Clinical Pathology - Research Publications

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Author: Buchanan, Daniel × Author: Giles, Graham × Author: Jenkins, Mark ×

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    Deciphering colorectal cancer genetics through multi-omic analysis of 100,204 cases and 154,587 controls of European and east Asian ancestries
    Fernandez-Rozadilla, C ; Timofeeva, M ; Chen, Z ; Law, P ; Thomas, M ; Bien, S ; Diez-Obrero, V ; Li, L ; Fernandez-Tajes, J ; Palles, C ; Sherwood, K ; Harris, S ; Svinti, V ; McDonnell, K ; Farrington, S ; Studd, J ; Vaughan-Shaw, P ; Shu, X-O ; Long, J ; Cai, Q ; Guo, X ; Lu, Y ; Scacheri, P ; Studd, J ; Huyghe, J ; Harrison, T ; Shibata, D ; Haiman, C ; Devall, M ; Schumacher, F ; Melas, M ; Rennert, G ; Obon-Santacana, M ; Martin-Sanchez, V ; Moratalla-Navarro, F ; Oh, JH ; Kim, J ; Jee, SH ; Jung, KJ ; Kweon, S-S ; Shin, M-H ; Shin, A ; Ahn, Y-O ; Kim, D-H ; Oze, I ; Wen, W ; Matsuo, K ; Matsuda, K ; Tanikawa, C ; Ren, Z ; Gao, Y-T ; Jia, W-H ; Potter, J ; Jenkins, M ; Win, AK ; Pai, R ; Figueiredo, J ; Haile, R ; Gallinger, S ; Woods, M ; Newcomb, P ; Shibata, D ; Cheadle, J ; Kaplan, R ; Maughan, T ; Kerr, R ; Kerr, D ; Kirac, I ; Boehm, J ; Mecklin, L-P ; Jousilahti, P ; Knekt, P ; Aaltonen, L ; Rissanen, H ; Pukkala, E ; Eriksson, J ; Cajuso, T ; Hanninen, U ; Kondelin, J ; Palin, K ; Tanskanen, T ; Renkonen-Sinisalo, L ; Zanke, B ; Mannisto, S ; Albanes, D ; Weinstein, S ; Ruiz-Narvaez, E ; Palmer, J ; Buchanan, D ; Platz, E ; Visvanathan, K ; Ulrich, C ; Siegel, E ; Brezina, S ; Gsur, A ; Campbell, P ; Chang-Claude, J ; Hoffmeister, M ; Brenner, H ; Slattery, M ; Potter, J ; Tsilidis, K ; Schulze, M ; Gunter, M ; Murphy, N ; Castells, A ; Castellvi-Bel, S ; Moreira, L ; Arndt, V ; Shcherbina, A ; Stern, M ; Pardamean, B ; Bishop, T ; Giles, G ; Southey, M ; Idos, G ; McDonnell, K ; Abu-Ful, Z ; Greenson, J ; Shulman, K ; Lejbkowicz, F ; Offit, K ; Su, Y-R ; Steinfelder, R ; Keku, T ; van Guelpen, B ; Hudson, T ; Hampel, H ; Pearlman, R ; Berndt, S ; Hayes, R ; Martinez, ME ; Thomas, S ; Corley, D ; Pharoah, P ; Larsson, S ; Yen, Y ; Lenz, H-J ; White, E ; Li, L ; Doheny, K ; Pugh, E ; Shelford, T ; Chan, A ; Cruz-Correa, M ; Lindblom, A ; Shibata, D ; Joshi, A ; Schafmayer, C ; Scacheri, P ; Kundaje, A ; Nickerson, D ; Schoen, R ; Hampe, J ; Stadler, Z ; Vodicka, P ; Vodickova, L ; Vymetalkova, V ; Papadopoulos, N ; Edlund, C ; Gauderman, W ; Thomas, D ; Shibata, D ; Toland, A ; Markowitz, S ; Kim, A ; Gruber, S ; van Duijnhoven, F ; Feskens, E ; Sakoda, L ; Gago-Dominguez, M ; Wolk, A ; Naccarati, A ; Pardini, B ; FitzGerald, L ; Lee, SC ; Ogino, S ; Bien, S ; Kooperberg, C ; Li, C ; Lin, Y ; Prentice, R ; Qu, C ; Bezieau, S ; Tangen, C ; Mardis, E ; Yamaji, T ; Sawada, N ; Iwasaki, M ; Haiman, C ; Le Marchand, L ; Wu, A ; Qu, C ; McNeil, C ; Coetzee, G ; Hayward, C ; Deary, I ; Harris, S ; Theodoratou, E ; Reid, S ; Walker, M ; Ooi, LY ; Moreno, V ; Casey, G ; Gruber, S ; Tomlinson, I ; Zheng, W ; Dunlop, M ; Houlston, R ; Peters, U (NATURE PORTFOLIO, 2023-01)
    Colorectal cancer (CRC) is a leading cause of mortality worldwide. We conducted a genome-wide association study meta-analysis of 100,204 CRC cases and 154,587 controls of European and east Asian ancestry, identifying 205 independent risk associations, of which 50 were unreported. We performed integrative genomic, transcriptomic and methylomic analyses across large bowel mucosa and other tissues. Transcriptome- and methylome-wide association studies revealed an additional 53 risk associations. We identified 155 high-confidence effector genes functionally linked to CRC risk, many of which had no previously established role in CRC. These have multiple different functions and specifically indicate that variation in normal colorectal homeostasis, proliferation, cell adhesion, migration, immunity and microbial interactions determines CRC risk. Crosstissue analyses indicated that over a third of effector genes most probably act outside the colonic mucosa. Our findings provide insights into colorectal oncogenesis and highlight potential targets across tissues for new CRC treatment and chemoprevention strategies.
