4.8 Article

Identification of Susceptibility Loci and Genes for Colorectal Cancer Risk

GASTROENTEROLOGY (2016)

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期刊

GASTROENTEROLOGY
卷 150, 期 7, 页码 1633-1645

出版社

W B SAUNDERS CO-ELSEVIER INC
DOI: 10.1053/j.gastro.2016.02.076

关键词

Epidemiology; Single Nucleotide Polymorphisms; Colon Cancer; eQTL

类别

Gastroenterology & Hepatology

资金

  1. US National Institutes of Health [R01CA188214, R37CA070867, R01CA124558, P50CA095103, R01CA148667]
  2. Vanderbilt University School of Medicine
  3. Vanderbilt-Ingram Cancer Center [P30CA068485]
  4. Shanghai Women's Health Study (US NIH) [R37CA070867, UM1CA182910]
  5. Shanghai Men's Health Study (US NIH) [R01CA082729, UM1CA173640]
  6. Shanghai Breast and Endometrial Cancer Studies (US NIH) [R01CA064277, R01CA092585]
  7. Shanghai Colorectal Cancer Study 3 (US NIH) [R01CA188214, R37CA070867]
  8. Guangzhou Colorectal Cancer Study (National Key Scientific and Technological Project) [2011ZX09307-001-04
  9. ]
  10. Guangzhou Colorectal Cancer Study (National Basic Research Program) [2011CB504303]
  11. Guangzhou Colorectal Cancer Study (Natural Science Foundation of China) [81072383]
  12. Japan BioBank Colorectal Cancer Study (Ministry of Education, Culture, Sports, Science and Technology of the Japanese government)
  13. Hwasun Cancer Epidemiology Study-Colon and Rectum Cancer (HCES-CRC) [HCRI15011-1]
  14. Japanese Ministry of Education, Culture, Sports, Science and Technology [17015018, 221S0001]
  15. Korea-NCC (National Cancer Center) Colorectal Cancer Study (Basic Science Research Program through the National Research Foundation of Korea [2010-0010276, 2013R1A1A2A10008260]
  16. National Cancer Center Korea [0910220]
  17. KCPS-II Colorectal Cancer Study (National R&D Program for Cancer Control [1220180]
  18. KCPS-II Colorectal Cancer Study (Seoul RD Program) [10526]
  19. GECCO
  20. CORECT
  21. GECCO (US NIH) [U01CA137088, R01CA059045]
  22. DALS (US NIH) [R01CA048998]
  23. DACHS (German Federal Ministry of Education and Research) [BR 1704/6-1, BR 1704/6-3, BR 1704/6-4, CH 117/1-1, 01KH0404, 01ER0814]
  24. HPFS [P01 CA 055075, UM1 CA167552, R01 CA137178, R01 CA151993, P50 CA127003]
  25. NHS [R01 CA137178, R01 CA151993, P50 CA127003, UM1 CA186107, P01 CA87969]
  26. OFCCR (US NIH) [U01CA074783]
  27. PMH (US NIH) [R01CA076366]
  28. PHS (US NIH) [R01CA042182]
  29. VITAL (US NIH) [K05CA154337]
  30. WHI (US NIH) [HHSN268201100046C, HHSN268201100001C, HHSN268201100002C, HHSN268201100003C, HHSN268201100004C, HHSN271201100004C]
  31. PLCO (US NIH) [Z01CP 010200, U01HG004446, U01HG 004438]
  32. National Cancer Institute as part of the GAME-ON consortium (US NIH) [U19CA148107]
  33. National Cancer Institute [R01CA81488, P30CA014089]
  34. National Human Genome Research Institute at the US NIH [T32HG000040]
  35. National Institute of Environmental Health Sciences at the US NIH [T32ES013678]
  36. National Cancer Institute
  37. US NIH under RFA [CA-95-011]
  38. National Cancer Institute grant (US NIH) [U01CA122839]
  39. Ontario Research Fund
  40. Canadian Institutes of Health Research
  41. Cancer Risk Evaluation (CaRE) Program grant from the Canadian Cancer Society Research Institute
  42. Ontario Institute for Cancer Research through Ontario Ministry of Economic Development and Innovation
  43. Regional Hospital Clinical Research Program (PHRC)
  44. Regional Council of Pays de la Loire
  45. Groupement des Entreprises Francaises dans la Lutte Contre le Cancer (GEFLUC)
  46. Association Anne de Bretagne Genetique
  47. Ligue Regionale Contre le Cancer (LRCC)
  48. US NIH [Z01CP 010200, U01HG004446, U01HG 004438]
  49. Grants-in-Aid for Scientific Research [25293168] Funding Source: KAKEN

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BACKGROUND & AIMS: Known genetic factors explain only a small fraction of genetic variation in colorectal cancer (CRC). We conducted a genome-wide association study to identify risk loci for CRC. METHODS: This discovery stage included 8027 cases and 22,577 controls of East-Asian ancestry. Promising variants were evaluated in studies including as many as 11,044 cases and 12,047 controls. Tumor-adjacent normal tissues from 188 patients were analyzed to evaluate correlations of risk variants with expression levels of nearby genes. Potential functionality of risk variants were evaluated using public genomic and epigenomic databases. RESULTS: We identified 4 loci associated with CRC risk; P values for the most significant variant in each locus ranged from 3.92 x 10(-8) to 1.24 x 10(-12): 6p21.1 (rs4711689), 8q23.3 (rs2450115, rs6469656), 10q24.3 (rs4919687), and 12p13.3 (rs11064437). We also identified 2 risk variants at loci previously associated with CRC: 10q25.2 (rs10506868) and 20q13.3 (rs6061231). These risk variants, conferring an approximate 10%-18% increase in risk per allele, are located either inside or near protein-coding genes that include transcription factor EB (lysosome biogenesis and autophagy), eukaryotic translation initiation factor 3, subunit H (initiation of translation), cytochrome P450, family 17, subfamily A, polypeptide 1 (steroidogenesis), splA/ryanodine receptor domain and SOCS box containing 2 (proteasome degradation), and ribosomal protein S2 (ribosome biogenesis). Gene expression analyses showed a significant association (P < .05) for rs4711689 with transcription factor EB, rs6469656 with eukaryotic translation initiation factor 3, subunit H, rs11064437 with splA/ryanodine receptor domain and SOCS box containing 2, and rs6061231 with ribosomal protein S2. CONCLUSIONS: We identified susceptibility loci and genes associated with CRC risk, linking CRC predisposition to steroid hormone, protein synthesis and degradation, and autophagy pathways and providing added insight into the mechanism of CRC pathogenesis.

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