J.P., Kraft P., Shi J., Petersen G.M., Zheng W., Amundadottir L.T., Zhong J., Jermusyk A., Wu L., Hoskins J.W., Collins I., Mocci E., Zhang M., Song L., and Chung C.C.

Abstract

Background: Although 20 pancreatic cancer susceptibility loci have been identified through genome-wide association studies in individuals of European ancestry, much of its heritability remains unexplained and the genes responsible largely unknown. Method(s): To discover novel pancreatic cancer risk loci and possible causal genes, we performed a pancreatic cancer transcriptome-wide association study in Europeans using three approaches: FUSION, MetaXcan, and Summary-MulTiXcan. We integrated genome-wide association studies summary statistics from 9040 pancreatic cancer cases and 12 496 controls, with gene expression prediction models built using transcriptome data from histologically normal pancreatic tissue samples (NCI Laboratory of Translational Genomics [n = 95] and Genotype-Tissue Expression v7 [n = 174] datasets) and data from 48 different tissues (Genotype-Tissue Expression v7, n = 74-421 samples). Result(s): We identified 25 genes whose genetically predicted expression was statistically significantly associated with pancreatic cancer risk (false discovery rate <.05), including 14 candidate genes at 11 novel loci (1p36.12: CELA3B; 9q31.1: SMC2, SMC2-AS1; 10q23.31: RP11-80H5.9; 12q13.13: SMUG1; 14q32.33: BTBD6; 15q23: HEXA; 15q26.1: RCCD1; 17q12: PNMT, CDK12, PGAP3; 17q22: SUPT4H1; 18q11.22:RP11-888D10.3; and 19p13.11: PGPEP1) and 11 at six known risk loci (5p15.33: TERT, CLPTM1L, ZDHHC11B; 7p14.1: INHBA; 9q34.2: ABO; 13q12.2: PDX1; 13q22.1: KLF5; and 16q23.1: WDR59, CFDP1, BCAR1, TMEM170A). The association for 12 of these genes (CELA3B, SMC2, and PNMT at novel risk loci and TERT, CLPTM1L, INHBA, ABO, PDX1, KLF5, WDR59, CFDP1, and BCAR1 at known loci) remained statistically significant after Bonferroni correction. Conclusion(s): By integrating gene expression and genotype data, we identified novel pancreatic cancer risk loci and candidate functional genes that warrant further investigation.Copyright © 2020 Oxford University Press. All rights reserved.

Published

2021

8. A63 REFINING THE CANADIAN ASSOCIATION OF GASTROENTEROLOGY GUIDELINE ON SCREENING IN PERSONS WITH A FAMILY HISTORY OF NONHEREDITARY COLORECTAL CANCER OR ADENOMA: A MODIFIED DELPHI PROCESS

Author

Tinmouth, J, primary, Paramalingam, A, additional, Bellini, A, additional, Cotterchio, M, additional, Dekker, E, additional, Doctorow, R, additional, Hassan, C, additional, Haddad, E, additional, Lofters, A, additional, MacIntosh, D, additional, Martin, J, additional, McCurdy, B, additional, Murray, I, additional, Naglie, H, additional, Paroschy-Harris, C, additional, Rabeneck, L, additional, Stogios, C, additional, Telford, J J, additional, Venkatesh, R, additional, Wong, C, additional, Zenlea, T, additional, and Dube, C, additional

Published

2021

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

Author

Seyed Khoei, N., Jenab, M., Murphy, N., Banbury, B.L., Carreras-Torres, R., Viallon, V., Kühn, T., Bueno-de-Mesquita, B., Aleksandrova, K., Cross, A.J., Weiderpass, E., Stepien, M., Bulmer, A., Tjønneland, A., Boutron-Ruault, M.C., Severi, G., Carbonnel, F., Katzke, V., Boeing, H., Bergmann, M.M., Trichopoulou, A., Karakatsani, A., Martimianaki, G., Palli, D., Tagliabue, G., Panico, S., Tumino, R., Sacerdote, C., Skeie, G., Merino, S., Bonet, C., Rodríguez-Barranco, M., Gil, L., Chirlaque, M.D., Ardanaz, E., Myte, R., Hultdin, J., Perez-Cornago, A., Aune, D., Tsilidis, K.K., Albanes, D., Baron, J.A., Berndt, S.I., Bézieau, S., Brenner, H., Campbell, P.T., Casey, G., Chang-Claude, J., Chanock, S.J., Cotterchio, M., Gallinger, S., Gruber, S.B., Haile, R.W., Hampe, J., Hoffmeister, M., Hopper, J.L., Hsu, L., Huyghe, J.R., Jenkins, M.A., Joshi, A.D., Kampman, E., Larsson, S.C., Le Marchand, L., Li, C.I., Li, L., Lindblom, A., Lindor, N.M., Martín, V., Moreno, V., Newcomb, P.A., Offit, K., Ogino, S., Parfrey, P.S., Pharoah, P.D.P., Rennert, G., Sakoda, L.C., Schafmayer, C., Schmit, S.L., Schoen, R.E., Slattery, M.L., Thibodeau, S.N., Ulrich, C.M., van Duijnhoven, F.J.B., Weigl, K., Weinstein, S.J., White, E., Wolk, A., Woods, M.O., Wu, A.H., Zhang, X., Ferrari, P., Anton, G., Peters, A., Peters, U., Gunter, M.J., Wagner, K.H., and Freisling, H.

Subjects

Bilirubin, Cancer, Colorectal Cancer, Anti-oxidants, Mendelian Randomization Analysis

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 x 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 (P-heterogeneity = 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 mainUGT1A1SNP (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, were suggestive of an inverse association with CRC in men, but not in women. These differences by sex did not reach formal statistical significance (P-heterogeneity >= 0.2). Conclusions Additional insight into the relationship between circulating bilirubin and CRC is needed in order to conclude on a potential causal role of bilirubin in CRC development.

Published

2020

10. Circulating bilirubin levels and risk of colorectal cancer: Serological and Mendelian randomization analyses

Author

Seyed Khoei, N. Jenab, M. Murphy, N. Banbury, B.L. Carreras-Torres, R. Viallon, V. Kühn, T. Bueno-De-Mesquita, B. Aleksandrova, K. Cross, A.J. Weiderpass, E. Stepien, M. Bulmer, A. Tjønneland, A. Boutron-Ruault, M.-C. Severi, G. Carbonnel, F. Katzke, V. Boeing, H. Bergmann, M.M. Trichopoulou, A. Karakatsani, A. Martimianaki, G. Palli, D. Tagliabue, G. Panico, S. Tumino, R. Sacerdote, C. Skeie, G. Merino, S. Bonet, C. Rodríguez-Barranco, M. Gil, L. Chirlaque, M.-D. Ardanaz, E. Myte, R. Hultdin, J. Perez-Cornago, A. Aune, D. Tsilidis, K.K. Albanes, D. Baron, J.A. Berndt, S.I. Bézieau, S. Brenner, H. Campbell, P.T. Casey, G. Chan, A.T. Chang-Claude, J. Chanock, S.J. Cotterchio, M. Gallinger, S. Gruber, S.B. Haile, R.W. Hampe, J. Hoffmeister, M. Hopper, J.L. Hsu, L. Huyghe, J.R. Jenkins, M.A. Joshi, A.D. Kampman, E. Larsson, S.C. Le Marchand, L. Li, C.I. Li, L. Lindblom, A. Lindor, N.M. Martín, V. Moreno, V. Newcomb, P.A. Offit, K. Ogino, S. Parfrey, P.S. Pharoah, P.D.P. Rennert, G. Sakoda, L.C. Schafmayer, C. Schmit, S.L. Schoen, R.E. Slattery, M.L. Thibodeau, S.N. Ulrich, C.M. Van Duijnhoven, F.J.B. Weigl, K. Weinstein, S.J. White, E. Wolk, A. Woods, M.O. Wu, A.H. Zhang, X. Ferrari, P. Anton, G. Peters, A. Peters, U. Gunter, M.J. Wagner, K.-H. 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 (P heterogeneity = 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, were suggestive of an inverse association with CRC in men, but not in women. These differences by sex did not reach formal statistical significance (P heterogeneity ≥ 0.2). Conclusions: Additional insight into the relationship between circulating bilirubin and CRC is needed in order to conclude on a potential causal role of bilirubin in CRC development. © 2020 The Author(s).

Published

2020

11. Cumulative Burden of Colorectal Cancer Associated Genetic Variants Is More Strongly Associated With Early-Onset vs Late-Onset Cancer

Author

Archambault, AN, Su, Y-R, Jeon, J, Thomas, M, Lin, Y, Conti, DV, Win, AK, Sakoda, LC, Lansdorp-Vogelaar, I, Peterse, EFP, Zauber, AG, Duggan, D, Holowatyj, AN, Huyghe, JR, Brenner, H, Cotterchio, M, Bezieau, S, Schmit, SL, Edlund, CK, Southey, MC, MacInnis, RJ, Campbell, PT, Chang-Claude, J, Slattery, ML, Chan, AT, Joshi, AD, Song, M, Cao, Y, Woods, MO, White, E, Weinstein, SJ, Ulrich, CM, Hoffmeister, M, Bien, SA, Harrison, TA, Hampe, J, Li, CI, Schafmayer, C, Offit, K, Pharoah, PD, Moreno, V, Lindblom, A, Wolk, A, Wu, AH, Li, L, Gunter, MJ, Gsur, A, Keku, TO, Pearlman, R, Bishop, DT, Castellvi-Bel, S, Moreira, L, Vodicka, P, Kampman, E, Giles, GG, Albanes, D, Baron, JA, Berndt, SI, Brezina, S, Buch, S, Buchanan, DD, Trichopoulou, A, Severi, G, Chirlaque, M-D, Sanchez, M-J, Palli, D, Kuhn, T, Murphy, N, Cross, AJ, Burnett-Hartman, AN, Chanock, SJ, de la Chapelle, A, Easton, DF, Elliott, F, English, DR, Feskens, EJM, FitzGerald, LM, Goodman, PJ, Hopper, JL, Hudson, TJ, Hunter, DJ, Jacobs, EJ, Joshu, CE, Kury, S, Markowitz, SD, Milne, RL, Platz, EA, Rennert, G, Rennert, HS, Schumacher, FR, Sandler, RS, Seminara, D, Tangen, CM, Thibodeau, SN, Toland, AE, van Duijnhoven, FJB, Visvanathan, K, Vodickova, L, Potter, JD, Mannisto, S, Weigl, K, Figueiredo, J, Martin, V, Larsson, SC, Parfrey, PS, Huang, W-Y, Lenz, H-J, Castelao, JE, Gago-Dominguez, M, Munoz-Garzon, V, Mancao, C, Haiman, CA, Wilkens, LR, Siegel, E, Barry, E, Younghusband, B, Van Guelpen, B, Harlid, S, Zeleniuch-Jacquotte, A, Liang, PS, Du, M, Casey, G, Lindor, NM, Le Marchand, L, Gallinger, SJ, Jenkins, MA, Newcomb, PA, Gruber, SB, Schoen, RE, Hampel, H, Corley, DA, Hsu, L, Peters, U, Hayes, RB, Archambault, AN, Su, Y-R, Jeon, J, Thomas, M, Lin, Y, Conti, DV, Win, AK, Sakoda, LC, Lansdorp-Vogelaar, I, Peterse, EFP, Zauber, AG, Duggan, D, Holowatyj, AN, Huyghe, JR, Brenner, H, Cotterchio, M, Bezieau, S, Schmit, SL, Edlund, CK, Southey, MC, MacInnis, RJ, Campbell, PT, Chang-Claude, J, Slattery, ML, Chan, AT, Joshi, AD, Song, M, Cao, Y, Woods, MO, White, E, Weinstein, SJ, Ulrich, CM, Hoffmeister, M, Bien, SA, Harrison, TA, Hampe, J, Li, CI, Schafmayer, C, Offit, K, Pharoah, PD, Moreno, V, Lindblom, A, Wolk, A, Wu, AH, Li, L, Gunter, MJ, Gsur, A, Keku, TO, Pearlman, R, Bishop, DT, Castellvi-Bel, S, Moreira, L, Vodicka, P, Kampman, E, Giles, GG, Albanes, D, Baron, JA, Berndt, SI, Brezina, S, Buch, S, Buchanan, DD, Trichopoulou, A, Severi, G, Chirlaque, M-D, Sanchez, M-J, Palli, D, Kuhn, T, Murphy, N, Cross, AJ, Burnett-Hartman, AN, Chanock, SJ, de la Chapelle, A, Easton, DF, Elliott, F, English, DR, Feskens, EJM, FitzGerald, LM, Goodman, PJ, Hopper, JL, Hudson, TJ, Hunter, DJ, Jacobs, EJ, Joshu, CE, Kury, S, Markowitz, SD, Milne, RL, Platz, EA, Rennert, G, Rennert, HS, Schumacher, FR, Sandler, RS, Seminara, D, Tangen, CM, Thibodeau, SN, Toland, AE, van Duijnhoven, FJB, Visvanathan, K, Vodickova, L, Potter, JD, Mannisto, S, Weigl, K, Figueiredo, J, Martin, V, Larsson, SC, Parfrey, PS, Huang, W-Y, Lenz, H-J, Castelao, JE, Gago-Dominguez, M, Munoz-Garzon, V, Mancao, C, Haiman, CA, Wilkens, LR, Siegel, E, Barry, E, Younghusband, B, Van Guelpen, B, Harlid, S, Zeleniuch-Jacquotte, A, Liang, PS, Du, M, Casey, G, Lindor, NM, Le Marchand, L, Gallinger, SJ, Jenkins, MA, Newcomb, PA, Gruber, SB, Schoen, RE, Hampel, H, Corley, DA, Hsu, L, Peters, U, and Hayes, RB

Abstract

BACKGROUND & AIMS: Early-onset colorectal cancer (CRC, in persons younger than 50 years old) is increasing in incidence; yet, in the absence of a family history of CRC, this population lacks harmonized recommendations for prevention. We aimed to determine whether a polygenic risk score (PRS) developed from 95 CRC-associated common genetic risk variants was associated with risk for early-onset CRC. METHODS: We studied risk for CRC associated with a weighted PRS in 12,197 participants younger than 50 years old vs 95,865 participants 50 years or older. PRS was calculated based on single nucleotide polymorphisms associated with CRC in a large-scale genome-wide association study as of January 2019. Participants were pooled from 3 large consortia that provided clinical and genotyping data: the Colon Cancer Family Registry, the Colorectal Transdisciplinary Study, and the Genetics and Epidemiology of Colorectal Cancer Consortium and were all of genetically defined European descent. Findings were replicated in an independent cohort of 72,573 participants. RESULTS: Overall associations with CRC per standard deviation of PRS were significant for early-onset cancer, and were stronger compared with late-onset cancer (P for interaction = .01); when we compared the highest PRS quartile with the lowest, risk increased 3.7-fold for early-onset CRC (95% CI 3.28-4.24) vs 2.9-fold for late-onset CRC (95% CI 2.80-3.04). This association was strongest for participants without a first-degree family history of CRC (P for interaction = 5.61 × 10-5). When we compared the highest with the lowest quartiles in this group, risk increased 4.3-fold for early-onset CRC (95% CI 3.61-5.01) vs 2.9-fold for late-onset CRC (95% CI 2.70-3.00). Sensitivity analyses were consistent with these findings. CONCLUSIONS: In an analysis of associations with CRC per standard deviation of PRS, we found the cumulative burden of CRC-associated common genetic variants to associate with early-onset cancer, and to be mo

Published

2020

12. 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

13. 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

14. 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

15. Alcohol consumption and pancreatic cancer: a pooled analysis in the International Pancreatic Cancer Case–Control Consortium (PanC4)

Author

Lucenteforte, E., La Vecchia, C., Silverman, D., Petersen, G. M., Bracci, P. M., Ji, B. T., Bosetti, C., Li, D., Gallinger, S., Miller, A. B., Bueno-de-Mesquita, H. B., Talamini, R., Polesel, J., Ghadirian, P., Baghurst, P. A., Zatonski, W., Fontham, E., Bamlet, W. R., Holly, E. A., Gao, Y. T., Negri, E., Hassan, M., Cotterchio, M., Su, J., Maisonneuve, P., Boffetta, P., and Duell, E. J.

Published

2012

16. Reply to Are cohort data on smokeless tobacco use and pancreatic cancer confounded by alcohol use?

Author

Bertuccio, P., La Vecchia, C., Silverman, D. T., Petersen, G. M., Bracci, P. M., Negri, E., Li, D., Risch, H. A., Olson, S. H., Gallinger, S., Miller, A. B., Bueno-de-Mesquita, H. B., Talamini, R., Polesel, J., Ghadirian, P., Baghurst, P. A., Zatonski, W., Fontham, E., Bamlet, W. R., Holly, E. A., Lucenteforte, E., Hassan, M., Yu, H., Kurtz, R. C., Cotterchio, M., Su, J., Maisonneuve, P., Duell, E. J., Bosetti, C., and Boffetta, P.

Published

2011

17. Association between Known Risk Factors and Colorectal Cancer Risk in Indigenous People Participating in the Ontario Familial Colon Cancer Registry

Author

Jamal, S., primary, Sheppard, A.J., additional, Cotterchio, M., additional, and Gallinger, S., additional

Published

2020

18. MSH2 MUTATIONS AND BLADDER CANCER RISK: FAMILY MEMBERS OF HEREDITARY NONPOLYPOSIS COLORECTAL CANCER PATIENTS WITH MSH2 MUTATIONS ARE AT INCREASED RISK NOT ONLY FOR UPPER TRACT TRANSITIONAL CELL CARCINOMA BUT ALSO BLADDER CANCER: 753

Author

Skeldon, Sean, Semotiuk, K, Gallinger, Steve, Fleshner, Neil E, Jewett, Michael AS, Cotterchio, M, and Zlotta, Alexandre R

Published

2008

19. Novel Common Genetic Susceptibility Loci for Colorectal Cancer

Author

Schmit, SL, Edlund, CK, Schumacher, FR, Gong, J, Harrison, TA, Huyghe, JR, Qu, C, Melas, M, Van den Berg, DJ, Wang, H, Tring, S, Plummer, SJ, Albanes, D, Alonso, MH, Amos, CI, Anton, K, Aragaki, AK, Arndt, V, Barry, EL, Berndt, SI, Bezieau, S, Bien, S, Bloomer, A, Boehm, J, Boutron-Ruault, M-C, Brenner, H, Brezina, S, Buchanan, DD, Butterbach, K, Caan, BJ, Campbell, PT, Carlson, CS, Castelao, JE, Chan, AT, Chang-Claude, J, Chanock, SJ, Cheng, I, Cheng, Y-W, Chin, LS, Church, JM, Church, T, Coetzee, GA, Cotterchio, M, Correa, MC, Curtis, KR, Duggan, D, Easton, DF, English, D, Feskens, EJM, Fischer, R, FitzGerald, LM, Fortini, BK, Fritsche, LG, Fuchs, CS, Gago-Dominguez, M, Gala, M, Gallinger, SJ, Gauderman, WJ, Giles, GG, Giovannucci, EL, Gogarten, SM, Gonzalez-Villalpando, C, Gonzalez-Villalpando, EM, Grady, WM, Greenson, JK, Gsur, A, Gunter, M, Haiman, CA, Hampe, J, Harlid, S, Harju, JF, Hayes, RB, Hofer, P, Hoffmeister, M, Hopper, JL, Huang, S-C, Huerta, JM, Hudson, TJ, Hunter, DJ, Idos, GE, Iwasaki, M, Jackson, RD, Jacobs, EJ, Jee, SH, Jenkins, MA, Jia, W-H, Jiao, S, Joshi, AD, Kolonel, LN, Kono, S, Kooperberg, C, Krogh, V, Kuehn, T, Kury, S, LaCroix, A, Laurie, CA, Lejbkowicz, F, Lemire, M, Lenz, H-J, Levine, D, Li, CI, Li, L, Lieb, W, Lin, Y, Lindor, NM, Liu, Y-R, Loupakis, F, Lu, Y, Luh, F, Ma, J, Mancao, C, Manion, FJ, Markowitz, SD, Martin, V, Matsuda, K, Matsuo, K, McDonnell, KJ, McNeil, CE, Milne, R, Molina, AJ, Mukherjee, B, Murphy, N, Newcomb, PA, Offit, K, Omichessan, H, Palli, D, Cotore, JPP, Perez-Mayoral, J, Pharoah, PD, Potter, JD, Raskin, L, Rennert, G, Rennert, HS, Riggs, BM, Schafmayer, C, Schoen, RE, Sellers, TA, Seminara, D, Severi, G, Shi, W, Shibata, D, Shu, X-O, Siegel, EM, Slattery, ML, Southey, M, Stadler, ZK, Stern, MC, Stintzing, S, Taverna, D, Thibodeau, SN, Thomas, DC, Trichopoulou, A, Tsugane, S, Ulrich, CM, van Duijnhoven, FJB, van Guelpan, B, Vijai, J, Virtamo, J, Weinstein, SJ, White, E, Win, AK, Wolk, A, Woods, M, Wu, AH, Wu, K, Xiang, Y-B, Yen, Y, Zanke, BW, Zeng, Y-X, Zhang, B, Zubair, N, Kweon, S-S, Figueiredo, JC, Zheng, W, Le Marchand, L, Lindblom, A, Moreno, V, Peters, U, Casey, G, Hsu, L, Conti, DV, Gruber, SB, Schmit, SL, Edlund, CK, Schumacher, FR, Gong, J, Harrison, TA, Huyghe, JR, Qu, C, Melas, M, Van den Berg, DJ, Wang, H, Tring, S, Plummer, SJ, Albanes, D, Alonso, MH, Amos, CI, Anton, K, Aragaki, AK, Arndt, V, Barry, EL, Berndt, SI, Bezieau, S, Bien, S, Bloomer, A, Boehm, J, Boutron-Ruault, M-C, Brenner, H, Brezina, S, Buchanan, DD, Butterbach, K, Caan, BJ, Campbell, PT, Carlson, CS, Castelao, JE, Chan, AT, Chang-Claude, J, Chanock, SJ, Cheng, I, Cheng, Y-W, Chin, LS, Church, JM, Church, T, Coetzee, GA, Cotterchio, M, Correa, MC, Curtis, KR, Duggan, D, Easton, DF, English, D, Feskens, EJM, Fischer, R, FitzGerald, LM, Fortini, BK, Fritsche, LG, Fuchs, CS, Gago-Dominguez, M, Gala, M, Gallinger, SJ, Gauderman, WJ, Giles, GG, Giovannucci, EL, Gogarten, SM, Gonzalez-Villalpando, C, Gonzalez-Villalpando, EM, Grady, WM, Greenson, JK, Gsur, A, Gunter, M, Haiman, CA, Hampe, J, Harlid, S, Harju, JF, Hayes, RB, Hofer, P, Hoffmeister, M, Hopper, JL, Huang, S-C, Huerta, JM, Hudson, TJ, Hunter, DJ, Idos, GE, Iwasaki, M, Jackson, RD, Jacobs, EJ, Jee, SH, Jenkins, MA, Jia, W-H, Jiao, S, Joshi, AD, Kolonel, LN, Kono, S, Kooperberg, C, Krogh, V, Kuehn, T, Kury, S, LaCroix, A, Laurie, CA, Lejbkowicz, F, Lemire, M, Lenz, H-J, Levine, D, Li, CI, Li, L, Lieb, W, Lin, Y, Lindor, NM, Liu, Y-R, Loupakis, F, Lu, Y, Luh, F, Ma, J, Mancao, C, Manion, FJ, Markowitz, SD, Martin, V, Matsuda, K, Matsuo, K, McDonnell, KJ, McNeil, CE, Milne, R, Molina, AJ, Mukherjee, B, Murphy, N, Newcomb, PA, Offit, K, Omichessan, H, Palli, D, Cotore, JPP, Perez-Mayoral, J, Pharoah, PD, Potter, JD, Raskin, L, Rennert, G, Rennert, HS, Riggs, BM, Schafmayer, C, Schoen, RE, Sellers, TA, Seminara, D, Severi, G, Shi, W, Shibata, D, Shu, X-O, Siegel, EM, Slattery, ML, Southey, M, Stadler, ZK, Stern, MC, Stintzing, S, Taverna, D, Thibodeau, SN, Thomas, DC, Trichopoulou, A, Tsugane, S, Ulrich, CM, van Duijnhoven, FJB, van Guelpan, B, Vijai, J, Virtamo, J, Weinstein, SJ, White, E, Win, AK, Wolk, A, Woods, M, Wu, AH, Wu, K, Xiang, Y-B, Yen, Y, Zanke, BW, Zeng, Y-X, Zhang, B, Zubair, N, Kweon, S-S, Figueiredo, JC, Zheng, W, Le Marchand, L, Lindblom, A, Moreno, V, Peters, U, Casey, G, Hsu, L, Conti, DV, and Gruber, SB

Abstract

BACKGROUND: Previous genome-wide association studies (GWAS) have identified 42 loci (P < 5 × 10-8) associated with risk of colorectal cancer (CRC). Expanded consortium efforts facilitating the discovery of additional susceptibility loci may capture unexplained familial risk. METHODS: We conducted a GWAS in European descent CRC cases and control subjects using a discovery-replication design, followed by examination of novel findings in a multiethnic sample (cumulative n = 163 315). In the discovery stage (36 948 case subjects/30 864 control subjects), we identified genetic variants with a minor allele frequency of 1% or greater associated with risk of CRC using logistic regression followed by a fixed-effects inverse variance weighted meta-analysis. All novel independent variants reaching genome-wide statistical significance (two-sided P < 5 × 10-8) were tested for replication in separate European ancestry samples (12 952 case subjects/48 383 control subjects). Next, we examined the generalizability of discovered variants in East Asians, African Americans, and Hispanics (12 085 case subjects/22 083 control subjects). Finally, we examined the contributions of novel risk variants to familial relative risk and examined the prediction capabilities of a polygenic risk score. All statistical tests were two-sided. RESULTS: The discovery GWAS identified 11 variants associated with CRC at P < 5 × 10-8, of which nine (at 4q22.2/5p15.33/5p13.1/6p21.31/6p12.1/10q11.23/12q24.21/16q24.1/20q13.13) independently replicated at a P value of less than .05. Multiethnic follow-up supported the generalizability of discovery findings. These results demonstrated a 14.7% increase in familial relative risk explained by common risk alleles from 10.3% (95% confidence interval [CI] = 7.9% to 13.7%; known variants) to 11.9% (95% CI = 9.2% to 15.5%; known and novel variants). A polygenic risk score identified 4.3% of the population at an odds ratio for developing CRC of at least 2.0. CONCLUSIONS: T

Published

2019

20. 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

21. Mendelian randomization analysis of C-reactive protein on colorectal cancer risk

Author

Wang, X, Dai, JY, Albanes, D, Arndt, V, Berndt, SI, Bezieau, S, Brenner, H, Buchanan, DD, Butterbach, K, Caan, B, Casey, G, Campbell, PT, Chan, AT, Chen, Z, Chang-Claude, J, Cotterchio, M, Easton, DF, Giles, GG, Giovannucci, E, Grady, WM, Hoffmeister, M, Hopper, JL, Hsu, L, Jenkins, MA, Joshi, AD, Lampe, JW, Larsson, SC, Lejbkowicz, F, Li, L, Lindblom, A, Le Marchand, L, Martin, V, Milne, RL, Moreno, V, Newcomb, PA, Offitt, K, Ogino, S, Pharoah, PDP, Pinchev, M, Potter, JD, Rennert, HS, Rennert, G, Saliba, W, Schafmayer, C, Schoen, RE, Schrotz-King, P, Slattery, ML, Song, M, Stegmaier, C, Weinstein, SJ, Wolk, A, Woods, MO, Wu, AH, Gruber, SB, Peters, U, White, E, Wang, X, Dai, JY, Albanes, D, Arndt, V, Berndt, SI, Bezieau, S, Brenner, H, Buchanan, DD, Butterbach, K, Caan, B, Casey, G, Campbell, PT, Chan, AT, Chen, Z, Chang-Claude, J, Cotterchio, M, Easton, DF, Giles, GG, Giovannucci, E, Grady, WM, Hoffmeister, M, Hopper, JL, Hsu, L, Jenkins, MA, Joshi, AD, Lampe, JW, Larsson, SC, Lejbkowicz, F, Li, L, Lindblom, A, Le Marchand, L, Martin, V, Milne, RL, Moreno, V, Newcomb, PA, Offitt, K, Ogino, S, Pharoah, PDP, Pinchev, M, Potter, JD, Rennert, HS, Rennert, G, Saliba, W, Schafmayer, C, Schoen, RE, Schrotz-King, P, Slattery, ML, Song, M, Stegmaier, C, Weinstein, SJ, Wolk, A, Woods, MO, Wu, AH, Gruber, SB, Peters, U, and White, E

Abstract

BACKGROUND: Chronic inflammation is a risk factor for colorectal cancer (CRC). Circulating C-reactive protein (CRP) is also moderately associated with CRC risk. However, observational studies are susceptible to unmeasured confounding or reverse causality. Using genetic risk variants as instrumental variables, we investigated the causal relationship between genetically elevated CRP concentration and CRC risk, using a Mendelian randomization approach. METHODS: Individual-level data from 30 480 CRC cases and 22 844 controls from 33 participating studies in three international consortia were used: the Genetics and Epidemiology of Colorectal Cancer Consortium (GECCO), the Colorectal Transdisciplinary Study (CORECT) and the Colon Cancer Family Registry (CCFR). As instrumental variables, we included 19 single nucleotide polymorphisms (SNPs) previously associated with CRP concentration. The SNP-CRC associations were estimated using a logistic regression model adjusted for age, sex, principal components and genotyping phases. An inverse-variance weighted method was applied to estimate the causal effect of CRP on CRC risk. RESULTS: Among the 19 CRP-associated SNPs, rs1260326 and rs6734238 were significantly associated with CRC risk (P = 7.5 × 10-4, and P = 0.003, respectively). A genetically predicted one-unit increase in the log-transformed CRP concentrations (mg/l) was not associated with increased risk of CRC [odds ratio (OR) = 1.04; 95% confidence interval (CI): 0.97, 1.12; P = 0.256). No evidence of association was observed in subgroup analyses stratified by other risk factors. CONCLUSIONS: In spite of adequate statistical power to detect moderate association, we found genetically elevated CRP concentration was not associated with increased risk of CRC among individuals of European ancestry. Our findings suggested that circulating CRP is unlikely to be a causal factor in CRC development.

Published

2019

22. Evaluating A Multidisciplinary Cancer Conference Checklist: Practice Versus Perceptions

Author

Corter, AL, Speller, B, McBain, K, Wright, FC, Quan, ML, Kennedy, E, Schmocker, S, Baxter, NN, Narod, S, Friedenreich, C, Metcalfe, K, Warner, E, Simunovic, M, Tyldesley, S, Akbari, M, Olivotto, I, Howell, D, Porter, G, Latosinsky, S, Hebbard, P, Sutradhar, R, Cau, J, Lemieux, J, Minget, M, Brockton, N, Cotterchio, M, Kotsopulos, J, Knight, J, Boucher, B, Courneya, K, Brenner, D, Glass, K, Fong, S, George, R, Holmes, M, Kapala, M, Gervais, M-K, Ward, M, Hodgson, N, Boileau, JF, Banks, B, Down, N, Heyler, L, Cil, T, Robidoux, A, Chopra, P, Arnaout, A, Poole, A, Groot, G, Mcready, D, Provencher, L, Engel, J, Biberdorf, D, Hanarhan, R, Gomes, T, Baliski, C, Cox, C, Wells, B, Meguerditchian, A, Corter, AL, Speller, B, McBain, K, Wright, FC, Quan, ML, Kennedy, E, Schmocker, S, Baxter, NN, Narod, S, Friedenreich, C, Metcalfe, K, Warner, E, Simunovic, M, Tyldesley, S, Akbari, M, Olivotto, I, Howell, D, Porter, G, Latosinsky, S, Hebbard, P, Sutradhar, R, Cau, J, Lemieux, J, Minget, M, Brockton, N, Cotterchio, M, Kotsopulos, J, Knight, J, Boucher, B, Courneya, K, Brenner, D, Glass, K, Fong, S, George, R, Holmes, M, Kapala, M, Gervais, M-K, Ward, M, Hodgson, N, Boileau, JF, Banks, B, Down, N, Heyler, L, Cil, T, Robidoux, A, Chopra, P, Arnaout, A, Poole, A, Groot, G, Mcready, D, Provencher, L, Engel, J, Biberdorf, D, Hanarhan, R, Gomes, T, Baliski, C, Cox, C, Wells, B, and Meguerditchian, A

Abstract

BACKGROUND: Presentation to multidisciplinary cancer conferences (MCCs) supports optimal treatment of young women with breast cancer (YWBC). However, research shows barriers to MCC practice, and variation in professional attendance and referral patterns. A checklist may help overcome these barriers and support MCC practice with YWBC. METHODS: We developed, piloted and evaluated an MCC checklist in sites participating in a pan-Canadian study (RUBY; Reducing the bUrden of Breast cancer in Young women). A survey assessed checklist processes and impacts, and checklist data were analysed for checklist uptake, MCC presentation rates and MCC processes including staff attendance. RESULTS: Fifteen RUBY sites used the checklist (~50%), mostly for data collection/tracking. Some positive effects on clinical practice such as increased presentation of YWBC at MCC were reported, but most survey participants indicated that MCC processes were sufficient without the checklist. Conversely, checklist data show that only 31% of patients were presented at MCC. Of those, 41% were recommended treatment change. CONCLUSION: Despite limited checklist uptake, there was evidence of its clinical practice benefit. Furthermore, it supported data collection/quality monitoring. Critically, checklist data showed gaps in MCC practice and low MCC presentation rates for YWBC. This contrasts with overall provider perceptions that MCCs are working well. Findings suggest that supports for MCC are needed but may best take the form of clear national practice recommendations and audit and feedback cycles to inform awareness of good MCC practice and outcomes. In this setting, tools like the MCC checklist may become helpful in supporting MCC practice.

Published

2019

23. Genome-wide meta-analysis identifies five new susceptibility loci for pancreatic cancer

Author

Klein, A.P. Wolpin, B.M. Risch, H.A. Stolzenberg-Solomon, R.Z. Mocci, E. Zhang, M. Canzian, F. Childs, E.J. Hoskins, J.W. Jermusyk, A. Zhong, J. Chen, F. Albanes, D. Andreotti, G. Arslan, A.A. Babic, A. Bamlet, W.R. Beane-Freeman, L. Berndt, S.I. Blackford, A. Borges, M. Borgida, A. Bracci, P.M. Brais, L. Brennan, P. Brenner, H. Bueno-De-Mesquita, B. Buring, J. Campa, D. Capurso, G. Cavestro, G.M. Chaffee, K.G. Chung, C.C. Cleary, S. Cotterchio, M. Dijk, F. Duell, E.J. Foretova, L. Fuchs, C. Funel, N. Gallinger, S. Gaziano, J.M.M. Gazouli, M. Giles, G.G. Giovannucci, E. Goggins, M. Goodman, G.E. Goodman, P.J. Hackert, T. Haiman, C. Hartge, P. Hasan, M. Hegyi, P. Helzlsouer, K.J. Herman, J. Holcatova, I. Holly, E.A. Hoover, R. Hung, R.J. Jacobs, E.J. Jamroziak, K. Janout, V. Kaaks, R. Khaw, K.-T. Klein, E.A. Kogevinas, M. Kooperberg, C. Kulke, M.H. Kupcinskas, J. Kurtz, R.J. Laheru, D. Landi, S. Lawlor, R.T. Lee, I.-M. Lemarchand, L. Lu, L. Malats, N. Mambrini, A. Mannisto, S. Milne, R.L. Mohelníková-Duchoňová, B. Neale, R.E. Neoptolemos, J.P. Oberg, A.L. Olson, S.H. Orlow, I. Pasquali, C. Patel, A.V. Peters, U. Pezzilli, R. Porta, M. Real, F.X. Rothman, N. Scelo, G. Sesso, H.D. Severi, G. Shu, X.-O. Silverman, D. Smith, J.P. Soucek, P. Sund, M. Talar-Wojnarowska, R. Tavano, F. Thornquist, M.D. Tobias, G.S. Van Den Eeden, S.K. Vashist, Y. Visvanathan, K. Vodicka, P. Wactawski-Wende, J. Wang, Z. Wentzensen, N. White, E. Yu, H. Yu, K. Zeleniuch-Jacquotte, A. Zheng, W. Kraft, P. Li, D. Chanock, S. Obazee, O. Petersen, G.M. Amundadottir, L.T.

Abstract

In 2020, 146,063 deaths due to pancreatic cancer are estimated to occur in Europe and the United States combined. To identify common susceptibility alleles, we performed the largest pancreatic cancer GWAS to date, including 9040 patients and 12,496 controls of European ancestry from the Pancreatic Cancer Cohort Consortium (PanScan) and the Pancreatic Cancer Case-Control Consortium (PanC4). Here, we find significant evidence of a novel association at rs78417682 (7p12/TNS3, P = 4.35 × 10-8). Replication of 10 promising signals in up to 2737 patients and 4752 controls from the PANcreatic Disease ReseArch (PANDoRA) consortium yields new genome-wide significant loci: Rs13303010 at 1p36.33 (NOC2L, P = 8.36 × 10-14), rs2941471 at 8q21.11 (HNF4G, P = 6.60 × 10-10), rs4795218 at 17q12 (HNF1B, P = 1.32 × 10-8), and rs1517037 at 18q21.32 (GRP, P = 3.28 × 10-8). rs78417682 is not statistically significantly associated with pancreatic cancer in PANDoRA. Expression quantitative trait locus analysis in three independent pancreatic data sets provides molecular support of NOC2L as a pancreatic cancer susceptibility gene. © 2018 The Author(s).

Published

2018

24. Rotating night shift work and menopausal age

Author

Stock, D, primary, Knight, J A, primary, Raboud, J, primary, Cotterchio, M, primary, Strohmaier, S, primary, Willett, W, primary, Eliassen, A H, primary, Rosner, B, primary, Hankinson, S E, primary, and Schernhammer, E, primary

Published

2019

25. Human breast cancer and lymphomas may share a common aetiology involving Mouse Mammary Tumour Virus (MMTV)

Author

Cotterchio, M, Nadalin, V, and Sauer, M

Published

2002

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

Author

Thrift, A.P., Gong, J., Peters, U., Chang-Claude, J., Rudolph, A., Slattery, M.L., Chan, A.T., Esko, T., Wood, A.R., Yang, J., Vedantam, S., Gustafsson, S., Pers, T.H., GIANT Consortium (Albrecht, E., Gieger, C., Grallert, H., Heid, I.M., Illig, T., Müller-Nurasyid, M., Peters, A., Thorand, B., Wichmann, H.-E.), Baron, J.A., Bézieau, S., Kuery, S., Ogino, S., Berndt, S.I., Casey, G., Haile, R.W., Du, M., Harrison, T.A., Thornquist, M., Duggan, D.J., Le Marchand, L., Lemire, M., Lindor, N.M., Seminara, D., Song, M., Thibodeau, S.N., Cotterchio, M., Win, A.K., Jenkins, M.A., Hopper, J.L., Ulrich, C.M., Potter, J.D., Newcomb, P.A., Schoen, R.E., Hoffmeister, M., Brenner, H., White, E.S., Hsu, L.A., and Campbell, P.T.

Subjects

Male, Gerontology, medicine.medical_specialty, Mendelian Randomization Causal Analysis, Epidemiology, Logistic regression, Risk Factors, Mendelian randomization, Humans, Medicine, Sex Distribution, Body Height, Colorectal Cancer, Aged, Rectal Neoplasms, business.industry, Confounding, Case-control study, General Medicine, Odds ratio, Mendelian Randomization Analysis, Middle Aged, digestive system diseases, Confidence interval, Genetic epidemiology, Case-Control Studies, Colonic Neoplasms, Female, business, Demography

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 = 1.01–1.19). 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

27. Genome-wide meta-analysis identifies five new susceptibility loci for pancreatic cancer

Author

Klein, AP, Wolpin, BM, Risch, HA, Stolzenberg-Solomon, RZ, Mocci, E, Zhang, M, Canzian, F, Childs, EJ, Hoskins, JW, Jermusyk, A, Zhong, J, Chen, F, Albanes, D, Andreotti, G, Arslan, AA, Babic, A, Bamlet, WR, Beane-Freeman, L, Berndt, SI, Blackford, A, Borges, M, Borgida, A, Bracci, PM, Brais, L, Brennan, P, Brenner, H, Bueno-de-Mesquita, B, Buring, J, Campa, D, Capurso, G, Cavestro, GM, Chaffee, KG, Chung, CC, Cleary, S, Cotterchio, M, Dijk, F, Duell, EJ, Foretova, L, Fuchs, C, Funel, N, Gallinger, S, Gaziano, JMM, Gazouli, M, Giles, GG, Giovannucci, E, Goggins, M, Goodman, GE, Goodman, PJ, Hackert, T, Haiman, C, Hartge, P, Hasan, M, Hegyi, P, Helzlsouer, KJ, Herman, J, Holcatova, I, Holly, EA, Hoover, R, Hung, RJ, Jacobs, EJ, Jamroziak, K, Janout, V, Kaaks, R, Khaw, K-T, Klein, EA, Kogevinas, M, Kooperberg, C, Kulke, MH, Kupcinskas, J, Kurtz, RJ, Laheru, D, Landi, S, Lawlor, RT, Lee, I-M, LeMarchand, L, Lu, L, Malats, N, Mambrini, A, Mannisto, S, Milne, RL, Mohelnikova-Duchonova, B, Neale, RE, Neoptolemos, JP, Oberg, AL, Olson, SH, Orlow, I, Pasquali, C, Patel, AV, Peters, U, Pezzilli, R, Porta, M, Real, FX, Rothman, N, Scelo, G, Sesso, HD, Severi, G, Shu, X-O, Silverman, D, Smith, JP, Soucek, P, Sund, M, Talar-Wojnarowska, R, Tavano, F, Thornquist, MD, Tobias, GS, Van Den Eeden, SK, Vashist, Y, Visvanathan, K, Vodicka, P, Wactawski-Wende, J, Wang, Z, Wentzensen, N, White, E, Yu, H, Yu, K, Zeleniuch-Jacquotte, A, Zheng, W, Kraft, P, Li, D, Chanock, S, Obazee, O, Petersen, GM, Amundadottir, LT, Klein, AP, Wolpin, BM, Risch, HA, Stolzenberg-Solomon, RZ, Mocci, E, Zhang, M, Canzian, F, Childs, EJ, Hoskins, JW, Jermusyk, A, Zhong, J, Chen, F, Albanes, D, Andreotti, G, Arslan, AA, Babic, A, Bamlet, WR, Beane-Freeman, L, Berndt, SI, Blackford, A, Borges, M, Borgida, A, Bracci, PM, Brais, L, Brennan, P, Brenner, H, Bueno-de-Mesquita, B, Buring, J, Campa, D, Capurso, G, Cavestro, GM, Chaffee, KG, Chung, CC, Cleary, S, Cotterchio, M, Dijk, F, Duell, EJ, Foretova, L, Fuchs, C, Funel, N, Gallinger, S, Gaziano, JMM, Gazouli, M, Giles, GG, Giovannucci, E, Goggins, M, Goodman, GE, Goodman, PJ, Hackert, T, Haiman, C, Hartge, P, Hasan, M, Hegyi, P, Helzlsouer, KJ, Herman, J, Holcatova, I, Holly, EA, Hoover, R, Hung, RJ, Jacobs, EJ, Jamroziak, K, Janout, V, Kaaks, R, Khaw, K-T, Klein, EA, Kogevinas, M, Kooperberg, C, Kulke, MH, Kupcinskas, J, Kurtz, RJ, Laheru, D, Landi, S, Lawlor, RT, Lee, I-M, LeMarchand, L, Lu, L, Malats, N, Mambrini, A, Mannisto, S, Milne, RL, Mohelnikova-Duchonova, B, Neale, RE, Neoptolemos, JP, Oberg, AL, Olson, SH, Orlow, I, Pasquali, C, Patel, AV, Peters, U, Pezzilli, R, Porta, M, Real, FX, Rothman, N, Scelo, G, Sesso, HD, Severi, G, Shu, X-O, Silverman, D, Smith, JP, Soucek, P, Sund, M, Talar-Wojnarowska, R, Tavano, F, Thornquist, MD, Tobias, GS, Van Den Eeden, SK, Vashist, Y, Visvanathan, K, Vodicka, P, Wactawski-Wende, J, Wang, Z, Wentzensen, N, White, E, Yu, H, Yu, K, Zeleniuch-Jacquotte, A, Zheng, W, Kraft, P, Li, D, Chanock, S, Obazee, O, Petersen, GM, and Amundadottir, LT

Abstract

In 2020, 146,063 deaths due to pancreatic cancer are estimated to occur in Europe and the United States combined. To identify common susceptibility alleles, we performed the largest pancreatic cancer GWAS to date, including 9040 patients and 12,496 controls of European ancestry from the Pancreatic Cancer Cohort Consortium (PanScan) and the Pancreatic Cancer Case-Control Consortium (PanC4). Here, we find significant evidence of a novel association at rs78417682 (7p12/TNS3, P = 4.35 × 10-8). Replication of 10 promising signals in up to 2737 patients and 4752 controls from the PANcreatic Disease ReseArch (PANDoRA) consortium yields new genome-wide significant loci: rs13303010 at 1p36.33 (NOC2L, P = 8.36 × 10-14), rs2941471 at 8q21.11 (HNF4G, P = 6.60 × 10-10), rs4795218 at 17q12 (HNF1B, P = 1.32 × 10-8), and rs1517037 at 18q21.32 (GRP, P = 3.28 × 10-8). rs78417682 is not statistically significantly associated with pancreatic cancer in PANDoRA. Expression quantitative trait locus analysis in three independent pancreatic data sets provides molecular support of NOC2L as a pancreatic cancer susceptibility gene.

Published

2018

28. Functional characterization of a multi-cancer risk locus on chr5p15.33 reveals regulation of TERT by ZNF148

Author

Fang, J, Jia, J, Makowski, M, Xu, M, Wang, Z, Zhang, T, Hoskins, Jw, Choi, J, Han, Y, Zhang, M, Thomas, J, Kovacs, M, Collins, I, Dzyadyk, M, Thompson, A, O'Neill, M, Das, S, Lan, Q, Koster, R, Solomon, Rs, Kraft, P, Wolpin, Bm, Jansen, Pwtc, Olson, S, Mcglynn, Ka, Kanetsky, Pa, Chatterjee, N, Barrett, Jh, Dunning, Am, Taylor, Jc, Newton Bishop, Ja, Bishop, Dt, Andresson, T, Petersen, Gm, Amos, Ci, Iles, Mm, Nathanson, Kl, Landi, Mt, Vermeulen, M, Brown, Km, Amundadottir, Lt, Canzian, F, Kooperberg, C, Arslan, Aa, Bracci, Pm, Buring, J, Duell, Ej, Gallinger, S, Jacobs, Ej, Kamineni, A, Van Den Eeden, S, Klein, Ap, Kolonel, Ln, Li, D, Olson, Sh, Risch, Ha, Sesso, Hd, Visvanathan, K, Zheng, W, Albanes, D, Austin, Ma, Boutron Ruault, Mc, Bueno de Mesquita, Hb, Cotterchio, M, Gaziano, Jm, Giovannucci, El, Goggins, M, Gross, M, Hassan, M, Helzlsouer, Kj, Holly, Ea, Hunter, Dj, Jenab, M, Kaaks, R, Key, Tj, Khaw, Kt, Krogh, V, Kurtz, Rc, Lacroix, A, Le Marchand, L, Mannisto, S, Patel, Av, Peeters, Phm, Riboli, E, Shu, Xo, Sund, M, Thornquist, M, Tjønneland, A, Tobias, Gs, Trichopoulos, D, Wactawski Wende, J, Yu, H, Yu, K, Zeleniuch Jacquotte, A, Hoover, R, Hartge, P, Fuchs, C, Chanock, Sj, Stevens, V, Caporaso, Ne, Brennan, P, Mckay, J, Wu, X, Hung, Rj, Mclaughlin, Jr, Bickeboller, H, Risch, A, Wichmann, E, Houlston, R, Mann, G, Hopper, J, Aitken, J, Armstrong, B, Giles, G, Holland, E, Kefford, R, Cust, A, Jenkins, M, Schmid, H, Puig, S, Aguilera, P, Badenas, C, Barreiro, A, Carrera, C, Gabriel, D, Xavier, Pg, Iglesias Garcia, P, Malvehy, J, Mila, M, Pigem, R, Potrony, M, Batille, Ja, Marti, Gt, Hayward, N, Martin, N, Montgomery, G, Duffy, D, Whiteman, D, Gregor, Sm, Calista, D, Landi, G, Minghetti, P, Arcangeli, F, Bertazzi, Pa, Ghiorzo, Paola, Bianchi, Giovanna, Pastorino, Lorenza, Bruno, William, Andreotti, Virginia, Queirolo, P, Spagnolo, Francesco, Mackie, R, Lang, J, Gruis, N, van Nieuwpoort, Fa, Out, C, Bergman, W, Kukutsch, N, Bavinck, Jnb, Bakker, B, van der Stoep, N, Ter Huurne, J, van der Rhee, H, Bekkenk, M, Snels, D, van Praag, M, Brochez, L, Gerritsen, R, Crijns, M, Vasen, H, Janssen, B, Ingvar, C, Olsson, H, Jonsson, G, Borg, A, Harbst, K, Nielsen, K, Zander, As, Molvern, A, Helsing, P, Andresen, Pa, Rootwelt, H, Akslen, La, Bressac de Paillerets, B, Demenais, F, Avril, Mf, Chaudru, V, Jeannin, P, Lesueur, F, Maubec, E, Mohamdi, H, Bossard, M, Vaysse, A, Boitier, F, Caron, O, Caux, F, Dalle, S, Dereure, O, Leroux, D, Martin, L, Mateus, C, Robert, C, Stoppa Lyonnet, D, Thomas, L, Wierzbicka, E, Elder, D, Ming, M, Mitra, N, Debniak, T, Lubinski, J, Hocevar, M, Novakovic, S, Peric, B, Skerl, P, Hansson, J, Hoiom, V, Freidman, E, Azizi, E, Baron Epel, O, Scope, A, Pavlotsky, F, Cohen Manheim, I, Laitman, Y, Harland, M, Randerson Moor, J, Laye, J, Davies, J, Nsengimana, J, O'Shea, S, Chan, M, Gascoyne, J, Tucker, Ma, Goldstein, Am, and Yang, X. r.

Subjects

0301 basic medicine, Male, Lung Neoplasms, Skin Neoplasms, General Physics and Astronomy, Genome-wide association study, VARIANTS, Histones, Skin cancer, RNA, Small Interfering, Melanoma, Telomerase, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Pancreas cancer, Regulation of gene expression, Genetics, Zinc finger, Gene knockdown, Multidisciplinary, Proteomics and Chromatin Biology, TRICL Consortium, Chromosome Mapping, GenoMEL Consortium, PANCREATIC-CANCER, Multidisciplinary Sciences, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, Science & Technology - Other Topics, Chromosomes, Human, Pair 5, Female, Lung cancer, Signal Transduction, SUSCEPTIBILITY LOCI, Science, Locus (genetics), Single-nucleotide polymorphism, PROMOTES GROWTH, Biology, Polymorphism, Single Nucleotide, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, LUNG-CANCER, Testicular Neoplasms, Cell Line, Tumor, MD Multidisciplinary, Humans, Genetic Predisposition to Disease, QUANTITATIVE PROTEOMICS, GENOME-WIDE ASSOCIATION, Gene, PanScan Consortium, Càncer de pell, Càncer de pàncrees, Alleles, Science & Technology, Kirurgi, HUMAN-CELLS, Telomere Homeostasis, Correction, General Chemistry, Molecular biology, TERT-CLPTM1L LOCUS, Telomere, Pancreatic Neoplasms, 030104 developmental biology, Genetic Loci, TELOMERE LENGTH, Càncer de pulmó, Surgery, Genètica, Genome-Wide Association Study, Transcription Factors

Abstract

Genome wide association studies (GWAS) have mapped multiple independent cancer susceptibility loci to chr5p15.33. Here, we show that fine-mapping of pancreatic and testicular cancer GWAS within one of these loci (Region 2 in CLPTM1L) focuses the signal to nine highly correlated SNPs. Of these, rs36115365-C associated with increased pancreatic and testicular but decreased lung cancer and melanoma risk, and exhibited preferred protein-binding and enhanced regulatory activity. Transcriptional gene silencing of this regulatory element repressed TERT expression in an allele-specific manner. Proteomic analysis identifies allele-preferred binding of Zinc finger protein 148 (ZNF148) to rs36115365-C, further supported by binding of purified recombinant ZNF148. Knockdown of ZNF148 results in reduced TERT expression, telomerase activity and telomere length. Our results indicate that the association with chr5p15.33-Region 2 may be explained by rs36115365, a variant influencing TERT expression via ZNF148 in a manner consistent with elevated TERT in carriers of the C allele., Genetic variants at multiple loci of chr5p15.33 have been associated with susceptibility to numerous cancers. Here the authors show that the association of one of these loci may be explained by a variant, rs36115365, influencing telomerase reverse transcriptase (TERT) expression via ZNF148.

Published

2017

29. Long-Term Weight Loss After Colorectal Cancer Diagnosis Is Associated With Lower Survival: The Colon Cancer Family Registry

Author

Kocarnik, JM, Hua, X, Hardikar, S, Robinson, J, Lindor, NM, Win, AK, Hopper, JL, Figueiredo, JC, Potter, JD, Campbell, PT, Gallinger, S, Cotterchio, M, Adams, SV, Cohen, SA, Phipps, AI, Newcomb, PA, Kocarnik, JM, Hua, X, Hardikar, S, Robinson, J, Lindor, NM, Win, AK, Hopper, JL, Figueiredo, JC, Potter, JD, Campbell, PT, Gallinger, S, Cotterchio, M, Adams, SV, Cohen, SA, Phipps, AI, and Newcomb, PA

Published

2017

30. Three new pancreatic cancer susceptibility signals identified on chromosomes 1q32.1, 5p15.33 and 8q24.21

Author

Zhang, M. Wang, Z. Obazee, O. Jia, J. Childs, E.J. Hoskins, J. Figlioli, G. Mocci, E. Collins, I. Chung, C.C. Hautman, C. Arslan, A.A. Beane-Freeman, L. Bracci, P.M. Buring, J. Duell, E.J. Gallinger, S. Giles, G.G. Goodman, G.E. Goodman, P.J. Kamineni, A. Kolonel, L.N. Kulke, M.H. Malats, N. Olson, S.H. Sesso, H.D. Visvanathan, K. White, E. Zheng, W. Abnet, C.C. Albanes, D. Andreotti, G. Brais, L. Bas Bueno-de-Mesquita, H. Basso, D. Berndt, S.I. Boutron-Ruault, M.-C. Bijlsma, M.F. Brenner, H. Burdette, L. Campa, D. Caporaso, N.E. Capurso, G. Cavestro, G.M. Cotterchio, M. Costello, E. Elena, J. Boggi, U. Michael Gaziano, J. Gazouli, M. Giovannucci, E.L. Goggins, M. Gross, M. Haiman, C.A. Hassan, M. Helzlsouer, K.J. Hu, N. Hunter, D.J. Iskierka-Jazdzewska, E. Jenab, M. Kaaks, R. Key, T.J. Khaw, K.-T. Klein, E.A. Kogevinas, M. Krogh, V. Kupcinskas, J. Kurtz, R.C. Landi, M.T. Landi, S. Marchand, L.L. Mambrini, A. Mannisto, S. Milne, R.L. Neale, R.E. Oberg, A.L. Panico, S. Patel, A.V. Peeters, P.H.M. Peters, U. Pezzilli, R. Porta, M. Purdue, M. Ramón Quiros, J. Riboli, E. Rothman, N. Scarpa, A. Scelo, G. Shu, X.-O. Silverman, D.T. Soucek, P. Strobel, O. Sund, M. Malecka-Panas, E. Taylor, P.R. Tavano, F. Travis, R.C. Thornquist, M. Tjønneland, A. Tobias, G.S. Trichopoulos, D. Vashist, Y. Vodicka, P. Wactawski-Wende, J. Wentzensen, N. Yu, H. Yu, K. Zeleniuch-Jacquotte, A. Kooperberg, C. Risch, H.A. Jacobs, E.J. Li, D. Fuchs, C. Hoover, R. Hartge, P. Chanock, S.J. Petersen, G.M. Stolzenberg-Solomon, R.S. Wolpin, B.M. Kraft, P. Klein, A.P. Canzian, F. Amundadottir, L.T.

Abstract

Genome-wide association studies (GWAS) have identified common pancreatic cancer susceptibility variants at 13 chromosomal loci in individuals of European descent. To identify new susceptibility variants, we performed imputation based on 1000 Genomes (1000G) Project data and association analysis using 5,107 case and 8,845 control subjects from 27 cohort and case-control studies that participated in the PanScan I-III GWAS. This analysis, in combination with a two-staged replication in an additional 6,076 case and 7,555 control subjects from the PANcreatic Disease ReseArch (PANDoRA) and Pancreatic Cancer Case-Control (PanC4) Consortia uncovered 3 new pancreatic cancer risk signals marked by single nucleotide polymorphisms (SNPs) rs2816938 at chromosome 1q32.1 (per allele odds ratio (OR) = 1.20, P = 4.88x10-15), rs10094872 at 8q24.21 (OR = 1.15, P = 3.22x10-9) and rs35226131 at 5p15.33 (OR = 0.71, P = 1.70x10-8). These SNPs represent independent risk variants at previously identified pancreatic cancer risk loci on chr1q32.1 (NR5A2), chr8q24.21 (MYC) and chr5p15.33 (CLPTM1L-TERT) as per analyses conditioned on previously reported susceptibility variants. We assessed expression of candidate genes at the three risk loci in histologically normal (n = 10) and tumor (n = 8) derived pancreatic tissue samples and observed a marked reduction of NR5A2 expression (chr1q32.1) in the tumors (fold change -7.6, P = 5.7x10-8). This finding was validated in a second set of paired (n = 20) histologically normal and tumor derived pancreatic tissue samples (average fold change for three NR5A2 isoforms -31.3 to -95.7, P = 7.5x10-4-2.0x10-3). Our study has identified new susceptibility variants independently conferring pancreatic cancer risk that merit functional follow-up to identify target genes and explain the underlying biology.

Published

2016

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

Author

Thibodeau, S. N., Lemire, M., Ogino, S., Le Marchand, L., Kury, S., Slattery, M. L., Rudolph, A., Bezieau, S., Song, M., Harrison, T. A., Thornquist, M., Seminara, D., Berndt, S. I., Win, A. K., Yang, J., Duggan, D. J., Esko, T., Peters, U., Wood, A. R., Chan, A. T., Chang-Claude, J., Vedantam, S., Thrift, A. P., Baron, J. A., Cotterchio, M., Gong, J., Du, M., Lindor, N. M., Pers, T. H., Haile, R. W., Gustafsson, S., and Casey, G.

Subjects

digestive system diseases

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.

Published

2015

32. Common variation at 2p13.3, 3q29, 7p13 and 17q25.1 associated with susceptibility to pancreatic cancer

Author

Childs, E.J. Mocci, E. Campa, D. Bracci, P.M. Gallinger, S. Goggins, M. Li, D. Neale, R.E. Olson, S.H. Scelo, G. Amundadottir, L.T. Bamlet, W.R. Bijlsma, M.F. Blackford, A. Borges, M. Brennan, P. Brenner, H. Bueno-De-Mesquita, H.B. Canzian, F. Capurso, G. Cavestro, G.M. Chaffee, K.G. Chanock, S.J. Cleary, S.P. Cotterchio, M. Foretova, L. Fuchs, C. Funel, N. Gazouli, M. Hassan, M. Herman, J.M. Holcatova, I. Holly, E.A. Hoover, R.N. Hung, R.J. Janout, V. Key, T.J. Kupcinskas, J. Kurtz, R.C. Landi, S. Lu, L. Malecka-Panas, E. Mambrini, A. Mohelnikova-Duchonova, B. Neoptolemos, J.P. Oberg, A.L. Orlow, I. Pasquali, C. Pezzilli, R. Rizzato, C. Saldia, A. Scarpa, A. Stolzenberg-Solomon, R.Z. Strobel, O. Tavano, F. Vashist, Y.K. Vodicka, P. Wolpin, B.M. Yu, H. Petersen, G.M. Risch, H.A. Klein, A.P.

Abstract

Pancreatic cancer is the fourth leading cause of cancer death in the developed world. Both inherited high-penetrance mutations in BRCA2 (ref. 2), ATM, PALB2 (ref. 4), BRCA1 (ref. 5), STK11 (ref. 6), CDKN2A and mismatch-repair genes and low-penetrance loci are associated with increased risk. To identify new risk loci, we performed a genome-wide association study on 9,925 pancreatic cancer cases and 11,569 controls, including 4,164 newly genotyped cases and 3,792 controls in 9 studies from North America, Central Europe and Australia. We identified three newly associated regions: 17q25.1 (LINC00673, rs11655237, odds ratio (OR) = 1.26, 95% confidence interval (CI) = 1.19-1.34, P = 1.42 × 10-14), 7p13 (SUGCT, rs17688601, OR = 0.88, 95% CI = 0.84-0.92, P = 1.41 × 10-8) and 3q29 (TP63, rs9854771, OR = 0.89, 95% CI = 0.85-0.93, P = 2.35 × 10-8). We detected significant association at 2p13.3 (ETAA1, rs1486134, OR = 1.14, 95% CI = 1.09-1.19, P = 3.36 × 10-9), a region with previous suggestive evidence in Han Chinese. We replicated previously reported associations at 9q34.2 (ABO), 13q22.1 (KLF5), 5p15.33 (TERT and CLPTM1), 13q12.2 (PDX1), 1q32.1 (NR5A2), 7q32.3 (LINC-PINT), 16q23.1 (BCAR1) and 22q12.1 (ZNRF3). Our study identifies new loci associated with pancreatic cancer risk. © 2015 Nature America, Inc. All rights reserved.

Published

2015

33. Three new pancreatic cancer susceptibility signals identified on chromosomes 1q32.1, 5p15.33 and 8q24.21

Author

Zhang, M, Wang, Z, Obazee, O, Jia, J, Childs, EJ, Hoskins, J, Figlioli, G, Mocci, E, Collins, I, Chung, CC, Hautman, C, Arslan, AA, Beane-Freeman, L, Bracci, PM, Buring, J, Duell, EJ, Gallinger, S, Giles, GG, Goodman, GE, Goodman, PJ, Kamineni, A, Kolonel, LN, Kulke, MH, Malats, N, Olson, SH, Sesso, HD, Visvanathan, K, White, E, Zheng, W, Abnet, CC, Albanes, D, Andreotti, G, Brais, L, Bueno-de-Mesquita, HB, Basso, D, Berndt, SI, Boutron-Ruault, M-C, Bijlsma, MF, Brenner, H, Burdette, L, Campa, D, Caporaso, NE, Capurso, G, Cavestro, GM, Cotterchio, M, Costello, E, Elena, J, Boggi, U, Gaziano, JM, Gazouli, M, Giovannucci, EL, Goggins, M, Gross, M, Haiman, CA, Hassan, M, Helzlsouer, KJ, Hu, N, Hunter, DJ, Iskierka-Jazdzewska, E, Jenab, M, Kaaks, R, Key, TJ, Khaw, K-T, Klein, EA, Kogevinas, M, Krogh, V, Kupcinskas, J, Kurtz, RC, Landi, MT, Landi, S, Le Marchand, L, Mambrini, A, Mannisto, S, Milne, RL, Neale, RE, Oberg, AL, Panico, S, Patel, AV, Peeters, PHM, Peters, U, Pezzilli, R, Porta, M, Purdue, M, Ramon Quiros, J, Riboli, E, Rothman, N, Scarpa, A, Scelo, G, Shu, X-O, Silverman, DT, Soucek, P, Strobel, O, Sund, M, Malecka-Panas, E, Taylor, PR, Tavano, F, Travis, RC, Thornquist, M, Tjonneland, A, Tobias, GS, Trichopoulos, D, Vashist, Y, Vodicka, P, Wactawski-Wende, J, Wentzensen, N, Yu, H, Yu, K, Zeleniuch-Jacquotte, A, Kooperberg, C, Risch, HA, Jacobs, EJ, Li, D, Fuchs, C, Hoover, R, Hartge, P, Chanock, SJ, Petersen, GM, Stolzenberg-Solomon, RS, Wolpin, BM, Kraft, P, Klein, AP, Canzian, F, Amundadottir, LT, Zhang, M, Wang, Z, Obazee, O, Jia, J, Childs, EJ, Hoskins, J, Figlioli, G, Mocci, E, Collins, I, Chung, CC, Hautman, C, Arslan, AA, Beane-Freeman, L, Bracci, PM, Buring, J, Duell, EJ, Gallinger, S, Giles, GG, Goodman, GE, Goodman, PJ, Kamineni, A, Kolonel, LN, Kulke, MH, Malats, N, Olson, SH, Sesso, HD, Visvanathan, K, White, E, Zheng, W, Abnet, CC, Albanes, D, Andreotti, G, Brais, L, Bueno-de-Mesquita, HB, Basso, D, Berndt, SI, Boutron-Ruault, M-C, Bijlsma, MF, Brenner, H, Burdette, L, Campa, D, Caporaso, NE, Capurso, G, Cavestro, GM, Cotterchio, M, Costello, E, Elena, J, Boggi, U, Gaziano, JM, Gazouli, M, Giovannucci, EL, Goggins, M, Gross, M, Haiman, CA, Hassan, M, Helzlsouer, KJ, Hu, N, Hunter, DJ, Iskierka-Jazdzewska, E, Jenab, M, Kaaks, R, Key, TJ, Khaw, K-T, Klein, EA, Kogevinas, M, Krogh, V, Kupcinskas, J, Kurtz, RC, Landi, MT, Landi, S, Le Marchand, L, Mambrini, A, Mannisto, S, Milne, RL, Neale, RE, Oberg, AL, Panico, S, Patel, AV, Peeters, PHM, Peters, U, Pezzilli, R, Porta, M, Purdue, M, Ramon Quiros, J, Riboli, E, Rothman, N, Scarpa, A, Scelo, G, Shu, X-O, Silverman, DT, Soucek, P, Strobel, O, Sund, M, Malecka-Panas, E, Taylor, PR, Tavano, F, Travis, RC, Thornquist, M, Tjonneland, A, Tobias, GS, Trichopoulos, D, Vashist, Y, Vodicka, P, Wactawski-Wende, J, Wentzensen, N, Yu, H, Yu, K, Zeleniuch-Jacquotte, A, Kooperberg, C, Risch, HA, Jacobs, EJ, Li, D, Fuchs, C, Hoover, R, Hartge, P, Chanock, SJ, Petersen, GM, Stolzenberg-Solomon, RS, Wolpin, BM, Kraft, P, Klein, AP, Canzian, F, and Amundadottir, LT

Abstract

Genome-wide association studies (GWAS) have identified common pancreatic cancer susceptibility variants at 13 chromosomal loci in individuals of European descent. To identify new susceptibility variants, we performed imputation based on 1000 Genomes (1000G) Project data and association analysis using 5,107 case and 8,845 control subjects from 27 cohort and case-control studies that participated in the PanScan I-III GWAS. This analysis, in combination with a two-staged replication in an additional 6,076 case and 7,555 control subjects from the PANcreatic Disease ReseArch (PANDoRA) and Pancreatic Cancer Case-Control (PanC4) Consortia uncovered 3 new pancreatic cancer risk signals marked by single nucleotide polymorphisms (SNPs) rs2816938 at chromosome 1q32.1 (per allele odds ratio (OR) = 1.20, P = 4.88x10 -15), rs10094872 at 8q24.21 (OR = 1.15, P = 3.22x10 -9) and rs35226131 at 5p15.33 (OR = 0.71, P = 1.70x10 -8). These SNPs represent independent risk variants at previously identified pancreatic cancer risk loci on chr1q32.1 ( NR5A2), chr8q24.21 ( MYC) and chr5p15.33 ( CLPTM1L- TERT) as per analyses conditioned on previously reported susceptibility variants. We assessed expression of candidate genes at the three risk loci in histologically normal ( n = 10) and tumor ( n = 8) derived pancreatic tissue samples and observed a marked reduction of NR5A2 expression (chr1q32.1) in the tumors (fold change -7.6, P = 5.7x10 -8). This finding was validated in a second set of paired ( n = 20) histologically normal and tumor derived pancreatic tissue samples (average fold change for three NR5A2 isoforms -31.3 to -95.7, P = 7.5x10 -4-2.0x10 -3). Our study has identified new susceptibility variants independently conferring pancreatic cancer risk that merit functional follow-up to identify target genes and explain the underlying biology.

Published

2016

34. 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

35. 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

36. A population-based study of knowledge, risk perception, and screening practices among subjects with familial colorectal cancer in Ontario

Author

Ginsburg, O., Aronson, M., Cotterchio, M., Sutherland, H., and Gallinger, S.

Subjects

Genetic research -- Analysis, Human genetics -- Research, Colorectal cancer -- Genetic aspects, Biological sciences

Published

2000

37. Convergence of genes and cellular pathways dysregulated in autism spectrum disorders

Author

Pinto, D., Delaby, E., Merico, D., Barbosa, M., Merikangas, A., Klei, L, Thiruvahindrapuram, B., Xu, X., Ziman, R., Wang, Z., Vorstman, J.A., Thompson, A., Regan, R., Pilorge, M., Pellecchia, G., Pagnamenta, A.T., Oliveira, B., Marshall, C.R., Magalhães, T.R., Lowe, J.K., Howe, J.L., Griswold, A.J., Gilbert, J., Duketis, E., Dombroski, B.A., De Jonge, M.V., Cuccaro, M., Crawford, E.L., Correia, C.T., Conroy, J., Conceição, I.C, Chiocchetti, A.G., Casey, J.P., Cai, G., Cabrol, C., Bolshakova, N., Bacchelli, E., Anney, R., Gallinger, S., Cotterchio, M., Casey, G., Zwaigenbaum, L., Wittemeyer, K., Wing, K., Wallace, S., van Engeland, H., Tryfon, A., Thomson, S., Soorya, L., Rogé, B., Roberts, W., Poustka, F., Mouga, S., Minshew, N., McInnes, L.A., McGrew, S.G., Lord, C., Leboyer, M., Le Couteur, A.S., Kolevzon, A., Jiménez González, P., Jacob, S., Holt, R., Guter, S., Green, J., Green, A., Gillberg, C., Fernandez, B.A., Duque, F., Delorme, R., Dawson, G., Chaste, P., Café, C., Brennan, S., Bourgeron, T., Bolton, P.F., Bölte, S., Bernier, R., Baird, G., Bailey, A.J., Anagnostou, E., Almeida, J., Wijsman, E.M., Vieland, V.J., Vicente, A.M., Schellenberg, G.D., Pericak-Vance, M., Paterson, A.D., Parr, J.R., Oliveira, G., Nurnberger, J.I., Monaco, A.P., Maestrini, E., Klauck, S.M., Hakonarson, H., Haines, J.L., Geschwind, D.H., Freitag, C.M., Folstein, S.E., Ennis, S., Coon, H., Battaglia, A., Szatmari, P., Sutcliffe, J.S., Hallmayer, J., Gill, M., Cook, E.H., Buxbaum, J.D., Devlin, B., Gallagher, L., and Betancur, C.

Subjects

Autism Spectrum Disorders, Rare copy-number variation, Autism, mental disorders, Perturbações do Desenvolvimento Infantil e Saúde Mental

Abstract

Rare copy-number variation (CNV) is an important source of risk for autism spectrum disorders (ASDs). We analyzed 2,446 ASD-affected families and confirmed an excess of genic deletions and duplications in affected versus control groups (1.41-fold, p = 1.0 × 10(-5)) and an increase in affected subjects carrying exonic pathogenic CNVs overlapping known loci associated with dominant or X-linked ASD and intellectual disability (odds ratio = 12.62, p = 2.7 × 10(-15), ∼3% of ASD subjects). Pathogenic CNVs, often showing variable expressivity, included rare de novo and inherited events at 36 loci, implicating ASD-associated genes (CHD2, HDAC4, and GDI1) previously linked to other neurodevelopmental disorders, as well as other genes such as SETD5, MIR137, and HDAC9. Consistent with hypothesized gender-specific modulators, females with ASD were more likely to have highly penetrant CNVs (p = 0.017) and were also overrepresented among subjects with fragile X syndrome protein targets (p = 0.02). Genes affected by de novo CNVs and/or loss-of-function single-nucleotide variants converged on networks related to neuronal signaling and development, synapse function, and chromatin regulation.

Published

2014

38. Diabetes, antidiabetic medications, and pancreatic cancer risk: an analysis from the International Pancreatic Cancer Case-Control Consortium

Author

Bosetti, C. Rosato, V. Li, D. Silverman, D. Petersen, G.M. Bracci, P.M. Neale, R.E. Muscat, J. Anderson, K. Gallinger, S. Olson, S.H. Miller, A.B. Bas Bueno-de-Mesquita, H. Scelo, G. Janout, V. Holcatova, I. Lagiou, P. Serraino, D. Lucenteforte, E. Fabianova, E. Baghurst, P.A. Zatonski, W. Foretova, L. Fontham, E. Bamlet, W.R. Holly, E.A. Negri, E. Hassan, M. Prizment, A. Cotterchio, M. Cleary, S. Kurtz, R.C. Maisonneuve, P. Trichopoulos, D. Polesel, J. Duell, E.J. Boffetta, P. La Vecchia, C. Ghadirian, P.

Abstract

Background: Type 2 diabetes mellitus has been associated with an excess risk of pancreatic cancer, but the magnitude of the risk and the time–risk relationship are unclear, and there is limited information on the role of antidiabetic medications. Patients and methods: We analyzed individual-level data from 15 case–control studies within the Pancreatic Cancer Case-Control Consortium, including 8305 cases and 13 987 controls. Pooled odds ratios (ORs) were estimated from multiple logistic regression models, adjusted for relevant covariates. Results: Overall, 1155 (15%) cases and 1087 (8%) controls reported a diagnosis of diabetes 2 or more years before cancer diagnosis (or interview, for controls), corresponding to an OR of 1.90 (95% confidence interval, CI, 1.72–2.09). Consistent risk estimates were observed across strata of selected covariates, including body mass index and tobacco smoking. Pancreatic cancer risk decreased with duration of diabetes, but a significant excess risk was still evident 20 or more years after diabetes diagnosis (OR 1.30, 95% CI 1.03–1.63). Among diabetics, long duration of oral antidiabetic use was associated with a decreased pancreatic cancer risk (OR 0.31, 95% CI 0.14–0.69, for ≥15 years). Conversely, insulin use was associated with a pancreatic cancer risk in the short term (OR 5.60, 95% CI 3.75–8.35, for

Published

2014

39. Correction to: Vitamin D and pancreatic cancer: a pooled analysis from the Pancreatic Cancer Case–Control Consortium

Author

Waterhouse, M., primary, Risch, H.A., additional, Bosetti, C., additional, Anderson, K.E., additional, Petersen, G.M., additional, Bamlet, W.R., additional, Cotterchio, M., additional, Cleary, S.P., additional, Ibiebele, T.I., additional, La Vecchia, C., additional, Skinner, H.G., additional, Strayer, L., additional, Bracci, P.M., additional, Maisonneuve, P., additional, Bueno-de-Mesquita, H.B., additional, Zatoński, W., additional, Lu, L., additional, Yu, H., additional, Janik-Koncewicz, K., additional, Polesel, J., additional, Serraino, D., additional, and Neale, R.E., additional

Published

2016

40. 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

41. 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

42. 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

43. 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

44. Vitamin D Metabolic Pathway Genes and Pancreatic Cancer Risk

Author

Chang, JS, Arem, H, Yu, K, Xiong, X, Moy, K, Freedman, ND, Mayne, ST, Albanes, D, Arslan, AA, Austin, M, Bamlet, WR, Beane-Freeman, L, Bracci, P, Canzian, F, Cotterchio, M, Duell, EJ, Gallinger, S, Giles, GG, Goggins, M, Goodman, PJ, Hartge, P, Hassan, M, Helzlsouer, K, Henderson, B, Holly, EA, Hoover, R, Jacobs, EJ, Kamineni, A, Klein, A, Klein, E, Kolonel, LN, Li, D, Malats, N, Mannisto, S, McCullough, ML, Olson, SH, Orlow, I, Peters, U, Petersen, GM, Porta, M, Severi, G, Shu, X-O, Visvanathan, K, White, E, Yu, H, Zeleniuch-Jacquotte, A, Zheng, W, Tobias, GS, Maeder, D, Brotzman, M, Risch, H, Sampson, JN, Stolzenberg-Solomon, RZ, Chang, JS, Arem, H, Yu, K, Xiong, X, Moy, K, Freedman, ND, Mayne, ST, Albanes, D, Arslan, AA, Austin, M, Bamlet, WR, Beane-Freeman, L, Bracci, P, Canzian, F, Cotterchio, M, Duell, EJ, Gallinger, S, Giles, GG, Goggins, M, Goodman, PJ, Hartge, P, Hassan, M, Helzlsouer, K, Henderson, B, Holly, EA, Hoover, R, Jacobs, EJ, Kamineni, A, Klein, A, Klein, E, Kolonel, LN, Li, D, Malats, N, Mannisto, S, McCullough, ML, Olson, SH, Orlow, I, Peters, U, Petersen, GM, Porta, M, Severi, G, Shu, X-O, Visvanathan, K, White, E, Yu, H, Zeleniuch-Jacquotte, A, Zheng, W, Tobias, GS, Maeder, D, Brotzman, M, Risch, H, Sampson, JN, and Stolzenberg-Solomon, RZ

Abstract

Evidence on the association between vitamin D status and pancreatic cancer risk is inconsistent. This inconsistency may be partially attributable to variation in vitamin D regulating genes. We selected 11 vitamin D-related genes (GC, DHCR7, CYP2R1, VDR, CYP27B1, CYP24A1, CYP27A1, RXRA, CRP2, CASR and CUBN) totaling 213 single nucleotide polymorphisms (SNPs), and examined associations with pancreatic adenocarcinoma. Our study included 3,583 pancreatic cancer cases and 7,053 controls from the genome-wide association studies of pancreatic cancer PanScans-I-III. We used the Adaptive Joint Test and the Adaptive Rank Truncated Product statistic for pathway and gene analyses, and unconditional logistic regression for SNP analyses, adjusting for age, sex, study and population stratification. We examined effect modification by circulating vitamin D concentration (≤50, >50 nmol/L) for the most significant SNPs using a subset of cohort cases (n = 713) and controls (n = 878). The vitamin D metabolic pathway was not associated with pancreatic cancer risk (p = 0.830). Of the individual genes, none were associated with pancreatic cancer risk at a significance level of p<0.05. SNPs near the VDR (rs2239186), LRP2 (rs4668123), CYP24A1 (rs2762932), GC (rs2282679), and CUBN (rs1810205) genes were the top SNPs associated with pancreatic cancer (p-values 0.008-0.037), but none were statistically significant after adjusting for multiple comparisons. Associations between these SNPs and pancreatic cancer were not modified by circulating concentrations of vitamin D. These findings do not support an association between vitamin D-related genes and pancreatic cancer risk. Future research should explore other pathways through which vitamin D status might be associated with pancreatic cancer risk.

Published

2015

45. Vitamin D Metabolic Pathway Genes and Pancreatic Cancer Risk (vol 10, e0117574, 2015)

Author

Arem, H, Yu, K, Xiong, X, Moy, K, Freedman, ND, Mayne, ST, Albanes, D, Amundadottir, LT, Arslan, AA, Austin, M, Bamlet, WR, Beane-Freeman, L, Bracci, P, Canzian, F, Chanock, SJ, Cotterchio, M, Duell, EJ, Gallinger, S, Giles, GG, Goggins, M, Goodman, PJ, Hartge, P, Hassan, M, Helzlsouer, K, Henderson, B, Holly, EA, Hoover, R, Jacobs, EJ, Kamineni, A, Klein, A, Klein, E, Kolonel, LN, Li, D, Malats, N, Maennistoe, S, McCullough, ML, Olson, SH, Orlow, I, Peters, U, Petersen, GM, Porta, M, Severi, G, Shu, X-O, Van den Eeden, S, Visvanathan, K, White, E, Yu, H, Zeleniuch-Jacquotte, A, Zheng, W, Tobias, GS, Maeder, D, Brotzman, M, Risch, H, Sampson, JN, Stolzenberg-Solomon, RZ, Arem, H, Yu, K, Xiong, X, Moy, K, Freedman, ND, Mayne, ST, Albanes, D, Amundadottir, LT, Arslan, AA, Austin, M, Bamlet, WR, Beane-Freeman, L, Bracci, P, Canzian, F, Chanock, SJ, Cotterchio, M, Duell, EJ, Gallinger, S, Giles, GG, Goggins, M, Goodman, PJ, Hartge, P, Hassan, M, Helzlsouer, K, Henderson, B, Holly, EA, Hoover, R, Jacobs, EJ, Kamineni, A, Klein, A, Klein, E, Kolonel, LN, Li, D, Malats, N, Maennistoe, S, McCullough, ML, Olson, SH, Orlow, I, Peters, U, Petersen, GM, Porta, M, Severi, G, Shu, X-O, Van den Eeden, S, Visvanathan, K, White, E, Yu, H, Zeleniuch-Jacquotte, A, Zheng, W, Tobias, GS, Maeder, D, Brotzman, M, Risch, H, Sampson, JN, and Stolzenberg-Solomon, RZ

Published

2015

46. 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

47. 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

48. 1054 Risk of extracolonic cancers for people with biallelic and monoallelic mutations in MUTYH

Author

Win, A., primary, Reece, J., additional, Dowty, J., additional, Buchanan, D., additional, Clendenning, M., additional, Young, J., additional, Cleary, S., additional, Cotterchio, M., additional, Macrae, F., additional, Baron, J., additional, Le Marchand, L., additional, Casey, G., additional, Haile, R., additional, Newcomb, P., additional, Thibodeau, S., additional, Hopper, J., additional, Gallinger, S., additional, Winship, I., additional, Lindor, N., additional, and Jenkins, M., additional

Published

2015

49. Genome-wide association study identifies multiple susceptibility loci for pancreatic cancer

Author

Wolpin, BM, Rizzato, C, Kraft, P, Kooperberg, C, Petersen, GM, Wang, Z, Arslan, AA, Beane-Freeman, L, Bracci, PM, Buring, J, Canzian, F, Duell, EJ, Gallinger, S, Giles, GG, Goodman, GE, Goodman, PJ, Jacobs, EJ, Kamineni, A, Klein, AP, Kolonel, LN, Kulke, MH, Li, D, Malats, N, Olson, SH, Risch, HA, Sesso, HD, Visvanathan, K, White, E, Zheng, W, Abnet, CC, Albanes, D, Andreotti, G, Austin, MA, Barfield, R, Basso, D, Berndt, SI, Boutron-Ruault, M-C, Brotzman, M, Buechler, MW, Bueno-de-Mesquita, HB, Bugert, P, Burdette, L, Campa, D, Caporaso, NE, Capurso, G, Chung, C, Cotterchio, M, Costello, E, Elena, J, Funel, N, Gaziano, JM, Giese, NA, Goggins, M, Gorman, MJ, Gross, M, Haiman, CA, Hassan, M, Helzlsouer, KJ, Henderson, BE, Holly, EA, Hu, N, Hunter, DJ, Innocenti, F, Jenab, M, Kaaks, R, Key, TJ, Khaw, K-T, Klein, EA, Kogevinas, M, Krogh, V, Kupcinskas, J, Kurtz, RC, LaCroix, A, Landi, MT, Landi, S, Le Marchand, L, Mambrini, A, Mannisto, S, Milne, RL, Nakamura, Y, Oberg, AL, Owzar, K, Patel, AV, Peeters, PHM, Peters, U, Pezzilli, R, Piepoli, A, Porta, M, Real, FX, Riboli, E, Rothman, N, Scarpa, A, Shu, X-O, Silverman, DT, Soucek, P, Sund, M, Talar-Wojnarowska, R, Taylor, PR, Theodoropoulos, GE, Thornquist, M, Tjonneland, A, Tobias, GS, Trichopoulos, D, Vodicka, P, Wactawski-Wende, J, Wentzensen, N, Wu, C, Yu, H, Yu, K, Zeleniuch-Jacquotte, A, Hoover, R, Hartge, P, Fuchs, C, Chanock, SJ, Stolzenberg-Solomon, RS, Amundadottir, LT, Wolpin, BM, Rizzato, C, Kraft, P, Kooperberg, C, Petersen, GM, Wang, Z, Arslan, AA, Beane-Freeman, L, Bracci, PM, Buring, J, Canzian, F, Duell, EJ, Gallinger, S, Giles, GG, Goodman, GE, Goodman, PJ, Jacobs, EJ, Kamineni, A, Klein, AP, Kolonel, LN, Kulke, MH, Li, D, Malats, N, Olson, SH, Risch, HA, Sesso, HD, Visvanathan, K, White, E, Zheng, W, Abnet, CC, Albanes, D, Andreotti, G, Austin, MA, Barfield, R, Basso, D, Berndt, SI, Boutron-Ruault, M-C, Brotzman, M, Buechler, MW, Bueno-de-Mesquita, HB, Bugert, P, Burdette, L, Campa, D, Caporaso, NE, Capurso, G, Chung, C, Cotterchio, M, Costello, E, Elena, J, Funel, N, Gaziano, JM, Giese, NA, Goggins, M, Gorman, MJ, Gross, M, Haiman, CA, Hassan, M, Helzlsouer, KJ, Henderson, BE, Holly, EA, Hu, N, Hunter, DJ, Innocenti, F, Jenab, M, Kaaks, R, Key, TJ, Khaw, K-T, Klein, EA, Kogevinas, M, Krogh, V, Kupcinskas, J, Kurtz, RC, LaCroix, A, Landi, MT, Landi, S, Le Marchand, L, Mambrini, A, Mannisto, S, Milne, RL, Nakamura, Y, Oberg, AL, Owzar, K, Patel, AV, Peeters, PHM, Peters, U, Pezzilli, R, Piepoli, A, Porta, M, Real, FX, Riboli, E, Rothman, N, Scarpa, A, Shu, X-O, Silverman, DT, Soucek, P, Sund, M, Talar-Wojnarowska, R, Taylor, PR, Theodoropoulos, GE, Thornquist, M, Tjonneland, A, Tobias, GS, Trichopoulos, D, Vodicka, P, Wactawski-Wende, J, Wentzensen, N, Wu, C, Yu, H, Yu, K, Zeleniuch-Jacquotte, A, Hoover, R, Hartge, P, Fuchs, C, Chanock, SJ, Stolzenberg-Solomon, RS, and Amundadottir, LT

Abstract

We performed a multistage genome-wide association study including 7,683 individuals with pancreatic cancer and 14,397 controls of European descent. Four new loci reached genome-wide significance: rs6971499 at 7q32.3 (LINC-PINT, per-allele odds ratio (OR) = 0.79, 95% confidence interval (CI) 0.74-0.84, P = 3.0 × 10(-12)), rs7190458 at 16q23.1 (BCAR1/CTRB1/CTRB2, OR = 1.46, 95% CI 1.30-1.65, P = 1.1 × 10(-10)), rs9581943 at 13q12.2 (PDX1, OR = 1.15, 95% CI 1.10-1.20, P = 2.4 × 10(-9)) and rs16986825 at 22q12.1 (ZNRF3, OR = 1.18, 95% CI 1.12-1.25, P = 1.2 × 10(-8)). We identified an independent signal in exon 2 of TERT at the established region 5p15.33 (rs2736098, OR = 0.80, 95% CI 0.76-0.85, P = 9.8 × 10(-14)). We also identified a locus at 8q24.21 (rs1561927, P = 1.3 × 10(-7)) that approached genome-wide significance located 455 kb telomeric of PVT1. Our study identified multiple new susceptibility alleles for pancreatic cancer that are worthy of follow-up studies.

Published

2014

50. 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