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    A Genetic Locus within the FMN1/GREM1 Gene Region Interacts with Body Mass Index in Colorectal Cancer Risk
    Aglago, EK ; Kim, A ; Lin, Y ; Qu, C ; Evangelou, M ; Ren, Y ; Morrison, J ; Albanes, D ; Arndt, V ; Barry, EL ; Baurley, JW ; Berndt, S ; Bien, SA ; Bishop, DT ; Bouras, E ; Brenner, H ; Buchanan, DD ; Budiarto, A ; Carreras-Torres, R ; Casey, G ; Cenggoro, TW ; Chen, AT ; Chang-Claude, J ; Chen, X ; Conti, D ; Devall, M ; Diez-Obrero, V ; Dimou, N ; Drew, D ; Figueiredo, JC ; Gallinger, S ; Giles, GG ; Gruber, SB ; Gsur, A ; Gunter, MJ ; Hampel, H ; Harlid, S ; Hidaka, A ; Harrison, TA ; Hoffmeister, M ; Huyghe, JR ; Jenkins, MA ; Jordahl, K ; Joshi, AD ; Kawaguchi, ES ; Keku, TO ; Kundaje, A ; Larsson, SC ; Le Marchand, L ; Lewinger, JP ; Li, L ; Lynch, BM ; Mahesworo, B ; Mandic, M ; Obon-Santacana, M ; Morento, V ; Murphy, N ; Men, H ; Nassir, R ; Newcomb, PA ; Ogino, S ; Ose, J ; Pai, RK ; Palmer, JR ; Papadimitriou, N ; Pardamean, B ; Peoples, AR ; Platz, EA ; Potter, JD ; Prentice, RL ; Rennert, G ; Ruiz-Narvaez, E ; Sakoda, LC ; Scacheri, PC ; Schmit, SL ; Schoen, RE ; Shcherbina, A ; Slattery, ML ; Stern, MC ; Su, Y-R ; Tangen, CM ; Thibodeau, SN ; Thomas, DC ; Tian, Y ; Ulrich, CM ; van Duijnhoven, FJB ; Van Guelpen, B ; Visvanathan, K ; Vodicka, P ; Wang, J ; White, E ; Wolk, A ; Woods, MO ; Wu, AH ; Zemlianskaia, N ; Hsu, L ; Gauderman, WJ ; Peters, U ; Tsilidis, KK ; Campbell, PT (AMER ASSOC CANCER RESEARCH, 2023-08-01)
    UNLABELLED: Colorectal cancer risk can be impacted by genetic, environmental, and lifestyle factors, including diet and obesity. Gene-environment interactions (G × E) can provide biological insights into the effects of obesity on colorectal cancer risk. Here, we assessed potential genome-wide G × E interactions between body mass index (BMI) and common SNPs for colorectal cancer risk using data from 36,415 colorectal cancer cases and 48,451 controls from three international colorectal cancer consortia (CCFR, CORECT, and GECCO). The G × E tests included the conventional logistic regression using multiplicative terms (one degree of freedom, 1DF test), the two-step EDGE method, and the joint 3DF test, each of which is powerful for detecting G × E interactions under specific conditions. BMI was associated with higher colorectal cancer risk. The two-step approach revealed a statistically significant G×BMI interaction located within the Formin 1/Gremlin 1 (FMN1/GREM1) gene region (rs58349661). This SNP was also identified by the 3DF test, with a suggestive statistical significance in the 1DF test. Among participants with the CC genotype of rs58349661, overweight and obesity categories were associated with higher colorectal cancer risk, whereas null associations were observed across BMI categories in those with the TT genotype. Using data from three large international consortia, this study discovered a locus in the FMN1/GREM1 gene region that interacts with BMI on the association with colorectal cancer risk. Further studies should examine the potential mechanisms through which this locus modifies the etiologic link between obesity and colorectal cancer. SIGNIFICANCE: This gene-environment interaction analysis revealed a genetic locus in FMN1/GREM1 that interacts with body mass index in colorectal cancer risk, suggesting potential implications for precision prevention strategies.
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    Elucidating the Risk of Colorectal Cancer for Variants in Hereditary Colorectal Cancer Genes
    Mahmood, K ; Thomas, M ; Qu, C ; Hsu, L ; Buchanan, DD ; Peters, U (W B SAUNDERS CO-ELSEVIER INC, 2023-10)
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    Validation of a Genetic-Enhanced Risk Prediction Model for Colorectal Cancer in a Large Community-Based Cohort.
    Su, Y-R ; Sakoda, LC ; Jeon, J ; Thomas, M ; Lin, Y ; Schneider, JL ; Udaltsova, N ; Lee, JK ; Lansdorp-Vogelaar, I ; Peterse, EFP ; Zauber, AG ; Zheng, J ; Zheng, Y ; Hauser, E ; Baron, JA ; Barry, EL ; Bishop, DT ; Brenner, H ; Buchanan, DD ; Burnett-Hartman, A ; Campbell, PT ; Casey, G ; Castellví-Bel, S ; Chan, AT ; Chang-Claude, J ; Figueiredo, JC ; Gallinger, SJ ; Giles, GG ; Gruber, SB ; Gsur, A ; Gunter, MJ ; Hampe, J ; Hampel, H ; Harrison, TA ; Hoffmeister, M ; Hua, X ; Huyghe, JR ; Jenkins, MA ; Keku, TO ; Marchand, LL ; Li, L ; Lindblom, A ; Moreno, V ; Newcomb, PA ; Pharoah, PDP ; Platz, EA ; Potter, JD ; Qu, C ; Rennert, G ; Schoen, RE ; Slattery, ML ; Song, M ; van Duijnhoven, FJB ; Van Guelpen, B ; Vodicka, P ; Wolk, A ; Woods, MO ; Wu, AH ; Hayes, RB ; Peters, U ; Corley, DA ; Hsu, L (American Association for Cancer Research (AACR), 2023-03-06)
    BACKGROUND: Polygenic risk scores (PRS) which summarize individuals' genetic risk profile may enhance targeted colorectal cancer screening. A critical step towards clinical implementation is rigorous external validations in large community-based cohorts. This study externally validated a PRS-enhanced colorectal cancer risk model comprising 140 known colorectal cancer loci to provide a comprehensive assessment on prediction performance. METHODS: The model was developed using 20,338 individuals and externally validated in a community-based cohort (n = 85,221). We validated predicted 5-year absolute colorectal cancer risk, including calibration using expected-to-observed case ratios (E/O) and calibration plots, and discriminatory accuracy using time-dependent AUC. The PRS-related improvement in AUC, sensitivity and specificity were assessed in individuals of age 45 to 74 years (screening-eligible age group) and 40 to 49 years with no endoscopy history (younger-age group). RESULTS: In European-ancestral individuals, the predicted 5-year risk calibrated well [E/O = 1.01; 95% confidence interval (CI), 0.91-1.13] and had high discriminatory accuracy (AUC = 0.73; 95% CI, 0.71-0.76). Adding the PRS to a model with age, sex, family and endoscopy history improved the 5-year AUC by 0.06 (P < 0.001) and 0.14 (P = 0.05) in the screening-eligible age and younger-age groups, respectively. Using a risk-threshold of 5-year SEER colorectal cancer incidence rate at age 50 years, adding the PRS had a similar sensitivity but improved the specificity by 11% (P < 0.001) in the screening-eligible age group. In the younger-age group it improved the sensitivity by 27% (P = 0.04) with similar specificity. CONCLUSIONS: The proposed PRS-enhanced model provides a well-calibrated 5-year colorectal cancer risk prediction and improves discriminatory accuracy in the external cohort. IMPACT: The proposed model has potential utility in risk-stratified colorectal cancer prevention.
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    Genome-Wide Interaction Analysis of Genetic Variants With Menopausal Hormone Therapy for Colorectal Cancer Risk
    Tian, Y ; Kim, AE ; Bien, SA ; Lin, Y ; Qu, C ; Harrison, TA ; Carreras-Torres, R ; Diez-Obrero, V ; Dimou, N ; Drew, DA ; Hidaka, A ; Huyghe, JR ; Jordahl, KM ; Morrison, J ; Murphy, N ; Obon-Santacana, M ; Ulrich, CM ; Ose, J ; Peoples, AR ; Ruiz-Narvaez, EA ; Shcherbina, A ; Stern, MC ; Su, Y-R ; van Duijnhoven, FJB ; Arndt, V ; Baurley, JW ; Berndt, S ; Bishop, DT ; Brenner, H ; Buchanan, DD ; Chan, AT ; Figueiredo, JC ; Gallinger, S ; Gruber, SB ; Harlid, S ; Hoffmeister, M ; Jenkins, MA ; Joshi, AD ; Keku, TO ; Larsson, SC ; Le Marchand, L ; Li, L ; Giles, GG ; Milne, RL ; Nan, H ; Nassir, R ; Ogino, S ; Budiarto, A ; Platz, EA ; Potter, JD ; Prentice, RL ; Rennert, G ; Sakoda, LC ; Schoen, RE ; Slattery, ML ; Thibodeau, SN ; Van Guelpen, B ; Visvanathan, K ; White, E ; Wolk, A ; Woods, MO ; Wu, AH ; Campbell, PT ; Casey, G ; Conti, D ; Gunter, MJ ; Kundaje, A ; Lewinger, JP ; Moreno, V ; Newcomb, PA ; Pardamean, B ; Thomas, DC ; Tsilidis, KK ; Peters, U ; Gauderman, WJ ; Hsu, L ; Chang-Claude, J (OXFORD UNIV PRESS INC, 2022-08-08)
    BACKGROUND: The use of menopausal hormone therapy (MHT) may interact with genetic variants to influence colorectal cancer (CRC) risk. METHODS: We conducted a genome-wide, gene-environment interaction between single nucleotide polymorphisms and the use of any MHT, estrogen only, and combined estrogen-progestogen therapy with CRC risk, among 28 486 postmenopausal women (11 519 CRC patients and 16 967 participants without CRC) from 38 studies, using logistic regression, 2-step method, and 2- or 3-degree-of-freedom joint test. A set-based score test was applied for rare genetic variants. RESULTS: The use of any MHT, estrogen only and estrogen-progestogen were associated with a reduced CRC risk (odds ratio [OR] = 0.71, 95% confidence interval [CI] = 0.64 to 0.78; OR = 0.65, 95% CI = 0.53 to 0.79; and OR = 0.73, 95% CI = 0.59 to 0.90, respectively). The 2-step method identified a statistically significant interaction between a GRIN2B variant rs117868593 and MHT use, whereby MHT-associated CRC risk was statistically significantly reduced in women with the GG genotype (OR = 0.68, 95% CI = 0.64 to 0.72) but not within strata of GC or CC genotypes. A statistically significant interaction between a DCBLD1 intronic variant at 6q22.1 (rs10782186) and MHT use was identified by the 2-degree-of-freedom joint test. The MHT-associated CRC risk was reduced with increasing number of rs10782186-C alleles, showing odds ratios of 0.78 (95% CI = 0.70 to 0.87) for TT, 0.68 (95% CI = 0.63 to 0.73) for TC, and 0.66 (95% CI = 0.60 to 0.74) for CC genotypes. In addition, 5 genes in rare variant analysis showed suggestive interactions with MHT (2-sided P < 1.2 × 10-4). CONCLUSION: Genetic variants that modify the association between MHT and CRC risk were identified, offering new insights into pathways of CRC carcinogenesis and potential mechanisms involved.
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    Genetic variants associated with circulating C-reactive protein levels and colorectal cancer survival: Sex-specific and lifestyle factors specific associations
    Huang, Y ; Hua, X ; Labadie, JD ; Harrison, TA ; Dai, JY ; Lindstrom, S ; Lin, Y ; Berndt, S ; Buchanan, DD ; Campbell, PT ; Casey, G ; Gallinger, SJ ; Gunter, MJ ; Hoffmeister, M ; Jenkins, MA ; Sakoda, LC ; Schoen, RE ; Diergaarde, B ; Slattery, ML ; White, E ; Giles, G ; Brenner, H ; Chang-Claude, J ; Joshi, A ; Ma, W ; Pai, RK ; Chan, AT ; Peters, U ; Newcomb, PA (WILEY, 2022-05-01)
    Elevated blood levels of C-reactive protein (CRP) have been linked to colorectal cancer (CRC) survival. We evaluated genetic variants associated with CRP levels and their interactions with sex and lifestyle factors in association with CRC-specific mortality. Our study included 16 142 CRC cases from the International Survival Analysis in Colorectal Cancer Consortium. We identified 618 common single nucleotide polymorphisms (SNPs) associated with CRP levels from the NHGRI-EBI GWAS Catalog. Cox proportional hazards regression was used to estimate hazard ratios (HRs) and 95% confidence intervals (CIs) for associations between SNPs and CRC-specific mortality adjusting for age, sex, genotyping platform/study and principal components. We investigated their interactions with sex and lifestyle factors using likelihood ratio tests. Of 5472 (33.9%) deaths accrued over up to 10 years of follow-up, 3547 (64.8%) were due to CRC. No variants were associated with CRC-specific mortality after multiple comparison correction. We observed strong evidence of interaction between variant rs1933736 at FRK gene and sex in relation to CRC-specific mortality (corrected Pinteraction  = .0004); women had higher CRC-specific mortality associated with the minor allele (HR = 1.11, 95% CI = 1.04-1.19) whereas an inverse association was observed for men (HR = 0.88, 95% CI = 0.82-0.94). There was no evidence of interactions between CRP-associated SNPs and alcohol, obesity or smoking. Our study observed a significant interaction between sex and a CRP-associated variant in relation to CRC-specific mortality. Future replication of this association and functional annotation of the variant are needed.
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    Body mass index and molecular subtypes of colorectal cancer
    Murphy, N ; Newton, CC ; Song, M ; Papadimitriou, N ; Hoffmeister, M ; Phipps, A ; Harrison, TA ; Newcomb, PA ; Aglago, EK ; Berndt, S ; Brenner, H ; Buchanan, DD ; Cao, Y ; Chan, AT ; Chen, X ; Cheng, I ; Chang-Claude, J ; Dimou, N ; Drew, D ; Farris, AB ; French, AJ ; Gallinger, S ; Georgeson, P ; Giannakis, M ; Giles, GG ; Gruber, SB ; Harlid, S ; Hsu, L ; Huang, W-Y ; Jenkins, MA ; Laskar, RS ; Le Marchand, L ; Limburg, P ; Lin, Y ; Mandic, M ; Nowak, JA ; Obon-Santacana, M ; Ogino, S ; Qu, C ; Sakoda, LC ; Schoen, RE ; Southey, MC ; Stadler, ZK ; Steinfelder, RS ; Sun, W ; Thibodeau, SN ; Toland, AE ; Trinh, QM ; Tsilidis, KK ; Ugai, T ; Van Guelpen, B ; Wang, X ; Woods, MO ; Zaidi, SH ; Gunter, MJ ; Peters, U ; Campbell, PT (OXFORD UNIV PRESS INC, 2023-02)
    BACKGROUND: Obesity is an established risk factor for colorectal cancer (CRC), but the evidence for the association is inconsistent across molecular subtypes of the disease. METHODS: We pooled data on body mass index (BMI), tumor microsatellite instability status, CpG island methylator phenotype status, BRAF and KRAS mutations, and Jass classification types for 11 872 CRC cases and 11 013 controls from 11 observational studies. We used multinomial logistic regression to estimate odds ratios (OR) and 95% confidence intervals (CI) adjusted for covariables. RESULTS: Higher BMI was associated with increased CRC risk (OR per 5 kg/m2 = 1.18, 95% CI = 1.15 to 1.22). The positive association was stronger for men than women but similar across tumor subtypes defined by individual molecular markers. In analyses by Jass type, higher BMI was associated with elevated CRC risk for types 1-4 cases but not for type 5 CRC cases (considered familial-like/Lynch syndrome microsatellite instability-H, CpG island methylator phenotype-low or negative, BRAF-wild type, KRAS-wild type, OR = 1.04, 95% CI = 0.90 to 1.20). This pattern of associations for BMI and Jass types was consistent by sex and design of contributing studies (cohort or case-control). CONCLUSIONS: In contrast to previous reports with fewer study participants, we found limited evidence of heterogeneity for the association between BMI and CRC risk according to molecular subtype, suggesting that obesity influences nearly all major pathways involved in colorectal carcinogenesis. The null association observed for the Jass type 5 suggests that BMI is not a risk factor for the development of CRC for individuals with Lynch syndrome.
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    Interactions between folate intake and genetic predictors of gene expression levels associated with colorectal cancer risk
    Haas, CB ; Su, Y-R ; Petersen, P ; Wang, X ; Bien, SA ; Lin, Y ; Albanes, D ; Weinstein, SJ ; Jenkins, MA ; Figueiredo, JC ; Newcomb, PA ; Casey, G ; Le Marchand, L ; Campbell, PT ; Moreno, V ; Potter, JD ; Sakoda, LC ; Slattery, ML ; Chan, AT ; Li, L ; Giles, GG ; Milne, RL ; Gruber, SB ; Rennert, G ; Woods, MO ; Gallinger, SJ ; Berndt, S ; Hayes, RB ; Huang, W-Y ; Wolk, A ; White, E ; Nan, H ; Nassir, R ; Lindor, NM ; Lewinger, JP ; Kim, AE ; Conti, D ; Gauderman, WJ ; Buchanan, DD ; Peters, U ; Hsu, L (NATURE PORTFOLIO, 2022-11-07)
    Observational studies have shown higher folate consumption to be associated with lower risk of colorectal cancer (CRC). Understanding whether and how genetic risk factors interact with folate could further elucidate the underlying mechanism. Aggregating functionally relevant genetic variants in set-based variant testing has higher power to detect gene-environment (G × E) interactions and may provide information on the underlying biological pathway. We investigated interactions between folate consumption and predicted gene expression on colorectal cancer risk across the genome. We used variant weights from the PrediXcan models of colon tissue-specific gene expression as a priori variant information for a set-based G × E approach. We harmonized total folate intake (mcg/day) based on dietary intake and supplemental use across cohort and case-control studies and calculated sex and study specific quantiles. Analyses were performed using a mixed effects score tests for interactions between folate and genetically predicted expression of 4839 genes with available genetically predicted expression. We pooled results across 23 studies for a total of 13,498 cases with colorectal tumors and 13,918 controls of European ancestry. We used a false discovery rate of 0.2 to identify genes with suggestive evidence of an interaction. We found suggestive evidence of interaction with folate intake on CRC risk for genes including glutathione S-Transferase Alpha 1 (GSTA1; p = 4.3E-4), Tonsuko Like, DNA Repair Protein (TONSL; p = 4.3E-4), and Aspartylglucosaminidase (AGA: p = 4.5E-4). We identified three genes involved in preventing or repairing DNA damage that may interact with folate consumption to alter CRC risk. Glutathione is an antioxidant, preventing cellular damage and is a downstream metabolite of homocysteine and metabolized by GSTA1. TONSL is part of a complex that functions in the recovery of double strand breaks and AGA plays a role in lysosomal breakdown of glycoprotein.
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    Identifying colorectal cancer caused by biallelic MUTYH pathogenic variants using tumor mutational signatures
    Georgeson, P ; Harrison, TA ; Pope, BJ ; Zaidi, SH ; Qu, C ; Steinfelder, RS ; Lin, Y ; Joo, JE ; Mahmood, K ; Clendenning, M ; Walker, R ; Amitay, EL ; Berndt, S ; Brenner, H ; Campbell, PT ; Cao, Y ; Chan, AT ; Chang-Claude, J ; Doheny, KF ; Drew, DA ; Figueiredo, JC ; French, AJ ; Gallinger, S ; Giannakis, M ; Giles, GG ; Gsur, A ; Gunter, MJ ; Hoffmeister, M ; Hsu, L ; Huang, W-Y ; Limburg, P ; Manson, JE ; Moreno, V ; Nassir, R ; Nowak, JA ; Obon-Santacana, M ; Ogino, S ; Phipps, A ; Potter, JD ; Schoen, RE ; Sun, W ; Toland, AE ; Trinh, QM ; Ugai, T ; Macrae, FA ; Rosty, C ; Hudson, TJ ; Jenkins, MA ; Thibodeau, SN ; Winship, IM ; Peters, U ; Buchanan, DD (NATURE PORTFOLIO, 2022-06-06)
    Carriers of germline biallelic pathogenic variants in the MUTYH gene have a high risk of colorectal cancer. We test 5649 colorectal cancers to evaluate the discriminatory potential of a tumor mutational signature specific to MUTYH for identifying biallelic carriers and classifying variants of uncertain clinical significance (VUS). Using a tumor and matched germline targeted multi-gene panel approach, our classifier identifies all biallelic MUTYH carriers and all known non-carriers in an independent test set of 3019 colorectal cancers (accuracy = 100% (95% confidence interval 99.87-100%)). All monoallelic MUTYH carriers are classified with the non-MUTYH carriers. The classifier provides evidence for a pathogenic classification for two VUS and a benign classification for five VUS. Somatic hotspot mutations KRAS p.G12C and PIK3CA p.Q546K are associated with colorectal cancers from biallelic MUTYH carriers compared with non-carriers (p = 2 × 10-23 and p = 6 × 10-11, respectively). Here, we demonstrate the potential application of mutational signatures to tumor sequencing workflows to improve the identification of biallelic MUTYH carriers.
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    Genetically Predicted Circulating C-Reactive Protein Concentration and Colorectal Cancer Survival: A Mendelian Randomization Consortium Study
    Hua, X ; Dai, JY ; Lindstrom, S ; Harrison, TA ; Lin, Y ; Alberts, SR ; Alwers, E ; Berndt, S ; Brenner, H ; Buchanan, DD ; Campbell, PT ; Casey, G ; Chang-Claude, J ; Gallinger, S ; Giles, GG ; Goldberg, RM ; Gunter, MJ ; Hoffmeister, M ; Jenkins, MA ; Joshi, AD ; Ma, W ; Milne, RL ; Murphy, N ; Pai, RK ; Sakoda, LC ; Schoen, RE ; Shi, Q ; Slattery, ML ; Song, M ; White, E ; Le Marchand, L ; Chan, AT ; Peters, U ; Newcomb, PA (AMER ASSOC CANCER RESEARCH, 2021-07)
    BACKGROUND: A positive association between circulating C-reactive protein (CRP) and colorectal cancer survival was reported in observational studies, which are susceptible to unmeasured confounding and reverse causality. We used a Mendelian randomization approach to evaluate the association between genetically predicted CRP concentrations and colorectal cancer-specific survival. METHODS: We used individual-level data for 16,918 eligible colorectal cancer cases of European ancestry from 15 studies within the International Survival Analysis of Colorectal Cancer Consortium. We calculated a genetic-risk score based on 52 CRP-associated genetic variants identified from genome-wide association studies. Because of the non-collapsibility of hazard ratios from Cox proportional hazards models, we used the additive hazards model to calculate hazard differences (HD) and 95% confidence intervals (CI) for the association between genetically predicted CRP concentrations and colorectal cancer-specific survival, overall and by stage at diagnosis and tumor location. Analyses were adjusted for age at diagnosis, sex, body mass index, genotyping platform, study, and principal components. RESULTS: Of the 5,395 (32%) deaths accrued over up to 10 years of follow-up, 3,808 (23%) were due to colorectal cancer. Genetically predicted CRP concentration was not associated with colorectal cancer-specific survival (HD, -1.15; 95% CI, -2.76 to 0.47 per 100,000 person-years; P = 0.16). Similarly, no associations were observed in subgroup analyses by stage at diagnosis or tumor location. CONCLUSIONS: Despite adequate power to detect moderate associations, our results did not support a causal effect of circulating CRP concentrations on colorectal cancer-specific survival. IMPACT: Future research evaluating genetically determined levels of other circulating inflammatory biomarkers (i.e., IL6) with colorectal cancer survival outcomes is needed.