Targeted sequencing of 36 known or putative colorectal cancer susceptibility genes

doi:10.1002/mgg3.317

. 2017 Jul 23;5(5):553-569.

doi: 10.1002/mgg3.317. eCollection 2017 Sep.

Targeted sequencing of 36 known or putative colorectal cancer susceptibility genes

Melissa S DeRycke¹, Shanaka Gunawardena¹, Jessica R Balcom¹, Angela M Pickart¹, Lindsey A Waltman¹, Amy J French¹, Shannon McDonnell², Shaun M Riska², Zachary C Fogarty², Melissa C Larson², Sumit Middha², Bruce W Eckloff³, Yan W Asmann⁴, Matthew J Ferber¹, Robert W Haile⁵, Steven Gallinger⁶, Mark Clendenning⁷, Christophe Rosty^{7

8

9}, Aung K Win^{10

11}, Daniel D Buchanan^{7

10

11}, John L Hopper¹⁰, Polly A Newcomb¹², Loic Le Marchand¹³, Ellen L Goode¹, Noralane M Lindor¹⁴, Stephen N Thibodeau¹

Affiliations

¹ Department of Laboratory Medicine and PathologyMayo ClinicRochesterMinnesota.
² Department of Biomedical Statistics and InformaticsMayo ClinicRochesterMinnesota.
³ Medical Genome FacilityMayo ClinicRochesterMinnesota.
⁴ Department of Health Sciences ResearchMayo ClinicJacksonvilleFlorida.
⁵ Division of OncologyDepartment of MedicineStanford UniversityStanfordCalifornia.
⁶ Department of SurgeryMount Sinai HospitalTorontoOntarioCanada.
⁷ Colorectal Oncogenomics GroupGenetic Epidemiology LaboratoryDepartment of PathologyThe University of MelbourneParkvilleVictoriaAustralia.
⁸ Envoi Specialist PathologistsHerstonQueenslandAustralia.
⁹ School of MedicineUniversity of QueenslandHerstonQueenslandAustralia.
¹⁰ Centre for Epidemiology and BiostatisticsMelbourne School of Population and Global HealthThe University of MelbourneParkvilleVictoriaAustralia.
¹¹ Genetic Medicine and Familial Cancer CentreThe Royal Melbourne HospitalParkvilleVictoriaAustralia.
¹² Public Health Sciences DivisionFred Hutchinson Cancer Research CenterSeattleWashington.
¹³ Epidemiology ProgramUniversity of Hawaii Cancer CenterHonoluluHawaii.
¹⁴ Department of Health Sciences ResearchMayo ClinicScottsdaleArkansas.

PMID: 28944238
PMCID: PMC5606870
DOI: 10.1002/mgg3.317

Targeted sequencing of 36 known or putative colorectal cancer susceptibility genes

Melissa S DeRycke et al. Mol Genet Genomic Med. 2017.

. 2017 Jul 23;5(5):553-569.

doi: 10.1002/mgg3.317. eCollection 2017 Sep.

Authors

Affiliations

¹ Department of Laboratory Medicine and PathologyMayo ClinicRochesterMinnesota.
² Department of Biomedical Statistics and InformaticsMayo ClinicRochesterMinnesota.
³ Medical Genome FacilityMayo ClinicRochesterMinnesota.
⁴ Department of Health Sciences ResearchMayo ClinicJacksonvilleFlorida.
⁵ Division of OncologyDepartment of MedicineStanford UniversityStanfordCalifornia.
⁶ Department of SurgeryMount Sinai HospitalTorontoOntarioCanada.
⁷ Colorectal Oncogenomics GroupGenetic Epidemiology LaboratoryDepartment of PathologyThe University of MelbourneParkvilleVictoriaAustralia.
⁸ Envoi Specialist PathologistsHerstonQueenslandAustralia.
⁹ School of MedicineUniversity of QueenslandHerstonQueenslandAustralia.
¹⁰ Centre for Epidemiology and BiostatisticsMelbourne School of Population and Global HealthThe University of MelbourneParkvilleVictoriaAustralia.
¹¹ Genetic Medicine and Familial Cancer CentreThe Royal Melbourne HospitalParkvilleVictoriaAustralia.
¹² Public Health Sciences DivisionFred Hutchinson Cancer Research CenterSeattleWashington.
¹³ Epidemiology ProgramUniversity of Hawaii Cancer CenterHonoluluHawaii.
¹⁴ Department of Health Sciences ResearchMayo ClinicScottsdaleArkansas.

PMID: 28944238
PMCID: PMC5606870
DOI: 10.1002/mgg3.317

Abstract

Background: Mutations in several genes predispose to colorectal cancer. Genetic testing for hereditary colorectal cancer syndromes was previously limited to single gene tests; thus, only a very limited number of genes were tested, and rarely those infrequently mutated in colorectal cancer. Next-generation sequencing technologies have made it possible to sequencing panels of genes known and suspected to influence colorectal cancer susceptibility.

Methods: Targeted sequencing of 36 known or putative CRC susceptibility genes was conducted for 1231 CRC cases from five subsets: (1) Familial Colorectal Cancer Type X (n = 153); (2) CRC unselected by tumor immunohistochemical or microsatellite stability testing (n = 548); (3) young onset (age <50 years) (n = 333); (4) proficient mismatch repair (MMR) in cases diagnosed at ≥50 years (n = 68); and (5) deficient MMR CRCs with no germline mutations in MLH1, MSH2, MSH6, or PMS2 (n = 129). Ninety-three unaffected controls were also sequenced.

Results: Overall, 29 nonsense, 43 frame-shift, 13 splice site, six initiator codon variants, one stop codon, 12 exonic deletions, 658 missense, and 17 indels were identified. Missense variants were reviewed by genetic counselors to determine pathogenicity; 13 were pathogenic, 61 were not pathogenic, and 584 were variants of uncertain significance. Overall, we identified 92 cases with pathogenic mutations in APC,MLH1,MSH2,MSH6, or multiple pathogenic MUTYH mutations (7.5%). Four cases with intact MMR protein expression by immunohistochemistry carried pathogenic MMR mutations.

Conclusions: Results across case subsets may help prioritize genes for inclusion in clinical gene panel tests and underscore the issue of variants of uncertain significance both in well-characterized genes and those for which limited experience has accumulated.

Keywords: Colorectal cancer; Familial Colorectal Cancer Type X; germline variants; young onset.

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References

1. Baudhuin, L. M. , Ferber M. J., Winters J. L., Steenblock K. J., Swanson R. L., French A. J., et al. 2005. Characterization of hMLH1 and hMSH2 gene dosage alterations in Lynch Syndrome patients. Gastroenterology 129:846–854. - PubMed
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[1] Baudhuin, L. M. , Ferber M. J., Winters J. L., Steenblock K. J., Swanson R. L., French A. J., et al. 2005. Characterization of hMLH1 and hMSH2 gene dosage alterations in Lynch Syndrome patients. Gastroenterology 129:846–854. - PubMed

[2] Baudhuin, L. M. , Ferber M. J., Winters J. L., Steenblock K. J., Swanson R. L., French A. J., et al. 2005. Characterization of hMLH1 and hMSH2 gene dosage alterations in Lynch Syndrome patients. Gastroenterology 129:846–854. - PubMed

[3] Boland, C. R. , and Goel A.. 2010. Microsatellite instability in colorectal cancer. Gastroenterology 138:2073–2087.e3. - PMC - PubMed

[4] Boland, C. R. , and Goel A.. 2010. Microsatellite instability in colorectal cancer. