27 results on '"Woods M.O."'
Search Results
2. Response to Li and Hopper.
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Thomas M., Sakoda L.C., Hoffmeister M., Rosenthal E.A., Lee J.K., van Duijnhoven F.J.B., Platz E.A., Wu A.H., Dampier C.H., de la Chapelle A., Wolk A., Joshi A.D., Burnett-Hartman A., Gsur A., Lindblom A., Castells A., Win A.K., Namjou B., Van Guelpen B., Tangen C.M., He Q., Li C.I., Schafmayer C., Joshu C.E., Ulrich C.M., Bishop D.T., Buchanan D.D., Schaid D., Drew D.A., Muller D.C., Duggan D., Crosslin D.R., Albanes D., Giovannucci E.L., Larson E., Qu F., Mentch F., Giles G.G., Hakonarson H., Hampel H., Stanaway I.B., Figueiredo J.C., Huyghe J.R., Minnier J., Chang-Claude J., Hampe J., Harley J.B., Visvanathan K., Curtis K.R., Offit K., Li L., Le Marchand L., Vodickova L., Gunter M.J., Jenkins M.A., Slattery M.L., Lemire M., Woods M.O., Song M., Murphy N., Lindor N.M., Dikilitas O., Pharoah P.D.P., Campbell P.T., Newcomb P.A., Milne R.L., MacInnis R.J., Castellvi-Bel S., Ogino S., Berndt S.I., Bezieau S., Thibodeau S.N., Gallinger S.J., Zaidi S.H., Harrison T.A., Keku T.O., Hudson T.J., Vymetalkova V., Moreno V., Martin V., Arndt V., Wei W.-Q., Chung W., Su Y.-R., Hayes R.B., White E., Vodicka P., Casey G., Gruber S.B., Schoen R.E., Chan A.T., Potter J.D., Brenner H., Jarvik G.P., Corley D.A., Peters U., Hsu L., Thomas M., Sakoda L.C., Hoffmeister M., Rosenthal E.A., Lee J.K., van Duijnhoven F.J.B., Platz E.A., Wu A.H., Dampier C.H., de la Chapelle A., Wolk A., Joshi A.D., Burnett-Hartman A., Gsur A., Lindblom A., Castells A., Win A.K., Namjou B., Van Guelpen B., Tangen C.M., He Q., Li C.I., Schafmayer C., Joshu C.E., Ulrich C.M., Bishop D.T., Buchanan D.D., Schaid D., Drew D.A., Muller D.C., Duggan D., Crosslin D.R., Albanes D., Giovannucci E.L., Larson E., Qu F., Mentch F., Giles G.G., Hakonarson H., Hampel H., Stanaway I.B., Figueiredo J.C., Huyghe J.R., Minnier J., Chang-Claude J., Hampe J., Harley J.B., Visvanathan K., Curtis K.R., Offit K., Li L., Le Marchand L., Vodickova L., Gunter M.J., Jenkins M.A., Slattery M.L., Lemire M., Woods M.O., Song M., Murphy N., Lindor N.M., Dikilitas O., Pharoah P.D.P., Campbell P.T., Newcomb P.A., Milne R.L., MacInnis R.J., Castellvi-Bel S., Ogino S., Berndt S.I., Bezieau S., Thibodeau S.N., Gallinger S.J., Zaidi S.H., Harrison T.A., Keku T.O., Hudson T.J., Vymetalkova V., Moreno V., Martin V., Arndt V., Wei W.-Q., Chung W., Su Y.-R., Hayes R.B., White E., Vodicka P., Casey G., Gruber S.B., Schoen R.E., Chan A.T., Potter J.D., Brenner H., Jarvik G.P., Corley D.A., Peters U., and Hsu L.
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- 2021
3. Association of body mass index with colorectal cancer risk by genome-wide variants.
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Giles G.G., Lin Y., Bien S.A., Figueiredo J.C., Harrison T.A., Guinter M.A., Berndt S.I., Brenner H., Chan A.T., Chang-Claude J., Gallinger S.J., Gapstur S.M., Campbell P.T., Giovannucci E., Gruber S.B., Gunter M., Ogino S., Potter J.D., Rennert G., Rennert H.S., Robinson J., Sakoda L.C., Slattery M.L., Song Y., White E., Woods M.O., Casey G., Hsu L., Peters U., Hoffmeister M., Jacobs E.J., Jenkins M.A., Le Marchand L., Li L., McLaughlin J.R., Murphy N., Milne R.L., Newcomb P.A., Newton C., Giles G.G., Lin Y., Bien S.A., Figueiredo J.C., Harrison T.A., Guinter M.A., Berndt S.I., Brenner H., Chan A.T., Chang-Claude J., Gallinger S.J., Gapstur S.M., Campbell P.T., Giovannucci E., Gruber S.B., Gunter M., Ogino S., Potter J.D., Rennert G., Rennert H.S., Robinson J., Sakoda L.C., Slattery M.L., Song Y., White E., Woods M.O., Casey G., Hsu L., Peters U., Hoffmeister M., Jacobs E.J., Jenkins M.A., Le Marchand L., Li L., McLaughlin J.R., Murphy N., Milne R.L., Newcomb P.A., and Newton C.
- Abstract
Background: Body mass index (BMI) is a complex phenotype that may interact with genetic variants to influence colorectal cancer risk. Method(s): We tested multiplicative statistical interactions between BMI (per 5 kg/m2) and approximately 2.7 million single nucleotide polymorphisms with colorectal cancer risk among 14 059 colorectal cancer case (53.2% women) and 14 416 control (53.8% women) participants. All analyses were stratified by sex a priori. Statistical methods included 2-step (ie, Cocktail method) and single-step (ie, case-control logistic regression and a joint 2-degree of freedomtest) procedures. All statistical tests were two-sided. Result(s): Each 5 kg/m2 increase in BMI was associated with higher risks of colorectal cancer, less so for women (odds ratio [OR] = 1.14, 95% confidence intervals [CI] = 1.11 to 1.18; P = 9.75 x 10-17) than for men (OR = 1.26, 95% CI = 1.20 to 1.32; P = 2.13 x 10-24). The 2-step Cocktail method identified an interaction for women, but not men, between BMI and a SMAD7 intronic variant at 18q21.1 (rs4939827; Pobserved = .0009; Pthreshold = .005). A joint 2-degree of freedom test was consistent with this finding for women (joint P = 2.43 x 10-10). Each 5 kg/m2 increase in BMI was more strongly associated with colorectal cancer risk for women with the rs4939827-CC genotype (OR = 1.24, 95% CI = 1.16 to 1.32; P = 2.60 x 10-10) than for women with the CT (OR = 1.14, 95% CI = 1.09 to 1.19; P = 1.04 x 10-8) or TT (OR = 1.07, 95% CI = 1.01 to 1.14; P = .02) genotypes. Conclusion(s): These results provide novel insights on a potential mechanism through which a SMAD7 variant, previously identified as a susceptibility locus for colorectal cancer, and BMI may influence colorectal cancer risk for women.Copyright © The Author(s) 2020.
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- 2021
4. Genetically predicted circulating concentrations of micronutrients and risk of colorectal cancer among individuals of European descent: a Mendelian randomization study.
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Hampe J., Zuber V., Cross A.J., Perez-Cornago A., Hunter D.J., van Duijnhoven F.J.B., Albanes D., Arndt V., Berndt S.I., Bezieau S., Bishop D.T., Boehm J., Brenner H., Burnett-Hartman A., Campbell P.T., Casey G., Castellvi-Bel S., Chan A.T., Chang-Claude J., de la Chapelle A., Figueiredo J.C., Gallinger S.J., Giles G.G., Goodman P.J., Gsur A., Markozannes G., Hampel H., Hoffmeister M., Jenkins M.A., Keku T.O., Kweon S.-S., Larsson S.C., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., Milne R.L., Moreno V., Nan H., Nassir R., Newcomb P.A., Offit K., Pharoah P.D.P., Platz E.A., Potter J.D., Qi L., Rennert G., Sakoda L.C., Schafmayer C., Slattery M.L., Snetselaar L., Schenk J., Thibodeau S.N., Ulrich C.M., Van Guelpen B., Harlid S., Visvanathan K., Vodickova L., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Zheng W., Bueno-de-Mesquita B., Boutron-Ruault M.-C., Hughes D.J., Jakszyn P., Kuhn T., Palli D., Riboli E., Giovannucci E.L., Banbury B.L., Gruber S.B., Peters U., Gunter M.J., Tsilidis K.K., Papadimitriou N., Dimou N., Gill D., Lewis S.J., Martin R.M., Murphy N., Burrows K., Lopez D.S., Key T.J., Travis R.C., Hampe J., Zuber V., Cross A.J., Perez-Cornago A., Hunter D.J., van Duijnhoven F.J.B., Albanes D., Arndt V., Berndt S.I., Bezieau S., Bishop D.T., Boehm J., Brenner H., Burnett-Hartman A., Campbell P.T., Casey G., Castellvi-Bel S., Chan A.T., Chang-Claude J., de la Chapelle A., Figueiredo J.C., Gallinger S.J., Giles G.G., Goodman P.J., Gsur A., Markozannes G., Hampel H., Hoffmeister M., Jenkins M.A., Keku T.O., Kweon S.-S., Larsson S.C., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., Milne R.L., Moreno V., Nan H., Nassir R., Newcomb P.A., Offit K., Pharoah P.D.P., Platz E.A., Potter J.D., Qi L., Rennert G., Sakoda L.C., Schafmayer C., Slattery M.L., Snetselaar L., Schenk J., Thibodeau S.N., Ulrich C.M., Van Guelpen B., Harlid S., Visvanathan K., Vodickova L., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Zheng W., Bueno-de-Mesquita B., Boutron-Ruault M.-C., Hughes D.J., Jakszyn P., Kuhn T., Palli D., Riboli E., Giovannucci E.L., Banbury B.L., Gruber S.B., Peters U., Gunter M.J., Tsilidis K.K., Papadimitriou N., Dimou N., Gill D., Lewis S.J., Martin R.M., Murphy N., Burrows K., Lopez D.S., Key T.J., and Travis R.C.
- Abstract
BACKGROUND: The literature on associations of circulating concentrations of minerals and vitamins with risk of colorectal cancer is limited and inconsistent. Evidence from randomized controlled trials (RCTs) to support the efficacy of dietary modification or nutrient supplementation for colorectal cancer prevention is also limited. OBJECTIVE(S): To complement observational and RCT findings, we investigated associations of genetically predicted concentrations of 11 micronutrients (beta-carotene, calcium, copper, folate, iron, magnesium, phosphorus, selenium, vitamin B-6, vitamin B-12, and zinc) with colorectal cancer risk using Mendelian randomization (MR). METHOD(S): Two-sample MR was conducted using 58,221 individuals with colorectal cancer and 67,694 controls from the Genetics and Epidemiology of Colorectal Cancer Consortium, Colorectal Cancer Transdisciplinary Study, and Colon Cancer Family Registry. Inverse variance-weighted MR analyses were performed with sensitivity analyses to assess the impact of potential violations of MR assumptions. RESULT(S): Nominally significant associations were noted for genetically predicted iron concentration and higher risk of colon cancer [ORs per SD (ORSD): 1.08; 95% CI: 1.00, 1.17; P value=0.05] and similarly for proximal colon cancer, and for vitamin B-12 concentration and higher risk of colorectal cancer (ORSD: 1.12; 95% CI: 1.03, 1.21; P value=0.01) and similarly for colon cancer. A nominally significant association was also noted for genetically predicted selenium concentration and lower risk of colon cancer (ORSD: 0.98; 95% CI: 0.96, 1.00; P value=0.05) and similarly for distal colon cancer. These associations were robust to sensitivity analyses. Nominally significant inverse associations were observed for zinc and risk of colorectal and distal colon cancers, but sensitivity analyses could not be performed. None of these findings survived correction for multiple testing. Genetically predicted concentrations of beta-caroten
- Published
- 2021
5. Salicylic acid and risk of colorectal cancer: A two-sample mendelian randomization study.
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Nounu A., Richmond R.C., Stewart I.D., Surendran P., Wareham N.J., Butterworth A., Weinstein S.J., Albanes D., Baron J.A., Hopper J.L., Figueiredo J.C., Newcomb P.A., Lindor N.M., Casey G., Platz E.A., Marchand L.L., Ulrich C.M., Li C.I., van Dujinhoven F.J.B., Gsur A., Campbell P.T., Moreno V., Vodicka P., Vodickova L., Amitay E., Alwers E., Chang-Claude J., Sakoda L.C., Slattery M.L., Schoen R.E., Gunter M.J., Castellvi-Bel S., Kim H.-R., Kweon S.-S., Chan A.T., Li L., Zheng W., Bishop D.T., Buchanan D.D., Giles G.G., Gruber S.B., Rennert G., Stadler Z.K., Harrison T.A., Lin Y., Keku T.O., Woods M.O., Schafmayer C., Van Guelpen B., Gallinger S., Hampel H., Berndt S.I., Pharoah P.D.P., Lindblom A., Wolk A., Wu A.H., White E., Peters U., Drew D.A., Scherer D., Bermejo J.L., Brenner H., Hoffmeister M., Williams A.C., Relton C.L., Nounu A., Richmond R.C., Stewart I.D., Surendran P., Wareham N.J., Butterworth A., Weinstein S.J., Albanes D., Baron J.A., Hopper J.L., Figueiredo J.C., Newcomb P.A., Lindor N.M., Casey G., Platz E.A., Marchand L.L., Ulrich C.M., Li C.I., van Dujinhoven F.J.B., Gsur A., Campbell P.T., Moreno V., Vodicka P., Vodickova L., Amitay E., Alwers E., Chang-Claude J., Sakoda L.C., Slattery M.L., Schoen R.E., Gunter M.J., Castellvi-Bel S., Kim H.-R., Kweon S.-S., Chan A.T., Li L., Zheng W., Bishop D.T., Buchanan D.D., Giles G.G., Gruber S.B., Rennert G., Stadler Z.K., Harrison T.A., Lin Y., Keku T.O., Woods M.O., Schafmayer C., Van Guelpen B., Gallinger S., Hampel H., Berndt S.I., Pharoah P.D.P., Lindblom A., Wolk A., Wu A.H., White E., Peters U., Drew D.A., Scherer D., Bermejo J.L., Brenner H., Hoffmeister M., Williams A.C., and Relton C.L.
- Abstract
Salicylic acid (SA) has observationally been shown to decrease colorectal cancer (CRC) risk. Aspirin (acetylsalicylic acid, that rapidly deacetylates to SA) is an effective primary and secondary chemopreventive agent. Through a Mendelian randomization (MR) approach, we aimed to address whether levels of SA affected CRC risk, stratifying by aspirin use. A two-sample MR analysis was performed using GWAS summary statistics of SA (INTERVAL and EPIC-Norfolk, N = 14,149) and CRC (CCFR, CORECT, GECCO and UK Biobank, 55,168 cases and 65,160 controls). The DACHS study (4410 cases and 3441 controls) was used for replication and stratification of aspirin use. SNPs proxying SA were selected via three methods: (1) functional SNPs that influence the activity of aspirin-metabolising enzymes; (2) pathway SNPs present in enzymes' coding regions; and (3) genome-wide significant SNPs. We found no association between functional SNPs and SA levels. The pathway and genome-wide SNPs showed no association between SA and CRC risk (OR:1.03, 95% CI: 0.84-1.27 and OR: 1.08, 95% CI:0.86-1.34, respectively). Results remained unchanged upon aspirin use stratification. We found little evidence to suggest that an SD increase in genetically predicted SA protects against CRC risk in the general population and upon stratification by aspirin use.Copyright © 2021 by the authors. Li-censee MDPI, Basel, Switzerland.
- Published
- 2021
6. Genetically predicted circulating concentrations of micronutrients and risk of colorectal cancer among individuals of European descent: A Mendelian randomization study.
- Author
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Tsilidis K.K., Papadimitriou N., Dimou N., Gill D., Lewis S.J., Martin R.M., Murphy N., Markozannes G., Zuber V., Cross A.J., Burrows K., Lopez D.S., Key T.J., Travis R.C., Perez-Cornago A., Hunter D.J., Van Duijnhoven F.J.B., Albanes D., Arndt V., Berndt S.I., Bezieau S., Bishop D.T., Boehm J., Brenner H., Burnett-Hartman A., Campbell P.T., Casey G., Castellvi-Bel S., Chan A.T., Chang-Claude J., De La Chapelle A., Figueiredo J.C., Gallinger S.J., Giles G.G., Goodman P.J., Gsur A., Hampe J., Hampel H., Hoffmeister M., Jenkins M.A., Keku T.O., Kweon S.-S., Larsson S.C., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., Milne R.L., Moreno V., Nan H., Nassir R., Newcomb P.A., Offit K., Pharoah P.D.P., Platz E.A., Potter J.D., Qi L., Rennert G., Sakoda L.C., Schafmayer C., Slattery M.L., Snetselaar L., Schenk J., Thibodeau S.N., Ulrich C.M., Van Guelpen B., Harlid S., Visvanathan K., Vodickova L., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Zheng W., Bueno-De-Mesquita B., Boutron-Ruault M.-C., Hughes D.J., Jakszyn P., Kuhn T., Palli D., Riboli E., Giovannucci E.L., Banbury B.L., Gruber S.B., Peters U., Gunter M.J., Tsilidis K.K., Papadimitriou N., Dimou N., Gill D., Lewis S.J., Martin R.M., Murphy N., Markozannes G., Zuber V., Cross A.J., Burrows K., Lopez D.S., Key T.J., Travis R.C., Perez-Cornago A., Hunter D.J., Van Duijnhoven F.J.B., Albanes D., Arndt V., Berndt S.I., Bezieau S., Bishop D.T., Boehm J., Brenner H., Burnett-Hartman A., Campbell P.T., Casey G., Castellvi-Bel S., Chan A.T., Chang-Claude J., De La Chapelle A., Figueiredo J.C., Gallinger S.J., Giles G.G., Goodman P.J., Gsur A., Hampe J., Hampel H., Hoffmeister M., Jenkins M.A., Keku T.O., Kweon S.-S., Larsson S.C., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., Milne R.L., Moreno V., Nan H., Nassir R., Newcomb P.A., Offit K., Pharoah P.D.P., Platz E.A., Potter J.D., Qi L., Rennert G., Sakoda L.C., Schafmayer C., Slattery M.L., Snetselaar L., Schenk J., Thibodeau S.N., Ulrich C.M., Van Guelpen B., Harlid S., Visvanathan K., Vodickova L., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Zheng W., Bueno-De-Mesquita B., Boutron-Ruault M.-C., Hughes D.J., Jakszyn P., Kuhn T., Palli D., Riboli E., Giovannucci E.L., Banbury B.L., Gruber S.B., Peters U., and Gunter M.J.
- Abstract
Background: The literature on associations of circulating concentrations of minerals and vitamins with risk of colorectal cancer is limited and inconsistent. Evidence from randomized controlled trials (RCTs) to support the efficacy of dietary modification or nutrient supplementation for colorectal cancer prevention is also limited. Objective(s): To complement observational and RCT findings, we investigated associations of genetically predicted concentrations of 11 micronutrients (beta-carotene, calcium, copper, folate, iron, magnesium, phosphorus, selenium, vitamin B-6, vitamin B-12, and zinc) with colorectal cancer risk using Mendelian randomization (MR). Method(s): Two-sample MR was conducted using 58,221 individuals with colorectal cancer and 67,694 controls from the Genetics and Epidemiology of Colorectal Cancer Consortium, Colorectal Cancer Transdisciplinary Study, and Colon Cancer Family Registry. Inverse variance-weighted MR analyses were performed with sensitivity analyses to assess the impact of potential violations of MR assumptions. Result(s): Nominally significant associations were noted for genetically predicted iron concentration and higher risk of colon cancer [ORs per SD (ORSD): 1.08 95% CI: 1.00, 1.17 P value = 0.05] and similarly for proximal colon cancer, and for vitamin B-12 concentration and higher risk of colorectal cancer (ORSD: 1.12 95% CI: 1.03, 1.21 P value = 0.01) and similarly for colon cancer. A nominally significant association was also noted for genetically predicted selenium concentration and lower risk of colon cancer (ORSD: 0.98 95% CI: 0.96, 1.00 P value = 0.05) and similarly for distal colon cancer. These associations were robust to sensitivity analyses. Nominally significant inverse associations were observed for zinc and risk of colorectal and distal colon cancers, but sensitivity analyses could not be performed. None of these findings survived correction for multiple testing. Genetically predicted concentrations of beta-caroten
- Published
- 2021
7. A combined proteomics and mendelian randomization approach to investigate the effects of aspirin-targeted proteins on colorectal cancer.
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Pharoah P.D.P., Nounu A., Greenhough A., Heesom K.J., Richmond R.C., Zheng J., Weinstein S.J., Albanes D., Gallinger S., Hampel H., Berndt S.I., Lindblom A., Wolk A., Wu A.H., White E., Peters U., Drew D.A., Scherer D., Bermejo J.L., Williams A.C., Relton C.L., Baron J.A., Hopper J.L., Figueiredo J.C., Newcomb P.A., Lindor N.M., Casey G., Platz E.A., Le Marchand L., Ulrich C.M., Li C.I., van Duijnhoven F.J.B., Gsur A., Campbell P.T., Moreno V., Vodicka P., Vodickova L., Brenner H., Chang-Claude J., Hoffmeister M., Sakoda L.C., Slattery M.L., Schoen R.E., Gunter M.J., Castellvi-Bel S., Kim H.R., Kweon S.-S., Chan A.T., Li L., Zheng W., Bishop D.T., Buchanan D.D., Giles G.G., Gruber S.B., Rennert G., Stadler Z.K., Harrison T.A., Lin Y., Keku T.O., Woods M.O., Schafmayer C., van Guelpen B., Pharoah P.D.P., Nounu A., Greenhough A., Heesom K.J., Richmond R.C., Zheng J., Weinstein S.J., Albanes D., Gallinger S., Hampel H., Berndt S.I., Lindblom A., Wolk A., Wu A.H., White E., Peters U., Drew D.A., Scherer D., Bermejo J.L., Williams A.C., Relton C.L., Baron J.A., Hopper J.L., Figueiredo J.C., Newcomb P.A., Lindor N.M., Casey G., Platz E.A., Le Marchand L., Ulrich C.M., Li C.I., van Duijnhoven F.J.B., Gsur A., Campbell P.T., Moreno V., Vodicka P., Vodickova L., Brenner H., Chang-Claude J., Hoffmeister M., Sakoda L.C., Slattery M.L., Schoen R.E., Gunter M.J., Castellvi-Bel S., Kim H.R., Kweon S.-S., Chan A.T., Li L., Zheng W., Bishop D.T., Buchanan D.D., Giles G.G., Gruber S.B., Rennert G., Stadler Z.K., Harrison T.A., Lin Y., Keku T.O., Woods M.O., Schafmayer C., and van Guelpen B.
- Abstract
Background: Evidence for aspirin's chemopreventative properties on colorectal cancer (CRC) is substantial, but its mechanism of action is not well-understood. We combined a proteomic approach with Mendelian randomization (MR) to identify possible new aspirin targets that decrease CRC risk. Method(s): Human colorectal adenoma cells (RG/C2) were treated with aspirin (24 hours) and a stable isotope labeling with amino acids in cell culture (SILAC) based proteomics approach identified altered protein expression. Protein quantitative trait loci (pQTLs) from INTERVAL (N 1/4 3,301) and expression QTLs (eQTLs) from the eQTLGen Consortium (N 1/4 31,684) were used as genetic proxies for protein and mRNA expression levels. Two-sample MR of mRNA/protein expression on CRC risk was performed using eQTL/pQTL data combined with CRC genetic summary data from the Colon Cancer Family Registry (CCFR), Colorectal Transdisciplinary (CORECT), Genetics and Epidemiology of Colorectal Cancer (GECCO) consortia and UK Biobank (55,168 cases and 65,160 controls). Result(s): Altered expression was detected for 125/5886 proteins. Of these, aspirin decreased MCM6, RRM2, and ARFIP2 expression, and MR analysis showed that a standard deviation increase in mRNA/protein expression was associated with increased CRC risk (OR: 1.08, 95% CI, 1.03-1.13; OR: 3.33, 95% CI, 2.46-4.50; and OR: 1.15, 95% CI, 1.02-1.29, respectively). Conclusion(s): MCM6 and RRM2 are involved in DNA repair whereby reduced expression may lead to increased DNA aberrations and ultimately cancer cell death, whereas ARFIP2 is involved in actin cytoskeletal regulation, indicating a possible role in aspirin's reduction of metastasis. Impact: Our approach has shown how laboratory experiments and population-based approaches can combine to identify aspirin-targeted proteins possibly affecting CRC risk.Copyright ©2020 American Association for Cancer Research.
- Published
- 2021
8. The genetic basis of colorectal cancer in a population-based incident cohort with a high rate of familial disease
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Woods, M.O., Younghusband, H.B., Parfrey, P.S., Gallinger, S., McLaughlin, J., Dicks, E., Stuckless, S., Pollett, A., Bapat, B., Mrkonjic, M., de la Chapelle, A., Clendenning, M., Thibodeau, S.N., Simms, M., Dohey, A., Williams, P., Robb, D., Searle, C., Green, J.S., and Green, R.C.
- Subjects
Colorectal cancer -- Research ,Colorectal cancer -- Genetic aspects ,Gene mutations -- Research ,Gene mutations -- Physiological aspects ,Disease susceptibility -- Research ,Disease susceptibility -- Genetic aspects ,Health - Published
- 2010
9. Circulating bilirubin levels and risk of colorectal cancer: serological and Mendelian randomization analyses
- Author
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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.
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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.
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- 2020
10. Circulating bilirubin levels and risk of colorectal cancer: Serological and Mendelian randomization analyses
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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).
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- 2020
11. Genome-wide Modeling of Polygenic Risk Score in Colorectal Cancer Risk.
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Huyghe J.R., Thomas M., Sakoda L.C., Hoffmeister M., Rosenthal E.A., Lee J.K., van Duijnhoven F.J.B., Platz E.A., Wu A.H., Dampier C.H., de la Chapelle A., Wolk A., Joshi A.D., Burnett-Hartman A., Gsur A., Lindblom A., Castells A., Win A.K., Namjou B., Van Guelpen B., Tangen C.M., He Q., Li C.I., Schafmayer C., Joshu C.E., Ulrich C.M., Bishop D.T., Buchanan D.D., Schaid D., Drew D.A., Muller D.C., Duggan D., Crosslin D.R., Albanes D., Giovannucci E.L., Larson E., Qu F., Mentch F., Giles G.G., Hakonarson H., Hampel H., Stanaway I.B., Figueiredo J.C., Minnier J., Chang-Claude J., Hampe J., Harley J.B., Visvanathan K., Curtis K.R., Offit K., Li L., Le Marchand L., Vodickova L., Gunter M.J., Jenkins M.A., Slattery M.L., Lemire M., Woods M.O., Song M., Murphy N., Lindor N.M., Dikilitas O., Pharoah P.D.P., Campbell P.T., Newcomb P.A., Milne R.L., MacInnis R.J., Castellvi-Bel S., Ogino S., Berndt S.I., Bezieau S., Thibodeau S.N., Gallinger S.J., Zaidi S.H., Harrison T.A., Keku T.O., Hudson T.J., Vymetalkova V., Moreno V., Martin V., Arndt V., Wei W.-Q., Chung W., Su Y.-R., Hayes R.B., White E., Vodicka P., Casey G., Gruber S.B., Schoen R.E., Chan A.T., Potter J.D., Brenner H., Jarvik G.P., Corley D.A., Peters U., Hsu L., Huyghe J.R., Thomas M., Sakoda L.C., Hoffmeister M., Rosenthal E.A., Lee J.K., van Duijnhoven F.J.B., Platz E.A., Wu A.H., Dampier C.H., de la Chapelle A., Wolk A., Joshi A.D., Burnett-Hartman A., Gsur A., Lindblom A., Castells A., Win A.K., Namjou B., Van Guelpen B., Tangen C.M., He Q., Li C.I., Schafmayer C., Joshu C.E., Ulrich C.M., Bishop D.T., Buchanan D.D., Schaid D., Drew D.A., Muller D.C., Duggan D., Crosslin D.R., Albanes D., Giovannucci E.L., Larson E., Qu F., Mentch F., Giles G.G., Hakonarson H., Hampel H., Stanaway I.B., Figueiredo J.C., Minnier J., Chang-Claude J., Hampe J., Harley J.B., Visvanathan K., Curtis K.R., Offit K., Li L., Le Marchand L., Vodickova L., Gunter M.J., Jenkins M.A., Slattery M.L., Lemire M., Woods M.O., Song M., Murphy N., Lindor N.M., Dikilitas O., Pharoah P.D.P., Campbell P.T., Newcomb P.A., Milne R.L., MacInnis R.J., Castellvi-Bel S., Ogino S., Berndt S.I., Bezieau S., Thibodeau S.N., Gallinger S.J., Zaidi S.H., Harrison T.A., Keku T.O., Hudson T.J., Vymetalkova V., Moreno V., Martin V., Arndt V., Wei W.-Q., Chung W., Su Y.-R., Hayes R.B., White E., Vodicka P., Casey G., Gruber S.B., Schoen R.E., Chan A.T., Potter J.D., Brenner H., Jarvik G.P., Corley D.A., Peters U., and Hsu L.
- Abstract
Accurate colorectal cancer (CRC) risk prediction models are critical for identifying individuals at low and high risk of developing CRC, as they can then be offered targeted screening and interventions to address their risks of developing disease (if they are in a high-risk group) and avoid unnecessary screening and interventions (if they are in a low-risk group). As it is likely that thousands of genetic variants contribute to CRC risk, it is clinically important to investigate whether these genetic variants can be used jointly for CRC risk prediction. In this paper, we derived and compared different approaches to generating predictive polygenic risk scores (PRS) from genome-wide association studies (GWASs) including 55,105 CRC-affected case subjects and 65,079 control subjects of European ancestry. We built the PRS in three ways, using (1) 140 previously identified and validated CRC loci; (2) SNP selection based on linkage disequilibrium (LD) clumping followed by machine-learning approaches; and (3) LDpred, a Bayesian approach for genome-wide risk prediction. We tested the PRS in an independent cohort of 101,987 individuals with 1,699 CRC-affected case subjects. The discriminatory accuracy, calculated by the age- and sex-adjusted area under the receiver operating characteristics curve (AUC), was highest for the LDpred-derived PRS (AUC = 0.654) including nearly 1.2 M genetic variants (the proportion of causal genetic variants for CRC assumed to be 0.003), whereas the PRS of the 140 known variants identified from GWASs had the lowest AUC (AUC = 0.629). Based on the LDpred-derived PRS, we are able to identify 30% of individuals without a family history as having risk for CRC similar to those with a family history of CRC, whereas the PRS based on known GWAS variants identified only top 10% as having a similar relative risk. About 90% of these individuals have no family history and would have been considered average risk under current screening guidelines, but might be
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- 2020
12. Circulating Levels of Insulin-like Growth Factor 1 and Insulin-like Growth Factor Binding Protein 3 Associate With Risk of Colorectal Cancer Based on Serologic and Mendelian Randomization Analyses.
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English D., Van Guelpen B., Visvanathan K., Vodicka P., Vodickova L., Vymetalkova V., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Zheng W., Peters U., Gunter M.J., Murphy N., Carreras-Torres R., Song M., Chan A.T., Martin R.M., Papadimitriou N., Dimou N., Tsilidis K.K., Banbury B., Bradbury K.E., Besevic J., Rinaldi S., Riboli E., Cross A.J., Travis R.C., Agnoli C., Albanes D., Berndt S.I., Bezieau S., Bishop D.T., Brenner H., Buchanan D.D., Onland-Moret N.C., Burnett-Hartman A., Campbell P.T., Casey G., Castellvi-Bel S., Chang-Claude J., Chirlaque M.-D., de la Chapelle A., Figueiredo J.C., Gallinger S.J., Giles G.G., Gruber S.B., Gsur A., Hampe J., Hampel H., Harrison T.A., Hoffmeister M., Hsu L., Huang W.-Y., Huyghe J.R., Jenkins M.A., Keku T.O., Kuhn T., Kweon S.-S., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., Milne R.L., Moreno V., Newcomb P.A., Offit K., Ogino S., Ose J., Perduca V., Phipps A.I., Platz E.A., Potter J.D., Qu C., Rennert G., Sakoda L.C., Schafmayer C., Schoen R.E., Slattery M.L., Tangen C.M., Ulrich C.M., van Duijnhoven F.J.B., English D., Van Guelpen B., Visvanathan K., Vodicka P., Vodickova L., Vymetalkova V., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Zheng W., Peters U., Gunter M.J., Murphy N., Carreras-Torres R., Song M., Chan A.T., Martin R.M., Papadimitriou N., Dimou N., Tsilidis K.K., Banbury B., Bradbury K.E., Besevic J., Rinaldi S., Riboli E., Cross A.J., Travis R.C., Agnoli C., Albanes D., Berndt S.I., Bezieau S., Bishop D.T., Brenner H., Buchanan D.D., Onland-Moret N.C., Burnett-Hartman A., Campbell P.T., Casey G., Castellvi-Bel S., Chang-Claude J., Chirlaque M.-D., de la Chapelle A., Figueiredo J.C., Gallinger S.J., Giles G.G., Gruber S.B., Gsur A., Hampe J., Hampel H., Harrison T.A., Hoffmeister M., Hsu L., Huang W.-Y., Huyghe J.R., Jenkins M.A., Keku T.O., Kuhn T., Kweon S.-S., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., Milne R.L., Moreno V., Newcomb P.A., Offit K., Ogino S., Ose J., Perduca V., Phipps A.I., Platz E.A., Potter J.D., Qu C., Rennert G., Sakoda L.C., Schafmayer C., Schoen R.E., Slattery M.L., Tangen C.M., Ulrich C.M., and van Duijnhoven F.J.B.
- Abstract
Background & Aims: Human studies examining associations between circulating levels of insulin-like growth factor 1 (IGF1) and insulin-like growth factor binding protein 3 (IGFBP3) and colorectal cancer risk have reported inconsistent results. We conducted complementary serologic and Mendelian randomization (MR) analyses to determine whether alterations in circulating levels of IGF1 or IGFBP3 are associated with colorectal cancer development. Method(s): Serum levels of IGF1 were measured in blood samples collected from 397,380 participants from the UK Biobank, from 2006 through 2010. Incident cancer cases and cancer cases recorded first in death certificates were identified through linkage to national cancer and death registries. Complete follow-up was available through March 31, 2016. For the MR analyses, we identified genetic variants associated with circulating levels of IGF1 and IGFBP3. The association of these genetic variants with colorectal cancer was examined with 2-sample MR methods using genome-wide association study consortia data (52,865 cases with colorectal cancer and 46,287 individuals without [controls]) Results: After a median follow-up period of 7.1 years, 2665 cases of colorectal cancer were recorded. In a multivariable-adjusted model, circulating level of IGF1 associated with colorectal cancer risk (hazard ratio per 1 standard deviation increment of IGF1, 1.11; 95% confidence interval [CI] 1.05-1.17). Similar associations were found by sex, follow-up time, and tumor subsite. In the MR analyses, a 1 standard deviation increment in IGF1 level, predicted based on genetic factors, was associated with a higher risk of colorectal cancer risk (odds ratio 1.08; 95% CI 1.03-1.12; P = 3.3 x 10-4). Level of IGFBP3, predicted based on genetic factors, was associated with colorectal cancer risk (odds ratio per 1 standard deviation increment, 1.12; 95% CI 1.06-1.18; P = 4.2 x 10-5). Colorectal cancer risk was associated with only 1 variant in the IGFBP3 gene re
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- 2020
13. Adiposity, metabolites, and colorectal cancer risk: Mendelian randomization study.
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Hsu L., Berndt S.I., Bezieau S., Bishop D.T., Brenner H., Buchanan D.D., Burnett-Hartman A., Casey G., Castellvi-Bel S., Chan A.T., Chang-Claude J., Cross A.J., de la Chapelle A., Figueiredo J.C., Gallinger S.J., Gapstur S.M., Giles G.G., Gruber S.B., Gsur A., Hampe J., Hampel H., Harrison T.A., Hoffmeister M., Huang W.-Y., Huyghe J.R., Jenkins M.A., Joshu C.E., Keku T.O., Kuhn T., Kweon S.-S., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., May A.M., Milne R.L., Moreno V., Newcomb P.A., Offit K., Ogino S., Phipps A.I., Platz E.A., Potter J.D., Qu C., Quiros J.R., Rennert G., Riboli E., Sakoda L.C., Schafmayer C., Schoen R.E., Slattery M.L., Tangen C.M., Tsilidis K.K., Ulrich C.M., van Duijnhoven F.J.B., van Guelpen B., Visvanathan K., Vodicka P., Vodickova L., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Campbell P.T., Zheng W., Peters U., Vincent E.E., Gunter M.J., Bull C.J., Bell J.A., Murphy N., Sanderson E., Davey Smith G., Timpson N.J., Banbury B.L., Albanes D., Hsu L., Berndt S.I., Bezieau S., Bishop D.T., Brenner H., Buchanan D.D., Burnett-Hartman A., Casey G., Castellvi-Bel S., Chan A.T., Chang-Claude J., Cross A.J., de la Chapelle A., Figueiredo J.C., Gallinger S.J., Gapstur S.M., Giles G.G., Gruber S.B., Gsur A., Hampe J., Hampel H., Harrison T.A., Hoffmeister M., Huang W.-Y., Huyghe J.R., Jenkins M.A., Joshu C.E., Keku T.O., Kuhn T., Kweon S.-S., Le Marchand L., Li C.I., Li L., Lindblom A., Martin V., May A.M., Milne R.L., Moreno V., Newcomb P.A., Offit K., Ogino S., Phipps A.I., Platz E.A., Potter J.D., Qu C., Quiros J.R., Rennert G., Riboli E., Sakoda L.C., Schafmayer C., Schoen R.E., Slattery M.L., Tangen C.M., Tsilidis K.K., Ulrich C.M., van Duijnhoven F.J.B., van Guelpen B., Visvanathan K., Vodicka P., Vodickova L., Wang H., White E., Wolk A., Woods M.O., Wu A.H., Campbell P.T., Zheng W., Peters U., Vincent E.E., Gunter M.J., Bull C.J., Bell J.A., Murphy N., Sanderson E., Davey Smith G., Timpson N.J., Banbury B.L., and Albanes D.
- Abstract
Background: Higher adiposity increases the risk of colorectal cancer (CRC), but whether this relationship varies by anatomical sub-site or by sex is unclear. Further, the metabolic alterations mediating the effects of adiposity on CRC are not fully understood. Method(s): We examined sex- and site-specific associations of adiposity with CRC risk and whether adiposity-associated metabolites explain the associations of adiposity with CRC. Genetic variants from genome-wide association studies of body mass index (BMI) and waist-to-hip ratio (WHR, unadjusted for BMI; N = 806,810), and 123 metabolites from targeted nuclear magnetic resonance metabolomics (N = 24,925), were used as instruments. Sex-combined and sex-specific Mendelian randomization (MR) was conducted for BMI and WHR with CRC risk (58,221 cases and 67,694 controls in the Genetics and Epidemiology of Colorectal Cancer Consortium, Colorectal Cancer Transdisciplinary Study, and Colon Cancer Family Registry). Sex-combined MR was conducted for BMI and WHR with metabolites, for metabolites with CRC, and for BMI and WHR with CRC adjusted for metabolite classes in multivariable models. Result(s): In sex-specific MR analyses, higher BMI (per 4.2 kg/m2) was associated with 1.23 (95% confidence interval (CI) = 1.08, 1.38) times higher CRC odds among men (inverse-variance-weighted (IVW) model); among women, higher BMI (per 5.2 kg/m2) was associated with 1.09 (95% CI = 0.97, 1.22) times higher CRC odds. WHR (per 0.07 higher) was more strongly associated with CRC risk among women (IVW OR = 1.25, 95% CI = 1.08, 1.43) than men (IVW OR = 1.05, 95% CI = 0.81, 1.36). BMI or WHR was associated with 104/123 metabolites at false discovery rate-corrected P <= 0.05; several metabolites were associated with CRC, but not in directions that were consistent with the mediation of positive adiposity-CRC relations. In multivariable MR analyses, associations of BMI and WHR with CRC were not attenuated following adjustment for representative
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- 2020
14. Genetic variant predictors of gene expression provide new insight into risk of colorectal cancer
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Bien, S.A. Su, Y.-R. Conti, D.V. Harrison, T.A. Qu, C. Guo, X. Lu, Y. Albanes, D. Auer, P.L. Banbury, B.L. Berndt, S.I. Bézieau, S. Brenner, H. Buchanan, D.D. Caan, B.J. Campbell, P.T. Carlson, C.S. Chan, A.T. Chang-Claude, J. Chen, S. Connolly, C.M. Easton, D.F. Feskens, E.J.M. Gallinger, S. Giles, G.G. Gunter, M.J. Hampe, J. Huyghe, J.R. Hoffmeister, M. Hudson, T.J. Jacobs, E.J. Jenkins, M.A. Kampman, E. Kang, H.M. Kühn, T. Küry, S. Lejbkowicz, F. Le Marchand, L. Milne, R.L. Li, L. Li, C.I. Lindblom, A. Lindor, N.M. Martín, V. McNeil, C.E. Melas, M. Moreno, V. Newcomb, P.A. Offit, K. Pharaoh, P.D.P. Potter, J.D. Qu, C. Riboli, E. Rennert, G. Sala, N. Schafmayer, C. Scacheri, P.C. Schmit, S.L. Severi, G. Slattery, M.L. Smith, J.D. Trichopoulou, A. Tumino, R. Ulrich, C.M. van Duijnhoven, F.J.B. Van Guelpen, B. Weinstein, S.J. White, E. Wolk, A. Woods, M.O. Wu, A.H. Abecasis, G.R. Casey, G. Nickerson, D.A. Gruber, S.B. Hsu, L. Zheng, W. Peters, U.
- Abstract
Genome-wide association studies have reported 56 independently associated colorectal cancer (CRC) risk variants, most of which are non-coding and believed to exert their effects by modulating gene expression. The computational method PrediXcan uses cis-regulatory variant predictors to impute expression and perform gene-level association tests in GWAS without directly measured transcriptomes. In this study, we used reference datasets from colon (n = 169) and whole blood (n = 922) transcriptomes to test CRC association with genetically determined expression levels in a genome-wide analysis of 12,186 cases and 14,718 controls. Three novel associations were discovered from colon transverse models at FDR ≤ 0.2 and further evaluated in an independent replication including 32,825 cases and 39,933 controls. After adjusting for multiple comparisons, we found statistically significant associations using colon transcriptome models with TRIM4 (discovery P = 2.2 × 10− 4, replication P = 0.01), and PYGL (discovery P = 2.3 × 10− 4, replication P = 6.7 × 10− 4). Interestingly, both genes encode proteins that influence redox homeostasis and are related to cellular metabolic reprogramming in tumors, implicating a novel CRC pathway linked to cell growth and proliferation. Defining CRC risk regions as one megabase up- and downstream of one of the 56 independent risk variants, we defined 44 non-overlapping CRC-risk regions. Among these risk regions, we identified genes associated with CRC (P < 0.05) in 34/44 CRC-risk regions. Importantly, CRC association was found for two genes in the previously reported 2q25 locus, CXCR1 and CXCR2, which are potential cancer therapeutic targets. These findings provide strong candidate genes to prioritize for subsequent laboratory follow-up of GWAS loci. This study is the first to implement PrediXcan in a large colorectal cancer study and findings highlight the utility of integrating transcriptome data in GWAS for discovery of, and biological insight into, risk loci. © 2019, The Author(s).
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- 2019
15. Discovery of common and rare genetic risk variants for colorectal cancer
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Huyghe, J.R. Bien, S.A. Harrison, T.A. Kang, H.M. Chen, S. Schmit, S.L. Conti, D.V. Qu, C. Jeon, J. Edlund, C.K. Greenside, P. Wainberg, M. Schumacher, F.R. Smith, J.D. Levine, D.M. Nelson, S.C. Sinnott-Armstrong, N.A. Albanes, D. Alonso, M.H. Anderson, K. Arnau-Collell, C. Arndt, V. Bamia, C. Banbury, B.L. Baron, J.A. Berndt, S.I. Bézieau, S. Bishop, D.T. Boehm, J. Boeing, H. Brenner, H. Brezina, S. Buch, S. Buchanan, D.D. Burnett-Hartman, A. Butterbach, K. Caan, B.J. Campbell, P.T. Carlson, C.S. Castellví-Bel, S. Chan, A.T. Chang-Claude, J. Chanock, S.J. Chirlaque, M.-D. Cho, S.H. Connolly, C.M. Cross, A.J. Cuk, K. Curtis, K.R. de la Chapelle, A. Doheny, K.F. Duggan, D. Easton, D.F. Elias, S.G. Elliott, F. English, D.R. Feskens, E.J.M. Figueiredo, J.C. Fischer, R. FitzGerald, L.M. Forman, D. Gala, M. Gallinger, S. Gauderman, W.J. Giles, G.G. Gillanders, E. Gong, J. Goodman, P.J. Grady, W.M. Grove, J.S. Gsur, A. Gunter, M.J. Haile, R.W. Hampe, J. Hampel, H. Harlid, S. Hayes, R.B. Hofer, P. Hoffmeister, M. Hopper, J.L. Hsu, W.-L. Huang, W.-Y. Hudson, T.J. Hunter, D.J. Ibañez-Sanz, G. Idos, G.E. Ingersoll, R. Jackson, R.D. Jacobs, E.J. Jenkins, M.A. Joshi, A.D. Joshu, C.E. Keku, T.O. Key, T.J. Kim, H.R. Kobayashi, E. Kolonel, L.N. Kooperberg, C. Kühn, T. Küry, S. Kweon, S.-S. Larsson, S.C. Laurie, C.A. Le Marchand, L. Leal, S.M. Lee, S.C. Lejbkowicz, F. Lemire, M. Li, C.I. Li, L. Lieb, W. Lin, Y. Lindblom, A. Lindor, N.M. Ling, H. Louie, T.L. Männistö, S. Markowitz, S.D. Martín, V. Masala, G. McNeil, C.E. Melas, M. Milne, R.L. Moreno, L. Murphy, N. Myte, R. Naccarati, A. Newcomb, P.A. Offit, K. Ogino, S. Onland-Moret, N.C. Pardini, B. Parfrey, P.S. Pearlman, R. Perduca, V. Pharoah, P.D.P. Pinchev, M. Platz, E.A. Prentice, R.L. Pugh, E. Raskin, L. Rennert, G. Rennert, H.S. Riboli, E. Rodríguez-Barranco, M. Romm, J. Sakoda, L.C. Schafmayer, C. Schoen, R.E. Seminara, D. Shah, M. Shelford, T. Shin, M.-H. Shulman, K. Sieri, S. Slattery, M.L. Southey, M.C. Stadler, Z.K. Stegmaier, C. Su, Y.-R. Tangen, C.M. Thibodeau, S.N. Thomas, D.C. Thomas, S.S. Toland, A.E. Trichopoulou, A. Ulrich, C.M. Van Den Berg, D.J. van Duijnhoven, F.J.B. Van Guelpen, B. van Kranen, H. Vijai, J. Visvanathan, K. Vodicka, P. Vodickova, L. Vymetalkova, V. Weigl, K. Weinstein, S.J. White, E. Win, A.K. Wolf, C.R. Wolk, A. Woods, M.O. Wu, A.H. Zaidi, S.H. Zanke, B.W. Zhang, Q. Zheng, W. Scacheri, P.C. Potter, J.D. Bassik, M.C. Kundaje, A. Casey, G. Moreno, V. Abecasis, G.R. Nickerson, D.A. Gruber, S.B. Hsu, L. Peters, U.
- Abstract
To further dissect the genetic architecture of colorectal cancer (CRC), we performed whole-genome sequencing of 1,439 cases and 720 controls, imputed discovered sequence variants and Haplotype Reference Consortium panel variants into genome-wide association study data, and tested for association in 34,869 cases and 29,051 controls. Findings were followed up in an additional 23,262 cases and 38,296 controls. We discovered a strongly protective 0.3% frequency variant signal at CHD1. In a combined meta-analysis of 125,478 individuals, we identified 40 new independent signals at P < 5 × 10 −8 , bringing the number of known independent signals for CRC to ~100. New signals implicate lower-frequency variants, Krüppel-like factors, Hedgehog signaling, Hippo-YAP signaling, long noncoding RNAs and somatic drivers, and support a role for immune function. Heritability analyses suggest that CRC risk is highly polygenic, and larger, more comprehensive studies enabling rare variant analysis will improve understanding of biology underlying this risk and influence personalized screening strategies and drug development. © 2018, This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply.
- Published
- 2019
16. Correction to: Genetic variant predictors of gene expression provide new insight into risk of colorectal cancer (Human Genetics, (2019), 138, 4, (307-326), 10.1007/s00439-019-01989-8)
- Author
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Bien, S.A. Su, Y.-R. Conti, D.V. Harrison, T.A. Qu, C. Guo, X. Lu, Y. Albanes, D. Auer, P.L. Banbury, B.L. Berndt, S.I. Bézieau, S. Brenner, H. Buchanan, D.D. Caan, B.J. Campbell, P.T. Carlson, C.S. Chan, A.T. Chang-Claude, J. Chen, S. Connolly, C.M. Easton, D.F. Feskens, E.J.M. Gallinger, S. Giles, G.G. Gunter, M.J. Hampe, J. Huyghe, J.R. Hoffmeister, M. Hudson, T.J. Jacobs, E.J. Jenkins, M.A. Kampman, E. Kang, H.M. Kühn, T. Küry, S. Lejbkowicz, F. Le Marchand, L. Milne, R.L. Li, L. Li, C.I. Lindblom, A. Lindor, N.M. Martín, V. McNeil, C.E. Melas, M. Moreno, V. Newcomb, P.A. Offit, K. Pharaoh, P.D.P. Potter, J.D. Qu, C. Riboli, E. Rennert, G. Sala, N. Schafmayer, C. Scacheri, P.C. Schmit, S.L. Severi, G. Slattery, M.L. Smith, J.D. Trichopoulou, A. Tumino, R. Ulrich, C.M. van Duijnhoven, F.J.B. Van Guelpen, B. Weinstein, S.J. White, E. Wolk, A. Woods, M.O. Wu, A.H. Abeçasis, G.R. Casey, G. Nickerson, D.A. Gruber, S.B. Hsu, L. Zheng, W. Peters, U.
- Abstract
Every author has erroneously been assigned to the affiliation “62”. The affiliation 62 belongs to the author Graham Casey. © 2019, Springer-Verlag GmbH Germany, part of Springer Nature.
- Published
- 2019
17. Erratum: Publisher Correction: Shared heritability and functional enrichment across six solid cancers (Nature communications (2019) 10 1 (431))
- Author
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Jiang, X. (Xia), Finucane, H.K. (Hilary K.), Schumacher, F.R. (Fredrick R), Schmit, S.L. (Stephanie L.), Tyrer, J.P. (Jonathan P.), Han, Y. (Younghun), Michailidou, K. (Kyriaki), Lesseur, C. (Corina), Kuchenbaecker, K.B. (Karoline), Dennis, J. (Joe), Conti, G. (Giario), Casey, G. (Graham), Gaudet, M.M. (Mia M.), Huyghe, J.R. (Jeroen R.), Albanes, D. (Demetrius), Aldrich, M.C. (Melinda), Andrew, A.S. (Angeline S.), Andrulis, I.L. (Irene L.), Anton-Culver, H. (Hoda), Antoniou, A.C. (Antonis C.), Antonenkova, N.N. (Natalia N.), Arnold, S.M. (Susanne M.), Aronson, K.J. (Kristan J.), Arun, B.K. (Banu), Bandera, E.V. (Elisa), Barkardottir, R.B. (Rosa B.), Barnes, D. (Daniel), Batra, J. (Jyotsna), Beckmann, M.W. (Matthias), Benítez, J. (Javier), Benlloch, S. (Sara), Berchuck, A. (Andrew), Berndt, S.I. (Sonja), Bickeböller, H. (Heike), Bien, S.A. (Stephanie A.), Blomqvist, C. (Carl), Boccia, S. (Stefania), Bogdanova, N.V. (Natalia V.), Bojesen, S.E. (Stig), Bolla, M.K. (Manjeet K.), Brauch, H. (Hiltrud), Brenner, H. (Hermann), Brenton, J.D. (James D.), Brook, R.H., Brunet, J. (Joan), Brunnström, H. (Hans), Buchanan, D.D. (Daniel D.), Burwinkel, B. (Barbara), Butzow, R. (Ralf), Cadoni, G. (Gabriella), Caldes, T. (Trinidad), Caligo, M.A. (Maria A.), Campbell, I. (Ian), Campbell, P.T. (Peter T.), Cancel-Tassin, G. (Géraldine), Cannon-Albright, L.A. (Lisa), Campa, D. (Daniele), Caporaso, N.E. (Neil), Carvalho, A.L. (André L), Chan, A.T. (Andrew T.), Chang-Claude, J. (Jenny), Chanock, S.J. (Stephen), Chen, C. (Chu), Christiani, D.C. (David C.), Claes, K.B.M. (Kathleen B M), Claessens, F. (Frank), Clements, J. (Judith), Collée, J.M. (J Margriet), Correa, M.C. (Marcia Cruz), Couch, F.J. (Fergus), Cox, A. (Angela), Cunningham, J.M. (Julie), Cybulski, C. (Cezary), Czene, K. (Kamila), Daly, M.B. (Mary), DeFazio, A. (Anna), Devilee, P. (Peter), Diez, O. (Orland), Gago-Dominguez, M. (Manuela), Donovan, J.L. (Jenny L.), Dörk, T. (Thilo), Duell, E.J. (Eric), Dunning, A.M. (Alison M.), Dwek, M. (Miriam), Eccles, D. (Diana), Edlund, C.K. (Christopher), Edwards, D.R.V. (Digna R Velez), Ellberg, C. (Carolina), Evans, D.G. (D Gareth), Fasching, P.A. (Peter), Ferris, R.L. (Robert L.), Liloglou, T. (Triantafillos), Figueiredo, J.C. (Jane C.), Fletcher, O. (Olivia), Fortner, R.T. (Renée T), Fostira, F. (Florentia), Franceschi, S. (Silvia), Friedman, E. (Eitan), Gallinger, S. (Steve), Ganz, P.A. (Patricia), Garber, J. (Judy), García-Sáenz, J.A. (José A), Gayther, S.A. (Simon), Giles, G.G. (Graham G.), Godwin, A.K. (Andrew K.), Goldberg, M.S. (Mark), Goldgar, D.E. (David E.), Goode, E.L. (Ellen), Goodman, M.T. (Marc), Goodman, G. (Gary), Grankvist, K. (Kjell), Greene, M.H. (Mark H.), Grönberg, H. (Henrik), Gronwald, J. (Jacek), Guénel, P. (Pascal), Håkansson, N. (Niclas), Hall, P. (Per), Hamann, U. (Ute), Hamdy, F. (Freddie), Hamilton, R.J. (Robert J.), Hampe, J. (Jochen), Haugen, A. (Aage), Heitz, F. (Florian), Herrero, R. (Rolando), Hillemanns, P. (Peter), Hoffmeister, M. (Michael), Høgdall, E. (Estrid), Hong, Y.-C. (Yun-Chul), Hopper, J.L. (John), Houlston, R. (Richard), Hulick, P.J. (Peter J.), Hunter, D.J. (David), Huntsman, D.G. (David G.), Idos, G. (Gregory), Imyanitov, E.N. (Evgeny), Ingles, S.A. (Sue), Isaacs, C. (Claudine), Jakubowska, A. (Anna), James, M. (Margaret), Jenkins, M.A. (Mark A.), Johansson, M. (Mattias), Johansson, M. (Mikael), John, E.M. (Esther), Joshi, A.D. (Amit D.), Kaneva, R. (Radka), Karlan, B.Y. (Beth), Kelemen, L.E. (Linda E.), Kühl, T. (Tabea), Khaw, K.-T. (Kay-Tee), Khusnutdinova, E.K. (Elza), Kibel, A. (Adam), Kiemeney, L.A. (Lambertus A.), Kim, J. (Jongoh), Kjaer, M. (Michael), Knight, J.A. (Julia), Kogevinas, M. (Manolis), Kote-Jarai, Z., Koutros, S. (Stella), Kristensen, V. (Vessela), Kupryjanczyk, J. (Jolanta), Lacko, M. (Martin), Lam, S. (Stephan), Lambrechts, D. (Diether), Landi, M.T. (Maria Teresa), Lazarus, P. (Philip), Le, N.D. (Nhu D.), Lee, E. (Eunjung), Lejbkowicz, F. (Flavio), Lenz, H.-J. (Heinz-Josef), Leslie, G. (Goska), Lessel, D. (Davor), Lester, J. (Jenny), Levine, D.A. (Douglas), Li, L. (Li), Li, C.I. (Christopher I.), Lindblom, A. (Annika), Lindor, N.M. (Noralane), Liu, G. (Geoffrey), Loupakis, F. (Fotios), Lubinski, J. (Jan), Maehle, L., Maier, C. (Christiane), Mannermaa, A. (Arto), Le Marchand, L. (Loic), Margolin, S. (Sara), May, T. (Taymaa), McGuffog, L. (Lesley), Meindl, A. (Alfons), Middha, P. (Pooja), Miller, A. (Austin), Milne, R.L. (Roger), MacInnis, R.J. (Robert J.), Modugno, F. (Francesmary), Montagna, M. (Marco), Moreno, V. (Víctor), Moysich, K.B. (Kirsten), Mucci, L. (Lorelei), Muir, K. (Kenneth), Mulligan, A.-M. (Anna-Marie), Nathanson, K.L. (Katherine), Neal, D. (David), Ness, A.R. (Andrew R.), Neuhausen, S.L. (Susan L.), Nevanlinna, H. (Heli), Newcomb, P. (Polly), Newcomb, L.F. (Lisa F.), Nielsen, F. (Finn), Nikitina-Zake, L. (Liene), Nordestgaard, B.G. (Børge), Nussbaum, R. (Robert), Offit, K. (Kenneth), Olah, E. (Edith), Olama, A.A.A. (Ali Amin Al), Olopade, O.I. (Olofunmilayo), Olshan, A.F. (Andrew F.), Olsson, H. (Håkan), Osorio, A. (Ana), Pandha, H. (Hardev), Park, J.Y. (Jong Y.), Pashayan, N. (Nora), Parsons, M. (Marilyn), Pejovic, T. (Tanja), Penney, K.L. (Kathryn L.), Peters, W.H.M. (Wilbert), Phelan, C. (Catherine), Phipps, A.I. (Amanda I.), Plaseska-Karanfilska, D. (Dijana), Pring, M. (Miranda), Prokofyeva, D. (Darya), Radice, P. (Paolo), Stefansson, K. (Kari), Ramus, S.J. (Susan), Raskin, L. (Leon), Rennert, G. (Gad), Rennert, H.S. (Hedy S.), Rensburg, E.J. (Elizabeth) van, Riggan, M.J. (Marjorie J.), Risch, H.A. (Harvey A.), Risch, A. (Angela), Roobol, M.J. (Monique J.), Rosenstein, B.S. (Barry S.), Rossing, M.A. (Mary Anne), De Ruyck, K. (Kim), Saloustros, E. (Emmanouil), Sandler, D.P. (Dale P.), Sawyer, E.J. (Elinor J.), Schabath, M.B. (Matthew), Schleutker, J. (Johanna), Schmidt, M.K. (Marjanka), Setiawan, V.W. (V Wendy), Shen, H. (Hongbing), Siegel, E.M. (Erin M.), Sieh, W. (Weiva), Singer, C.F. (Christian), Slattery, M.L. (Martha L.), Sorensen, K.D. (Karina Dalsgaard), Southey, M.C. (Melissa), Spurdle, A.B. (Amanda), Stanford, J.L. (Janet L.), Stevens, V.L. (Victoria L.), Stintzing, S. (Sebastian), Stone, J. (Jennifer), Sundfeldt, K. (Karin), Sutphen, R. (Rebecca), Swerdlow, A.J. (Anthony ), Tajara, E.H. (Eloiza H.), Tangen, C.M. (Catherine M.), Tardón, A. (Adonina), Taylor, J.A. (Jack A.), Teare, M.D. (M Dawn), Teixeira, P.J., Terry, M.B. (Mary Beth), Terry, K.L. (Kathryn L.), Thibodeau, S.N. (Stephen), Thomassen, M. (Mads), Bjørge, L. (Line), Tischkowitz, M. (Marc), Toland, A.E. (Amanda), Torres, D. (Diana), Townsend, P.A. (Paul A.), Travis, S.P.L. (Simon), Tung, N. (Nadine), Tworoger, S. (Shelley), Ulrich, C. (Cornelia), Usmani, N. (Nawaid), Vachon, C. (Celine), Van Nieuwenhuysen, E. (Els), Vega, A. (Ana), Aguado-Barrera, M.E. (Miguel Elías), Wang, Q. (Qin), Webb, P. (Penny), Weinberg, C.R. (Clarice R.), Weinstein, S. (Stephanie), Weissler, M.C. (Mark C.), Weitzel, J.N. (Jeffrey), West, C.M.L. (Catharine M L), White, E. (Emily), Whittemore, A.S. (Alice), Wichmann, H.-E. (H-Erich), Wiklund, F. (Fredrik), Winqvist, R. (Robert), Wolk, K. (Kerstin), Woll, P.J. (Penella J), Woods, M.O. (Michael), Wu, A.H. (Anna H.), Wu, X. (Xifeng), Yannoukakos, D. (Drakoulis), Zheng, W. (Wei), Zienolddiny, S. (Shanbeh), Ziogas, A. (Argyrios), Zorn, K.K. (Kristin K.), Lane, J.M. (Jacqueline M.), Saxena, R. (Richa), Thomas, D.C. (Duncan), Hung, R.J. (Rayjean J.), Diergaarde, B. (Brenda), McKay, J. (James), Peters, U. (Ulrike), Hsu, L. (Li), García-Closas, M. (Montserrat), Eeles, R.A. (Rosalind A.), Chenevix-Trench, G. (Georgia), Brennan, P.J. (Paul J.), Haiman, C.A. (Christopher), Simard, J. (Jacques), Easton, D.F. (Douglas), Gruber, S.B. (Stephen), Pharoah, P.D.P. (Paul), Price, A.L. (Alkes L.), Pasaniuc, B. (Bogdan), Amos, C.I. (Christopher I.), Kraft, P. (Peter), Lindström, S. (Sara), Jiang, X. (Xia), Finucane, H.K. (Hilary K.), Schumacher, F.R. (Fredrick R), Schmit, S.L. (Stephanie L.), Tyrer, J.P. (Jonathan P.), Han, Y. (Younghun), Michailidou, K. (Kyriaki), Lesseur, C. (Corina), Kuchenbaecker, K.B. (Karoline), Dennis, J. (Joe), Conti, G. (Giario), Casey, G. (Graham), Gaudet, M.M. (Mia M.), Huyghe, J.R. (Jeroen R.), Albanes, D. (Demetrius), Aldrich, M.C. (Melinda), Andrew, A.S. (Angeline S.), Andrulis, I.L. (Irene L.), Anton-Culver, H. (Hoda), Antoniou, A.C. (Antonis C.), Antonenkova, N.N. (Natalia N.), Arnold, S.M. (Susanne M.), Aronson, K.J. (Kristan J.), Arun, B.K. (Banu), Bandera, E.V. (Elisa), Barkardottir, R.B. (Rosa B.), Barnes, D. (Daniel), Batra, J. (Jyotsna), Beckmann, M.W. (Matthias), Benítez, J. (Javier), Benlloch, S. (Sara), Berchuck, A. (Andrew), Berndt, S.I. (Sonja), Bickeböller, H. (Heike), Bien, S.A. (Stephanie A.), Blomqvist, C. (Carl), Boccia, S. (Stefania), Bogdanova, N.V. (Natalia V.), Bojesen, S.E. (Stig), Bolla, M.K. (Manjeet K.), Brauch, H. (Hiltrud), Brenner, H. (Hermann), Brenton, J.D. (James D.), Brook, R.H., Brunet, J. (Joan), Brunnström, H. (Hans), Buchanan, D.D. (Daniel D.), Burwinkel, B. (Barbara), Butzow, R. (Ralf), Cadoni, G. (Gabriella), Caldes, T. (Trinidad), Caligo, M.A. (Maria A.), Campbell, I. (Ian), Campbell, P.T. (Peter T.), Cancel-Tassin, G. (Géraldine), Cannon-Albright, L.A. (Lisa), Campa, D. (Daniele), Caporaso, N.E. (Neil), Carvalho, A.L. (André L), Chan, A.T. (Andrew T.), Chang-Claude, J. (Jenny), Chanock, S.J. (Stephen), Chen, C. (Chu), Christiani, D.C. (David C.), Claes, K.B.M. (Kathleen B M), Claessens, F. (Frank), Clements, J. (Judith), Collée, J.M. (J Margriet), Correa, M.C. (Marcia Cruz), Couch, F.J. (Fergus), Cox, A. (Angela), Cunningham, J.M. (Julie), Cybulski, C. (Cezary), Czene, K. (Kamila), Daly, M.B. (Mary), DeFazio, A. (Anna), Devilee, P. (Peter), Diez, O. (Orland), Gago-Dominguez, M. (Manuela), Donovan, J.L. (Jenny L.), Dörk, T. (Thilo), Duell, E.J. (Eric), Dunning, A.M. (Alison M.), Dwek, M. (Miriam), Eccles, D. (Diana), Edlund, C.K. (Christopher), Edwards, D.R.V. (Digna R Velez), Ellberg, C. (Carolina), Evans, D.G. (D Gareth), Fasching, P.A. (Peter), Ferris, R.L. (Robert L.), Liloglou, T. (Triantafillos), Figueiredo, J.C. (Jane C.), Fletcher, O. (Olivia), Fortner, R.T. (Renée T), Fostira, F. (Florentia), Franceschi, S. (Silvia), Friedman, E. (Eitan), Gallinger, S. (Steve), Ganz, P.A. (Patricia), Garber, J. (Judy), García-Sáenz, J.A. (José A), Gayther, S.A. (Simon), Giles, G.G. (Graham G.), Godwin, A.K. (Andrew K.), Goldberg, M.S. (Mark), Goldgar, D.E. (David E.), Goode, E.L. (Ellen), Goodman, M.T. (Marc), Goodman, G. (Gary), Grankvist, K. (Kjell), Greene, M.H. (Mark H.), Grönberg, H. (Henrik), Gronwald, J. (Jacek), Guénel, P. (Pascal), Håkansson, N. (Niclas), Hall, P. (Per), Hamann, U. (Ute), Hamdy, F. (Freddie), Hamilton, R.J. (Robert J.), Hampe, J. (Jochen), Haugen, A. (Aage), Heitz, F. (Florian), Herrero, R. (Rolando), Hillemanns, P. (Peter), Hoffmeister, M. (Michael), Høgdall, E. (Estrid), Hong, Y.-C. (Yun-Chul), Hopper, J.L. (John), Houlston, R. (Richard), Hulick, P.J. (Peter J.), Hunter, D.J. (David), Huntsman, D.G. (David G.), Idos, G. (Gregory), Imyanitov, E.N. (Evgeny), Ingles, S.A. (Sue), Isaacs, C. (Claudine), Jakubowska, A. (Anna), James, M. (Margaret), Jenkins, M.A. (Mark A.), Johansson, M. (Mattias), Johansson, M. (Mikael), John, E.M. (Esther), Joshi, A.D. (Amit D.), Kaneva, R. (Radka), Karlan, B.Y. (Beth), Kelemen, L.E. (Linda E.), Kühl, T. (Tabea), Khaw, K.-T. (Kay-Tee), Khusnutdinova, E.K. (Elza), Kibel, A. (Adam), Kiemeney, L.A. (Lambertus A.), Kim, J. (Jongoh), Kjaer, M. (Michael), Knight, J.A. (Julia), Kogevinas, M. (Manolis), Kote-Jarai, Z., Koutros, S. (Stella), Kristensen, V. (Vessela), Kupryjanczyk, J. (Jolanta), Lacko, M. (Martin), Lam, S. (Stephan), Lambrechts, D. (Diether), Landi, M.T. (Maria Teresa), Lazarus, P. (Philip), Le, N.D. (Nhu D.), Lee, E. (Eunjung), Lejbkowicz, F. (Flavio), Lenz, H.-J. (Heinz-Josef), Leslie, G. (Goska), Lessel, D. (Davor), Lester, J. (Jenny), Levine, D.A. (Douglas), Li, L. (Li), Li, C.I. (Christopher I.), Lindblom, A. (Annika), Lindor, N.M. (Noralane), Liu, G. (Geoffrey), Loupakis, F. (Fotios), Lubinski, J. (Jan), Maehle, L., Maier, C. (Christiane), Mannermaa, A. (Arto), Le Marchand, L. (Loic), Margolin, S. (Sara), May, T. (Taymaa), McGuffog, L. (Lesley), Meindl, A. (Alfons), Middha, P. (Pooja), Miller, A. (Austin), Milne, R.L. (Roger), MacInnis, R.J. (Robert J.), Modugno, F. (Francesmary), Montagna, M. (Marco), Moreno, V. (Víctor), Moysich, K.B. (Kirsten), Mucci, L. (Lorelei), Muir, K. (Kenneth), Mulligan, A.-M. (Anna-Marie), Nathanson, K.L. (Katherine), Neal, D. (David), Ness, A.R. (Andrew R.), Neuhausen, S.L. (Susan L.), Nevanlinna, H. (Heli), Newcomb, P. (Polly), Newcomb, L.F. (Lisa F.), Nielsen, F. (Finn), Nikitina-Zake, L. (Liene), Nordestgaard, B.G. (Børge), Nussbaum, R. (Robert), Offit, K. (Kenneth), Olah, E. (Edith), Olama, A.A.A. (Ali Amin Al), Olopade, O.I. (Olofunmilayo), Olshan, A.F. (Andrew F.), Olsson, H. (Håkan), Osorio, A. (Ana), Pandha, H. (Hardev), Park, J.Y. (Jong Y.), Pashayan, N. (Nora), Parsons, M. (Marilyn), Pejovic, T. (Tanja), Penney, K.L. (Kathryn L.), Peters, W.H.M. (Wilbert), Phelan, C. (Catherine), Phipps, A.I. (Amanda I.), Plaseska-Karanfilska, D. (Dijana), Pring, M. (Miranda), Prokofyeva, D. (Darya), Radice, P. (Paolo), Stefansson, K. (Kari), Ramus, S.J. (Susan), Raskin, L. (Leon), Rennert, G. (Gad), Rennert, H.S. (Hedy S.), Rensburg, E.J. (Elizabeth) van, Riggan, M.J. (Marjorie J.), Risch, H.A. (Harvey A.), Risch, A. (Angela), Roobol, M.J. (Monique J.), Rosenstein, B.S. (Barry S.), Rossing, M.A. (Mary Anne), De Ruyck, K. (Kim), Saloustros, E. (Emmanouil), Sandler, D.P. (Dale P.), Sawyer, E.J. (Elinor J.), Schabath, M.B. (Matthew), Schleutker, J. (Johanna), Schmidt, M.K. (Marjanka), Setiawan, V.W. (V Wendy), Shen, H. (Hongbing), Siegel, E.M. (Erin M.), Sieh, W. (Weiva), Singer, C.F. (Christian), Slattery, M.L. (Martha L.), Sorensen, K.D. (Karina Dalsgaard), Southey, M.C. (Melissa), Spurdle, A.B. (Amanda), Stanford, J.L. (Janet L.), Stevens, V.L. (Victoria L.), Stintzing, S. (Sebastian), Stone, J. (Jennifer), Sundfeldt, K. (Karin), Sutphen, R. (Rebecca), Swerdlow, A.J. (Anthony ), Tajara, E.H. (Eloiza H.), Tangen, C.M. (Catherine M.), Tardón, A. (Adonina), Taylor, J.A. (Jack A.), Teare, M.D. (M Dawn), Teixeira, P.J., Terry, M.B. (Mary Beth), Terry, K.L. (Kathryn L.), Thibodeau, S.N. (Stephen), Thomassen, M. (Mads), Bjørge, L. (Line), Tischkowitz, M. (Marc), Toland, A.E. (Amanda), Torres, D. (Diana), Townsend, P.A. (Paul A.), Travis, S.P.L. (Simon), Tung, N. (Nadine), Tworoger, S. (Shelley), Ulrich, C. (Cornelia), Usmani, N. (Nawaid), Vachon, C. (Celine), Van Nieuwenhuysen, E. (Els), Vega, A. (Ana), Aguado-Barrera, M.E. (Miguel Elías), Wang, Q. (Qin), Webb, P. (Penny), Weinberg, C.R. (Clarice R.), Weinstein, S. (Stephanie), Weissler, M.C. (Mark C.), Weitzel, J.N. (Jeffrey), West, C.M.L. (Catharine M L), White, E. (Emily), Whittemore, A.S. (Alice), Wichmann, H.-E. (H-Erich), Wiklund, F. (Fredrik), Winqvist, R. (Robert), Wolk, K. (Kerstin), Woll, P.J. (Penella J), Woods, M.O. (Michael), Wu, A.H. (Anna H.), Wu, X. (Xifeng), Yannoukakos, D. (Drakoulis), Zheng, W. (Wei), Zienolddiny, S. (Shanbeh), Ziogas, A. (Argyrios), Zorn, K.K. (Kristin K.), Lane, J.M. (Jacqueline M.), Saxena, R. (Richa), Thomas, D.C. (Duncan), Hung, R.J. (Rayjean J.), Diergaarde, B. (Brenda), McKay, J. (James), Peters, U. (Ulrike), Hsu, L. (Li), García-Closas, M. (Montserrat), Eeles, R.A. (Rosalind A.), Chenevix-Trench, G. (Georgia), Brennan, P.J. (Paul J.), Haiman, C.A. (Christopher), Simard, J. (Jacques), Easton, D.F. (Douglas), Gruber, S.B. (Stephen), Pharoah, P.D.P. (Paul), Price, A.L. (Alkes L.), Pasaniuc, B. (Bogdan), Amos, C.I. (Christopher I.), Kraft, P. (Peter), and Lindström, S. (Sara)
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18. Rare and low-frequency coding variants alter human adult height
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Marouli, E. (Eirini), Graff, M.J. (Maud J.L.), Medina-Gomez, C. (Carolina), Lo, K.S., Wood, A.R. (Andrew), Kjaer, T.R. (Troels R.), Fine, R.S. (Rebecca S.), Lu, Y. (Yingchang), Schurmann, C. (Claudia), Highland, H. (Heather), Rüeger, S. (Sina), Thorleifsson, G. (Gudmar), Justice, A.E. (Anne), Lamparter, D. (David), Stirrups, K. (Kathy), Turcot, V. (Valérie), Young, K.L. (Kristin L.), Winkler, T.W. (Thomas W.), Esko, T. (Tõnu), Karaderi, T. (Tugce), Locke, A. (Adam), Masca, N.G.D. (Nicholas G.D.), Ng, M.C.Y. (Maggie C.Y.), Mudgal, P. (Poorva), Rivas, M.A. (Manuel), Vedantam, S. (Sailaja), Mahajan, A. (Anubha), Guo, X. (Xiuqing), Abecasis, G.R. (Gonçalo), Aben, K.K.H. (Katja), Adair, L.S. (Linda), Alam, D.S. (Dewan S.), Albrecht, E. (Eva), Allin, K.H. (Kristine H), Allison, M.A. (Matthew), Amouyel, P. (Philippe), Appel, E.V. (Emil V.), Arveiler, D. (Dominique), Asselbergs, F.W. (Folkert), Auer, P. (Paul), Balkau, B. (Beverley), Banas, B. (Bernhard), Bang, L.E. (Lia E.), Benn, M. (Marianne), Bergmann, S. (Sven), Bielak, L.F. (Lawrence F.), Blüher, M. (Matthias), Boeing, H. (Heiner), Boerwinkle, E.A. (Eric), Böger, C.A. (Carsten), Bonnycastle, L.L. (Lori), Bork-Jensen, J. (Jette), Bots, M.L. (Michiel), Bottinger, E.P. (Erwin), Bowden, D.W. (Donald), Brandslund, I. (Ivan), Breen, G. (Gerome), Brilliant, M.H. (Murray H.), Broer, L. (Linda), Burt, A.D. (Alastair), Butterworth, A.S. (Adam), Carey, D.J. (David J.), Caulfield, M. (Mark), Chambers, J.C. (John), Chasman, D.I. (Daniel), Chen, Y.-D.I. (Yii-Der Ida), Chowdhury, R. (Rajiv), Christensen, C. (Cramer), Chu, A.Y. (Audrey), Cocca, M. (Massimiliano), Collins, F.S. (Francis), Cook, J.P. (James P.), Corley, J. (Janie), Galbany, J.C. (Jordi Corominas), Cox, A.J. (Amanda J.), Cuellar-Partida, G. (Gabriel), Danesh, J. (John), Davies, G. (Gail), Bakker, P.I.W. (Paul) de, Borst, G.J. (Gert) de, De Denus, S. (Simon), De Groot, M.C.H. (Mark C.H.), Mutsert, R. (Reneé) de, Deary, I.J. (Ian), Dedoussis, G.V. (George), Demerath, E.W. (Ellen), Hollander, A.I. (Anneke), Dennis, J. (Joe), Angelantonio, E. (Emanuele) di, Drenos, F. (Fotios), Du, M. (Mengmeng), Dunning, A.M. (Alison M.), Easton, D.F. (Douglas), Ebeling, T. (Tapani), Edwards, T.L. (Todd L.), Ellinor, P.T. (Patrick), Elliott, P. (Paul), Evangelou, E. (Evangelos), Farmaki, A.-E. (Aliki-Eleni), Faul, J.D. (Jessica D.), Feitosa, M.F. (Mary Furlan), Feng, S. (Shuang), Ferrannini, E. (Ele), Ferrario, M.M. (Marco M.), Ferrieres, J. (Jean), Florez, J.C. (Jose), Ford, I., Fornage, M. (Myriam), Franks, P.W. (Paul), Frikke-Schmidt, R. (Ruth), Galesloot, T.E. (Tessel), Gan, W. (Wei), Gandin, I. (Ilaria), Gasparini, P. (Paolo), Giedraitis, V. (Vilmantas), Giri, A. (Ayush), Girotto, S., Gordon, S.D. (Scott D.), Gordon-Larsen, P. (Penny), Gorski, M. (Mathias), Grarup, N. (Niels), Grove, M.L. (Megan), Gudnason, V. (Vilmundur), Gustafsson, S. (Stefan), Hansen, T. (T.), Harris, K.M. (Kathleen Mullan), Harris, T.B. (Tamara), Hattersley, A.T. (Andrew), Hayward, C. (Caroline), He, L. (Liang), Heid, I.M. (Iris), Heikkilä, K. (Kauko), Helgeland, Ø. (Øyvind), Hernesniemi, J. (Jussi), Hewit, A.W. (Alex), Hocking, L.J. (Lynne), Hollensted, M. (Mette), Holmen, O.L. (Oddgeir), Hovingh, G.K. (Kees), Howson, J.M.M. (Joanna M.M.), Hoyng, C.B. (Carel), Huang, P.L. (Paul L.), Hveem, K. (Kristian), Ikram, M.K. (Kamran), Ingelsson, E. (Erik), Jackson, A.U. (Anne), Jansson, J.-H. (Jan-Håkan), Jarvik, G.P. (Gail), Jensen, G.B. (Gorm B.), Jhun, M.A. (Min A.), Jia, Y. (Yucheng), Jiang, X. (Xuejuan), Johansson, S. (Stefan), Jørgensen, M.E. (Marit E.), Jorgensen, T. (Torben), Jousilahti, P. (Pekka), Jukema, J.W. (Jan Wouter), Kahali, B. (Bratati), Kahn, R. (René), Kähönen, M. (Mika), Kamstrup, P.R. (Pia R.), Kanoni, S. (Stavroula), Kaprio, J. (Jaakko), Karaleftheri, M. (Maria), Kardia, S.L.R. (Sharon L.R.), Karpe, F. (Fredrik), Kee, F. (Frank), Keeman, J.N., Kiemeney, L.A.L.M. (Bart), Kitajima, H. (Hidetoshi), Kluivers, K.B. (Kirsten B.), Kocher, T., Komulainen, P. (Pirjo), Kontto, J. (Jukka), Kooner, J.S. (Jaspal S.), Kooperberg, C. (Charles), Kovacs, P. (Peter), Kriebel, J. (Jennifer), Kuivaniemi, H. (Helena), Küry, S. (Sébastien), Kuusisto, J. (Johanna), La Bianca, M. (Martina), Laakso, M. (Markku), Lakka, T.A. (Timo), Lange, E.M. (Ethan), Lange, L.A. (Leslie), Langefeld, C.D. (Carl), Langenberg, C. (Claudia), Larson, E.B. (Eric B.), Lee, I.-T. (I-Te), Lehtimäki, T. (Terho), Lewis, C.E. (Cora E.), Li, H. (Huaixing), Li, J. (Jin), Li-Gao, R. (Ruifang), Lin, H. (Honghuang), Lin, L.-A. (Li-An), Lin, X. (Xu), Kao, W.H.L. (Wen), Lindström, J. (Jaana), Linneberg, A. (Allan), Liu, Y. (Yeheng), Liu, Y. (YongMei), Lophatananon, A. (Artitaya), Luan, J. (Jian'An), Lubitz, S.A. (Steven), Lyytikäinen, L.-P. (Leo-Pekka), Mackey, D.A. (David A.), Madden, P.A. (Pamela), Manning, A.K. (Alisa), Männistö, S. (Satu), Marenne, G. (Gaëlle), Marten, J. (Jonathan), Martin, N.G. (Nicholas), Mazul, A.L. (Angela L.), Meidtner, K. (Karina), Metspalu, A. (Andres), Mitchell, P. (Paul), Mohlke, K.L. (Karen), Mook-Kanamori, D.O. (Dennis), Morgan, A. (Anna), Morris, A.D. (Andrew D.), Morris, A.P. (Andrew), Müller-Nurasyid, M. (Martina), Munroe, P. (Patricia), Nalls, M.A. (Michael), Nauck, M. (Matthias), Nelson, C.P. (Christopher P.), Neville, M.J. (Matthew), Nielsen, S.F. (Sune), Nikus, K. (Kjell), Njolstad, P. (Pal), Nordestgaard, B.G. (Børge), Ntalla, I. (Ioanna), O'Connel, J.R. (Jeffrey R.), Oksa, H. (Heikki), Loohuis, L.M.O. (Loes M. Olde), Ophoff, R.A. (Roel), Owen, K.R. (Katharine R.), Packard, C.J. (Chris J.), Padmanabhan, S. (Sandosh), Palmer, C.N.A. (Colin), Pasterkamp, G. (Gerard), Patel, A.P. (Aniruddh), Pattie, A. (Alison), Pedersen, O. (Oluf), Peissig, P.L. (Peggy L.), Peloso, G.M. (Gina), Pennell, C.E. (Craig), Perola, M. (Markus), Perry, J.A. (James A.), Perry, J.R.B. (John R.B.), Person, A.D. (Anthony), Pirie, A. (Ailith), Polasek, O. (Ozren), Posthuma, D. (Danielle), Raitakari, O.T. (Olli T.), Rasheed, A. (Asif), Rauramaa, R. (Rainer), Reilly, D.F. (Dermot F.), Reiner, A. (Alexander), Renström, F. (Frida), Ridker, P.M. (Paul), Rioux, J.D. (John), Robertson, N.R. (Neil), Robino, A. (Antonietta), Rolandsson, O. (Olov), Rudan, I. (Igor), Ruth, K.S. (Katherine S.), Saleheen, D. (Danish), Salomaa, V. (Veikko), Samani, N.J. (Nilesh), Sandow, K. (Kevin), Sapkota, Y. (Yadav), Sattar, N. (Naveed), Schmidt, M.K. (Marjanka), Schreiner, P.J. (Pamela), Schulze, M.B. (Matthias B), Scott, R.A. (Robert), Segura-Lepe, M.P. (Marcelo P.), Shah, S.H. (Svati), Sim, X. (Xueling), Sivapalaratnam, S. (Suthesh), Small, K.S. (Kerrin), Smith, A.V. (Albert Vernon), Smith, J.A. (Jennifer A), Southam, L. (Lorraine), Spector, T.D. (Timothy), Speliotes, E.K. (Elizabeth K.), Starr, J.M. (John), Steinthorsdottir, V. (Valgerdur), Stringham, H.M. (Heather), Stumvoll, M. (Michael), Surendran, P. (Praveen), Hart't, L.M. (Leen M.), Tansey, K.E. (Katherine E.), Tardif, J.-C. (Jean-Claude), Taylor, K.D. (Kent), Teumer, A. (Alexander), Thompson, D. (Deborah), Thorsteinsdottir, U. (Unnur), Thuesen, B.H. (Betina H.), Tönjes, A. (Anke), Tromp, G. (Gerard), Trompet, S. (Stella), Tsafantakis, E. (Emmanouil), Tuomilehto, J. (Jaakko), Tybjaerg-Hansen, A. (Anne), Tyrer, J.P. (Jonathan), Uher, R., Uitterlinden, A.G. (André), Ulivi, S. (Sheila), Van Der Laan, S.W. (Sander W.), Van Der Leij, A.R. (Andries R.), Duijn, C.M. (Cornelia) van, Schoor, N.M. (Natasja) van, Setten, J. (Jessica) van, Varbo, A. (Anette), Varga, T.V. (Tibor V.), Varma, R. (Rohit), Velez Edwards, D.R. (Digna R.), Vermeulen, S.H.H.M. (Sita), Vestergaard, H. (Henrik), Vitart, V. (Veronique), Vogt, T.F. (Thomas F.), Vozzi, D. (Diego), Walker, M. (Mark), Wang, F. (Feijie), Wang, C.A. (Carol A.), Wang, S. (Shuai), Wang, Y. (Yiqin), Wareham, N.J. (Nicholas J.), Warren, H. (Helen), Wessel, J. (Jennifer), Willems, S.M. (Sara), Wilson, J.F. (James), Witte, D.R. (Deniel), Woods, M.O. (Michael), Wu, Y. (Ying), Yaghootkar, H. (Hanieh), Yao, J. (Jiefen), Yao, P. (Pang), Yerges-Armstrong, L.M. (Laura), Young, R. (Robin), Zeggini, E. (Eleftheria), Zhan, X. (Xiaowei), Zhang, W. (Weihua), Zhao, J.H. (Jing Hua), Zhao, W. (Wei), Zheng, H. (He), Zhou, W. (Wei), Rotter, J.I. (Jerome I.), Boehnke, M. (Michael), Kathiresan, S. (Sekar), McCarthy, M.I. (Mark I.), Willer, C.J. (Cristen), Zwart, J-A. (John-Anker), Borecki, I.B. (Ingrid), Liu, D. (Dajiang), North, K.E. (Kari), Heard-Costa, N.L. (Nancy), Pers, T.H. (Tune), Lindgren, C.M. (Cecilia M.), Oxvig, C. (Claus), Kutalik, Z. (Zoltán), Rivadeneira Ramirez, F. (Fernando), Loos, R.J.F. (Ruth), Frayling, T.M. (Timothy), Hirschhorn, J.N. (Joel), Deloukas, P. (Panos), Lettre, G. (Guillaume), Marouli, E. (Eirini), Graff, M.J. (Maud J.L.), Medina-Gomez, C. (Carolina), Lo, K.S., Wood, A.R. (Andrew), Kjaer, T.R. (Troels R.), Fine, R.S. (Rebecca S.), Lu, Y. (Yingchang), Schurmann, C. (Claudia), Highland, H. (Heather), Rüeger, S. (Sina), Thorleifsson, G. 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(Donald), Brandslund, I. (Ivan), Breen, G. (Gerome), Brilliant, M.H. (Murray H.), Broer, L. (Linda), Burt, A.D. (Alastair), Butterworth, A.S. (Adam), Carey, D.J. (David J.), Caulfield, M. (Mark), Chambers, J.C. (John), Chasman, D.I. (Daniel), Chen, Y.-D.I. (Yii-Der Ida), Chowdhury, R. (Rajiv), Christensen, C. (Cramer), Chu, A.Y. (Audrey), Cocca, M. (Massimiliano), Collins, F.S. (Francis), Cook, J.P. (James P.), Corley, J. (Janie), Galbany, J.C. (Jordi Corominas), Cox, A.J. (Amanda J.), Cuellar-Partida, G. (Gabriel), Danesh, J. (John), Davies, G. (Gail), Bakker, P.I.W. (Paul) de, Borst, G.J. (Gert) de, De Denus, S. (Simon), De Groot, M.C.H. (Mark C.H.), Mutsert, R. (Reneé) de, Deary, I.J. (Ian), Dedoussis, G.V. (George), Demerath, E.W. (Ellen), Hollander, A.I. (Anneke), Dennis, J. (Joe), Angelantonio, E. (Emanuele) di, Drenos, F. (Fotios), Du, M. (Mengmeng), Dunning, A.M. (Alison M.), Easton, D.F. (Douglas), Ebeling, T. (Tapani), Edwards, T.L. (Todd L.), Ellinor, P.T. (Patrick), Elliott, P. (Paul), Evangelou, E. (Evangelos), Farmaki, A.-E. (Aliki-Eleni), Faul, J.D. (Jessica D.), Feitosa, M.F. (Mary Furlan), Feng, S. (Shuang), Ferrannini, E. (Ele), Ferrario, M.M. (Marco M.), Ferrieres, J. (Jean), Florez, J.C. (Jose), Ford, I., Fornage, M. (Myriam), Franks, P.W. (Paul), Frikke-Schmidt, R. (Ruth), Galesloot, T.E. (Tessel), Gan, W. (Wei), Gandin, I. (Ilaria), Gasparini, P. (Paolo), Giedraitis, V. (Vilmantas), Giri, A. (Ayush), Girotto, S., Gordon, S.D. (Scott D.), Gordon-Larsen, P. (Penny), Gorski, M. (Mathias), Grarup, N. (Niels), Grove, M.L. (Megan), Gudnason, V. (Vilmundur), Gustafsson, S. (Stefan), Hansen, T. (T.), Harris, K.M. (Kathleen Mullan), Harris, T.B. (Tamara), Hattersley, A.T. (Andrew), Hayward, C. (Caroline), He, L. (Liang), Heid, I.M. (Iris), Heikkilä, K. (Kauko), Helgeland, Ø. (Øyvind), Hernesniemi, J. (Jussi), Hewit, A.W. (Alex), Hocking, L.J. (Lynne), Hollensted, M. (Mette), Holmen, O.L. (Oddgeir), Hovingh, G.K. (Kees), Howson, J.M.M. (Joanna M.M.), Hoyng, C.B. (Carel), Huang, P.L. (Paul L.), Hveem, K. (Kristian), Ikram, M.K. (Kamran), Ingelsson, E. (Erik), Jackson, A.U. (Anne), Jansson, J.-H. (Jan-Håkan), Jarvik, G.P. (Gail), Jensen, G.B. (Gorm B.), Jhun, M.A. (Min A.), Jia, Y. (Yucheng), Jiang, X. (Xuejuan), Johansson, S. (Stefan), Jørgensen, M.E. (Marit E.), Jorgensen, T. (Torben), Jousilahti, P. (Pekka), Jukema, J.W. (Jan Wouter), Kahali, B. (Bratati), Kahn, R. (René), Kähönen, M. (Mika), Kamstrup, P.R. (Pia R.), Kanoni, S. (Stavroula), Kaprio, J. (Jaakko), Karaleftheri, M. (Maria), Kardia, S.L.R. (Sharon L.R.), Karpe, F. (Fredrik), Kee, F. (Frank), Keeman, J.N., Kiemeney, L.A.L.M. (Bart), Kitajima, H. (Hidetoshi), Kluivers, K.B. (Kirsten B.), Kocher, T., Komulainen, P. (Pirjo), Kontto, J. (Jukka), Kooner, J.S. (Jaspal S.), Kooperberg, C. (Charles), Kovacs, P. (Peter), Kriebel, J. (Jennifer), Kuivaniemi, H. (Helena), Küry, S. (Sébastien), Kuusisto, J. (Johanna), La Bianca, M. (Martina), Laakso, M. (Markku), Lakka, T.A. (Timo), Lange, E.M. (Ethan), Lange, L.A. (Leslie), Langefeld, C.D. (Carl), Langenberg, C. (Claudia), Larson, E.B. (Eric B.), Lee, I.-T. (I-Te), Lehtimäki, T. (Terho), Lewis, C.E. (Cora E.), Li, H. (Huaixing), Li, J. (Jin), Li-Gao, R. (Ruifang), Lin, H. (Honghuang), Lin, L.-A. (Li-An), Lin, X. (Xu), Kao, W.H.L. (Wen), Lindström, J. (Jaana), Linneberg, A. (Allan), Liu, Y. (Yeheng), Liu, Y. (YongMei), Lophatananon, A. (Artitaya), Luan, J. (Jian'An), Lubitz, S.A. (Steven), Lyytikäinen, L.-P. (Leo-Pekka), Mackey, D.A. (David A.), Madden, P.A. (Pamela), Manning, A.K. (Alisa), Männistö, S. (Satu), Marenne, G. (Gaëlle), Marten, J. (Jonathan), Martin, N.G. (Nicholas), Mazul, A.L. (Angela L.), Meidtner, K. (Karina), Metspalu, A. (Andres), Mitchell, P. (Paul), Mohlke, K.L. (Karen), Mook-Kanamori, D.O. (Dennis), Morgan, A. (Anna), Morris, A.D. (Andrew D.), Morris, A.P. (Andrew), Müller-Nurasyid, M. (Martina), Munroe, P. (Patricia), Nalls, M.A. (Michael), Nauck, M. (Matthias), Nelson, C.P. (Christopher P.), Neville, M.J. (Matthew), Nielsen, S.F. (Sune), Nikus, K. (Kjell), Njolstad, P. (Pal), Nordestgaard, B.G. (Børge), Ntalla, I. (Ioanna), O'Connel, J.R. (Jeffrey R.), Oksa, H. (Heikki), Loohuis, L.M.O. (Loes M. Olde), Ophoff, R.A. (Roel), Owen, K.R. (Katharine R.), Packard, C.J. (Chris J.), Padmanabhan, S. (Sandosh), Palmer, C.N.A. (Colin), Pasterkamp, G. (Gerard), Patel, A.P. (Aniruddh), Pattie, A. (Alison), Pedersen, O. (Oluf), Peissig, P.L. (Peggy L.), Peloso, G.M. (Gina), Pennell, C.E. (Craig), Perola, M. (Markus), Perry, J.A. (James A.), Perry, J.R.B. (John R.B.), Person, A.D. (Anthony), Pirie, A. (Ailith), Polasek, O. (Ozren), Posthuma, D. (Danielle), Raitakari, O.T. (Olli T.), Rasheed, A. (Asif), Rauramaa, R. (Rainer), Reilly, D.F. (Dermot F.), Reiner, A. (Alexander), Renström, F. (Frida), Ridker, P.M. (Paul), Rioux, J.D. (John), Robertson, N.R. (Neil), Robino, A. (Antonietta), Rolandsson, O. (Olov), Rudan, I. (Igor), Ruth, K.S. (Katherine S.), Saleheen, D. (Danish), Salomaa, V. (Veikko), Samani, N.J. (Nilesh), Sandow, K. (Kevin), Sapkota, Y. (Yadav), Sattar, N. (Naveed), Schmidt, M.K. (Marjanka), Schreiner, P.J. (Pamela), Schulze, M.B. (Matthias B), Scott, R.A. (Robert), Segura-Lepe, M.P. (Marcelo P.), Shah, S.H. (Svati), Sim, X. (Xueling), Sivapalaratnam, S. (Suthesh), Small, K.S. (Kerrin), Smith, A.V. (Albert Vernon), Smith, J.A. (Jennifer A), Southam, L. (Lorraine), Spector, T.D. (Timothy), Speliotes, E.K. (Elizabeth K.), Starr, J.M. (John), Steinthorsdottir, V. (Valgerdur), Stringham, H.M. (Heather), Stumvoll, M. (Michael), Surendran, P. (Praveen), Hart't, L.M. (Leen M.), Tansey, K.E. (Katherine E.), Tardif, J.-C. (Jean-Claude), Taylor, K.D. (Kent), Teumer, A. (Alexander), Thompson, D. (Deborah), Thorsteinsdottir, U. (Unnur), Thuesen, B.H. (Betina H.), Tönjes, A. (Anke), Tromp, G. (Gerard), Trompet, S. (Stella), Tsafantakis, E. (Emmanouil), Tuomilehto, J. (Jaakko), Tybjaerg-Hansen, A. (Anne), Tyrer, J.P. (Jonathan), Uher, R., Uitterlinden, A.G. (André), Ulivi, S. (Sheila), Van Der Laan, S.W. (Sander W.), Van Der Leij, A.R. (Andries R.), Duijn, C.M. (Cornelia) van, Schoor, N.M. (Natasja) van, Setten, J. (Jessica) van, Varbo, A. (Anette), Varga, T.V. (Tibor V.), Varma, R. (Rohit), Velez Edwards, D.R. (Digna R.), Vermeulen, S.H.H.M. (Sita), Vestergaard, H. (Henrik), Vitart, V. (Veronique), Vogt, T.F. (Thomas F.), Vozzi, D. (Diego), Walker, M. (Mark), Wang, F. (Feijie), Wang, C.A. (Carol A.), Wang, S. (Shuai), Wang, Y. (Yiqin), Wareham, N.J. (Nicholas J.), Warren, H. (Helen), Wessel, J. (Jennifer), Willems, S.M. (Sara), Wilson, J.F. (James), Witte, D.R. (Deniel), Woods, M.O. (Michael), Wu, Y. (Ying), Yaghootkar, H. (Hanieh), Yao, J. (Jiefen), Yao, P. (Pang), Yerges-Armstrong, L.M. (Laura), Young, R. (Robin), Zeggini, E. (Eleftheria), Zhan, X. (Xiaowei), Zhang, W. (Weihua), Zhao, J.H. (Jing Hua), Zhao, W. (Wei), Zheng, H. (He), Zhou, W. (Wei), Rotter, J.I. (Jerome I.), Boehnke, M. (Michael), Kathiresan, S. (Sekar), McCarthy, M.I. (Mark I.), Willer, C.J. (Cristen), Zwart, J-A. (John-Anker), Borecki, I.B. (Ingrid), Liu, D. (Dajiang), North, K.E. (Kari), Heard-Costa, N.L. (Nancy), Pers, T.H. (Tune), Lindgren, C.M. (Cecilia M.), Oxvig, C. (Claus), Kutalik, Z. (Zoltán), Rivadeneira Ramirez, F. (Fernando), Loos, R.J.F. (Ruth), Frayling, T.M. (Timothy), Hirschhorn, J.N. (Joel), Deloukas, P. (Panos), and Lettre, G. (Guillaume)
- Abstract
Height is a highly heritable, classic polygenic trait with approximately 700 common associated variants identified through genome-wide association studies so far. Here, we report 83 height-associated coding variants with lower minor-allele frequencies (in the range of 0.1-4.8%) and effects of up to 2 centimetres per allele (such as those in IHH, STC2, AR and CRISPLD2), greater than ten times the average effect of common variants. In functional follow-up studies, rare height-increasing alleles of STC2 (giving an increase of 1-2 centimetres per allele) compromised proteolytic inhibition of PAPP-A and increased cleavage of I
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- 2017
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19. Deciphering the Colon Cancer Genes-Report of the InSiGHT-Human Variome Project Workshop, UNESCO, Paris 2010
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Kohonen-Corish, M.R.J., Macrae, F., Genuardi, M., Aretz, S., Bapat, B., Bernstein, I.T., Burn, J., Cotton, R.G.H., Dunnen, J.T. den, Frebourg, T., Greenblatt, M.S., Hofstra, R., Holinski-Feder, E., Lappalainen, I., Lindblom, A., Maglott, D., Moller, P., Morreau, H., Moslein, G., Sijmons, R., Spurdle, A.B., Tavtigian, S., Tops, C.M.J., Weber, T.K., Wind, N. de, Woods, M.O., Contributors InSiGHT-HVP Workshop, Faculteit Medische Wetenschappen/UMCG, and Guided Treatment in Optimal Selected Cancer Patients (GUTS)
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MISMATCH-REPAIR GENES ,COLORECTAL-CANCER ,SEQUENCE VARIANTS ,CLASSIFICATION ,MUTATIONS ,DATABASE ,MLH1 ,Colorectal cancer ,Human Variome Project ,Library science ,HNPCC ,Biology ,Settore MED/03 - GENETICA MEDICA ,Data submission ,Bioinformatics ,Genetics ,medicine ,Pilot program ,cancer ,Pathogenicity ,Genetics (clinical) ,colon ,Cancer ,medicine.disease ,Tumor Pathology ,variant ,HVP ,InSiGHT - Abstract
The Human Variome Project (HVP) has established a pilot program with the International Society for Gastrointestinal Hereditary Tumours (InSiGHT) to compile all inherited variation affecting colon cancer susceptibility genes. An HVP-InSiGHT Workshop was held on May 10, 2010, prior to the HVP Integration and Implementation Meeting at UNESCO in Paris, to review the progress of this pilot program. A wide range of topics were covered, including issues relating to genotype-phenotype data submission to the InSiGHT Colon Cancer Gene Variant Databases (chromium.liacs.nl/LOVD2/colon_cancer/home.php). The meeting also canvassed the recent exciting developments in models to evaluate the pathogenicity of unclassified variants using in silico data, tumor pathology information, and functional assays, and made further plans for the future progress and sustainability of the pilot program. Hum Mutat 32: 491-494, 2011. (C) 2011 Wiley-Liss, Inc.
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- 2011
20. Evaluation of a population-based approach to familial colorectal cancer
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Parfrey, P.S., primary, Dicks, E., additional, Parfrey, O., additional, McNicholas, P.J., additional, Noseworthy, H., additional, Woods, M.O., additional, Negriin, C., additional, and Green, J., additional
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- 2017
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21. Evidence for yet another novel Bardet-Biedl Syndrome (BBS) locus in the Newfoundland population
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Woods, M.O., Parfrey, P.S., Green, J.S., and Davidson, W.S.
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Genetic research -- Analysis ,Human genetics -- Research ,Genetic disorders -- Research ,Biological sciences - Published
- 2000
22. October 28, 2011
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Rothenmund, H., Singh, H., Candas, B., Chodirker, B.N., Serfas, K., Aronson, M., Holter, S., Volenik, A., Green, J., Dicks, E., Woods, M.O., Gilchrist, D., Gryfe, R., Cohen, Z., and Foulkes, W.D.
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Canada ,Lynch syndrome ,hereditary cancer ,familial adenomatous polyposis ,education ,cancer registry ,Colorectal cancer ,MUTYH-associated polyposis ,colorectal cancer screening - Abstract
At a consensus meeting held in Montreal, October 28, 2011, a multidisciplinary group of Canadian experts in the fields of genetics, gastroenterology, surgery, oncology, pathology, and health care services participated in presentation and discussion sessions for the purpose of developing consensus statements pertaining to the development and maintenance of hereditary colorectal cancer registries in Canada. Five statements were approved by all participants.
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- 2013
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23. Application of a 5-tiered scheme for standardized classification of 2,360 unique mismatch repair gene variants in the InSiGHT locus-specific database
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Thompson, B.A., Spurdle, A.B., Plazzer, J.P., Greenblatt, M.S., Akagi, K., Al-Mulla, F., Bapat, B., Bernstein, I., Capella, G., Dunnen, J.T. den, Sart, D. du, Fabre, A., Farrell, M.P., Farrington, S.M., Frayling, I.M., Frebourg, T., Goldgar, D.E., Heinen, C.D., Holinski-Feder, E., Kohonen-Corish, M., Robinson, K.L., Leung, S.Y., Martins, A., Moller, P., Morak, M., Nystrom, M., Peltomaki, P., Pineda, M., Qi, M., Ramesar, R., Rasmussen, L.J., Royer-Pokora, B., Scott, R.J., Sijmons, R., Tavtigian, S.V., Tops, C.M., Weber, T., Wijnen, J., Woods, M.O., Macrae, F., Genuardi, M., Mensenkamp, A.R., Ligtenberg, M.J.L., et al., Thompson, B.A., Spurdle, A.B., Plazzer, J.P., Greenblatt, M.S., Akagi, K., Al-Mulla, F., Bapat, B., Bernstein, I., Capella, G., Dunnen, J.T. den, Sart, D. du, Fabre, A., Farrell, M.P., Farrington, S.M., Frayling, I.M., Frebourg, T., Goldgar, D.E., Heinen, C.D., Holinski-Feder, E., Kohonen-Corish, M., Robinson, K.L., Leung, S.Y., Martins, A., Moller, P., Morak, M., Nystrom, M., Peltomaki, P., Pineda, M., Qi, M., Ramesar, R., Rasmussen, L.J., Royer-Pokora, B., Scott, R.J., Sijmons, R., Tavtigian, S.V., Tops, C.M., Weber, T., Wijnen, J., Woods, M.O., Macrae, F., Genuardi, M., Mensenkamp, A.R., Ligtenberg, M.J.L., and et al.
- Abstract
Contains fulltext : 138857.pdf (publisher's version ) (Closed access), The clinical classification of hereditary sequence variants identified in disease-related genes directly affects clinical management of patients and their relatives. The International Society for Gastrointestinal Hereditary Tumours (InSiGHT) undertook a collaborative effort to develop, test and apply a standardized classification scheme to constitutional variants in the Lynch syndrome-associated genes MLH1, MSH2, MSH6 and PMS2. Unpublished data submission was encouraged to assist in variant classification and was recognized through microattribution. The scheme was refined by multidisciplinary expert committee review of the clinical and functional data available for variants, applied to 2,360 sequence alterations, and disseminated online. Assessment using validated criteria altered classifications for 66% of 12,006 database entries. Clinical recommendations based on transparent evaluation are now possible for 1,370 variants that were not obviously protein truncating from nomenclature. This large-scale endeavor will facilitate the consistent management of families suspected to have Lynch syndrome and demonstrates the value of multidisciplinary collaboration in the curation and classification of variants in public locus-specific databases.
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- 2014
24. Hereditary Colorectal Cancer Registries in Canada: Report from the Colorectal Cancer Association of Canada Consensus Meeting; Montreal, Quebec; October 28, 2011
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Rothenmund, H., primary, Singh, H., additional, Candas, B., additional, Chodirker, B.N., additional, Serfas, K., additional, Aronson, M., additional, Holter, S., additional, Volenik, A., additional, Green, J., additional, Dicks, E., additional, Woods, M.O., additional, Gilchrist, D., additional, Gryfe, R., additional, Cohen, Z., additional, and Foulkes, W.D., additional
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- 2013
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25. Attenuation of ultrasound in post rigor bovine skeletal muscle
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Shore, D., primary, Woods, M.O., additional, and Miles, C.A., additional
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- 1986
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26. Ultrasound speed and attenuation in homogenates of bovine skeletal muscle
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Woods, M.O., primary and Miles, C.A., additional
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- 1986
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27. Variation in the risk of colorectal cancer in families with Lynch syndrome: a retrospective cohort study
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Seçil Aksoy, Michael O. Woods, Heinric Williams, Bruno Buecher, Finlay A. Macrae, Lotte N. Krogh, Jay Qiu, Wan K.W. Juhari, Jan T. Lowery, Anne-Marie Gerdes, Magnus von Knebel Doeberitz, Luigi Ricciardiello, Karsten Schulmann, Jose Luis Soto, Kristina Lagerstedt-Robinson, Kiwamu Akagi, Raj Ramesar, Uffe Birk Jensen, Angel Alonso, Robert Hüneburg, Olivier Caron, Michel Longy, Jan Lubinski, Kate Green, Annabel Goodwin, D. Gareth Evans, Julie Wods, Leigha Senter, Matthew F. Kalady, Mark Clendenning, Barbara A. Leggett, Ravindran Ankathil, Swati G. Patel, Julian Barwell, Katherine M. Tucker, Grant Lee, Pascaline Berthet, Dawn M. Nixon, Sonia S. Kupfer, Naohiro Tomita, Susan Parry, Trinidad Caldés, Robert W. Haile, Edenir Inêz Palmero, Karin Alvarez, Cassandra B. Nichols, Mark A. Jenkins, N. Jewel Samadder, Loic LeMarchand, John Burn, Francisco Lopez, Rodney J. Scott, Pierre Laurent-Puig, Julie Arnold, Christina Therkildsen, Hans K. Schackert, Pilar Garre, Reinhard Buettner, Adriana Della Valle, Patricia Esperon, Wolff Schmiegel, Karl Heinimann, Inge Bernstein, Matthias Kloor, Nicoline Hoogerbrugge, Rui Manuel Reis, Fränzel J.B. Van Duijnhoven, Christoph Engel, Mohd Nizam Zahary, Sylviane Olschwang, Sapna Syngal, Valérie Bonadona, Nicholas Pachter, Matilde Navarro, Albert de la Chapelle, Beate Betz, Jukka-Pekka Mecklin, Catherine Noguès, Elena M. Stoffel, Toni T. Seppälä, Chrystelle Colas, Anneke Lucassen, Allan D. Spigelman, Youenn Drouet, Elisa J. Cops, Uri Ladabaum, Steve Thibodeau, Jeffrey N. Weitzel, Fiona Lalloo, Patrick J. Morrison, Maurizio Genuardi, Kohji Tanakaya, Patrick M. Lynch, Frederik J. Hes, William D. Foulkes, Carmen Guillén-Ponce, Jenny von Salomé, Emilia Rogoża-Janiszewska, Andrew Latchford, John L. Hopper, Carrie Snyder, Verónica Barca-Tierno, Gabriela Möslein, Lauren M. Gima, Melissa C. Southey, Paul A. James, Marion Dhooge, Claudia Perne, Steven Gallinger, Heather Hampel, Amanda B. Spurdle, Ingrid Winship, Emmanuelle Fourme, Rish K. Pai, Daniela Turchetti, Marta Pineda, Jürgen Weitz, James Hill, Daniel D. Buchanan, Carlos A. Vaccaro, Noralane M. Lindor, Rachel Pearlman, Pål Møller, Christian P. Strassburg, Jane C. Figueiredo, Aída Falcón de Vargas, Silke Zachariae, Karolin Bucksch, Joanne Ngeow, Silke Redler, Henrik Okkels, Maija R.J. Kohonen-Corish, Hans F. A. Vasen, Verena Steinke-Lange, Roselyne Guimbaud, Deepak Vangala, Isabelle Coupier, Nils Rahner, Berrin Tunca, Sanne W. Bajwa-ten Broeke, Niels de Wind, Sophie Lejeune, José Gaston Guillem, Karin Wadt, Polly A. Newcomb, Elke Holinski-Feder, Florencia Neffa, Rodrigo Santa Cruz Guindalini, Paul E. Wise, Julian R. Sampson, Graham Casey, Lene Juel Rasmussen, Rolf H. Sijmons, Tadeusz Dębniak, Ann-Sofie Backman, Joji Utsunomiya, Melyssa Aronson, Aung Ko Win, Yves-Jean Bignon, Judy W. C. Ho, Robyn L. Ward, Mev Dominguez-Valentin, Karolina Malińska, Elizabeth E. Half, John-Paul Plazzer, Marjolijn J. L. Ligtenberg, Rachel Austin, Nicola K. Poplawski, Marcia Cruz-Correa, Nagahide Matsubara, Charlotte Kvist Lautrup, Thomas Hansen, Tatsuro Yamaguchi, Thomas John, David J. Amor, Ilana Solomon, Yun-Hee Choi, Meghan J. van Wanzeele, Rakefet Shtoyerman, Vanessa Huntley, Maartje Nielsen, Deborah Neklason, Kevin J. Monahan, Gülçin Tezcan, Stefan Aretz, Talya Boisjoli, Sophie Giraud, Thierry Frebourg, Christophe Rosty, Heike Görgens, Lone Sunde, Allyson Templeton, Jacob Nattermann, Mala Pande, Joan Brunet, Nancy Uhrhammer, James M. Church, Florencia Spirandelli, Laurent Briollais, James G. Dowty, Jeanette C. Reece, Rachel Susman, Fay Kastrinos, Kirsi Pylvänäinen, Gabriel Capellá, Helène Schuster, Min H. Chew, Markus Loeffler, Christine Lasset, Michael J. Hall, Capuccine Delnatte, Floor A. Duijkers, Imagerie Moléculaire et Stratégies Théranostiques (IMoST), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Clermont Auvergne (UCA), Centre Jean Perrin [Clermont-Ferrand] (UNICANCER/CJP), UNICANCER, Digital Precision Cancer Medicine (iCAN), ATG - Applied Tumor Genomics, HUS Abdominal Center, Clinical sciences, Medical Genetics, Win A.K., Dowty J.G., Reece J.C., Lee G., Templeton A.S., Plazzer J.-P., Buchanan D.D., Akagi K., Aksoy S., Alonso A., Alvarez K., Amor D.J., Ankathil R., Aretz S., Arnold J.L., Aronson M., Austin R., Backman A.-S., Bajwa-ten Broeke S.W., Barca-Tierno V., Barwell J., Bernstein I., Berthet P., Betz B., Bignon Y.-J., Boisjoli T., Bonadona V., Briollais L., Brunet J., Bucksch K., Buecher B., Buettner R., Burn J., Caldes T., Capella G., Caron O., Casey G., Chew M.H., Choi Y.-H., Church J., Clendenning M., Colas C., Cops E.J., Coupier I., Cruz-Correa M., de la Chapelle A., de Wind N., Debniak T., Della Valle A., Delnatte C., Dhooge M., Dominguez-Valentin M., Drouet Y., Duijkers F.A., Engel C., Esperon P., Evans D.G., Falcon de Vargas A., Figueiredo J.C., Foulkes W., Fourme E., Frebourg T., Gallinger S., Garre P., Genuardi M., Gerdes A.-M., Gima L.M., Giraud S., Goodwin A., Gorgens H., Green K., Guillem J., Guillen-Ponce C., Guimbaud R., Guindalini R.S.C., Half E.E., Hall M.J., Hampel H., Hansen T.V.O., Heinimann K., Hes F.J., Hill J., Ho J.W.C., Holinski-Feder E., Hoogerbrugge N., Huneburg R., Huntley V., James P.A., Jensen U.B., John T., Juhari W.K.W., Kalady M., Kastrinos F., Kloor M., Kohonen-Corish M.R., Krogh L.N., Kupfer S.S., Ladabaum U., Lagerstedt-Robinson K., Lalloo F., Lasset C., Latchford A., Laurent-Puig P., Lautrup C.K., Leggett B.A., Lejeune S., LeMarchand L., Ligtenberg M., Lindor N., Loeffler M., Longy M., Lopez F., Lowery J., Lubinski J., Lucassen A.M., Lynch P.M., Malinska K., Matsubara N., Mecklin J.-P., Moller P., Monahan K., Morrison P.J., Nattermann J., Navarro M., Neffa F., Neklason D., Newcomb P.A., Ngeow J., Nichols C., Nielsen M., Nixon D.M., Nogues C., Okkels H., Olschwang S., Pachter N., Pai R.K., Palmero E.I., Pande M., Parry S., Patel S.G., Pearlman R., Perne C., Pineda M., Poplawski N.K., Pylvanainen K., Qiu J., Rahner N., Ramesar R., Rasmussen L.J., Redler S., Reis R.M., Ricciardiello L., Rogoza-Janiszewska E., Rosty C., Samadder N.J., Sampson J.R., Schackert H.K., Schmiegel W., Schulmann K., Schuster H., Scott R., Senter L., Seppala T.T., Shtoyerman R., Sijmons R.H., Snyder C., Solomon I.B., Soto J.L., Southey M.C., Spigelman A., Spirandelli F., Spurdle A.B., Steinke-Lange V., Stoffel E.M., Strassburg C.P., Sunde L., Susman R., Syngal S., Tanakaya K., Tezcan G., Therkildsen C., Thibodeau S., Tomita N., Tucker K.M., Tunca B., Turchetti D., Uhrhammer N., Utsunomiya J., Vaccaro C., van Duijnhoven F.J.B., van Wanzeele M.J., Vangala D.B., Vasen H.F.A., von Knebel Doeberitz M., von Salome J., Wadt K.A.W., Ward R.L., Weitz J., Weitzel J.N., Williams H., Winship I., Wise P.E., Wods J., Woods M.O., Yamaguchi T., Zachariae S., Zahary M.N., Hopper J.L., Haile R.W., Macrae F.A., Moslein G., and Jenkins M.A.
- Subjects
0301 basic medicine ,Proband ,Oncology ,Male ,Heredity ,DNA mismatch repair ,[SDV]Life Sciences [q-bio] ,SUSCEPTIBILITY ,Settore MED/03 - GENETICA MEDICA ,0302 clinical medicine ,Residence Characteristics ,Risk Factors ,Tumours of the digestive tract Radboud Institute for Molecular Life Sciences [Radboudumc 14] ,PMS2 ,ComputingMilieux_MISCELLANEOUS ,MLH1 ,Age Factors ,Middle Aged ,Penetrance ,Lynch syndrome ,3. Good health ,Pedigree ,Phenotype ,030220 oncology & carcinogenesis ,Colorectal Neoplasms, Hereditary Nonpolyposis/diagnosis ,Female ,Adult ,medicine.medical_specialty ,PENETRANCE ,congenital, hereditary, and neonatal diseases and abnormalities ,GENES ,3122 Cancers ,colorectal cancer ,BREAST ,Risk Assessment ,03 medical and health sciences ,Sex Factors ,Internal medicine ,medicine ,Humans ,Genetic Predisposition to Disease ,Retrospective Studies ,business.industry ,MUTATIONS ,Cancer ,medicine.disease ,digestive system diseases ,MSH2 ,MSH6 ,MODEL ,INDIVIDUALS ,030104 developmental biology ,Lynch Syndrome ,Gene-Environment Interaction ,business - Abstract
Findings 5585 families with Lynch syndrome from 22 countries were eligible for the analysis. Of these, there were insufficient numbers to estimate penetrance for Asia and South America, and for those with EPCAM variants. Therefore, we used data (collected between July 11, 2014, and Dec 31, 2018) from 5255 families (1829 MLH1, 2179 MSH2, 798 MSH6, and 449 PMS2), comprising 79 809 relatives, recruited in 15 countries in North America, Europe, and Australasia. There was strong evidence of the existence of unknown familial risk factors modifying colorectal cancer risk for Lynch syndrome carriers (p 0 center dot 0001 for each of the three three continents). These familial risk factors resulted in a wide within-gene variation in the risk of colorectal cancer for men and women from each continent who all carried pathogenic variants in the same gene or the MSH2 c.942+3A T variant. The variation was especially prominent for MLH1 and MSH2 variant carriers, depending on gene, sex and continent, with 7-56% of carriers having a colorectal cancer penetrance of less than 20%, 9-44% having a penetrance of more than 80%, and onlyBackground Existing clinical practice guidelines for carriers of pathogenic variants of DNA mismatch repair genes (Lynch syndrome) are based on the mean age-specific cumulative risk (penetrance) of colorectal cancer for all carriers of pathogenic variants in the same gene. We aimed to estimate the variation in the penetrance of colorectal cancer between carriers of pathogenic variants in the same gene by sex and continent of residence. Methods In this retrospective cohort study, we sourced data from the International Mismatch Repair Consortium, which comprises 273 members from 122 research centres or clinics in 32 countries from six continents who are involved in Lynch syndrome research. Families with at least three members and at least one confirmed carrier of a pathogenic or likely pathogenic variant in a DNA mismatch repair gene (MLH1, MSH2, MSH6, or PMS2) were included. The families of probands with known de-novo pathogenic variants were excluded. Data were collected on the method of ascertainment of the family, sex, carrier status, cancer diagnoses, and ages at the time of pedigree collection and at last contact or death. We used a segregation analysis conditioned on ascertainment to estimate the mean penetrance of colorectal cancer and modelled unmeasured polygenic factors to estimate the variation in penetrance. The existence of unknown familial risk factors modifying colorectal cancer risk for Lynch syndrome carriers was tested by use of a Wald p value for the null hypothesis that the polygenic SD is zero. Findings 5585 families with Lynch syndrome from 22 countries were eligible for the analysis. Of these, there were insufficient numbers to estimate penetrance for Asia and South America, and for those with EPCAM variants. Therefore, we used data (collected between July 11, 2014, and Dec 31, 2018) from 5255 families (1829 MLH1, 2179 MSH2, 798 MSH6, and 449 PMS2), comprising 79 809 relatives, recruited in 15 countries in North America, Europe, and Australasia. There was strong evidence of the existence of unknown familial risk factors modifying colorectal cancer risk for Lynch syndrome carriers (pT variant. The variation was especially prominent for MLH1 and MSH2 variant carriers, depending on gene, sex and continent, with 7-56% of carriers having a colorectal cancer penetrance of less than 20%, 9-44% having a penetrance of more than 80%, and only 10-19% having a penetrance of 40-60%. Interpretation Our study findings highlight the important role of risk modifiers, which could lead to personalised risk assessments for precision prevention and early detection of colorectal cancer for people with Lynch syndrome. Funding National Health and Medical Research Council, Australia. Copyright (c) 2021 Elsevier Ltd. All rights reserved.Methods In this retrospective cohort study, we sourced data from the International Mismatch Repair Consortium, which comprises 273 members from 122 research centres or clinics in 32 countries from six continents who are involved in Lynch syndrome research. Families with at least three members and at least one confirmed carrier of a pathogenic or likely pathogenic variant in a DNA mismatch repair gene (MLH1, MSH2, MSH6, or PMS2) were included. The families of probands with known de-novo pathogenic variants were excluded. Data were collected on the method of ascertainment of the family, sex, carrier status, cancer diagnoses, and ages at the time of pedigree collection and at last contact or death. We used a segregation analysis conditioned on ascertainment to estimate the mean penetrance of colorectal cancer and modelled unmeasured polygenic factors to estimate the variation in penetrance. The existence of unknown familial risk factors modifying colorectal cancer risk for Lynch syndrome carriers was tested by use of a Wald p value for the null hypothesis that the polygenic SD is zero.
- Published
- 2021
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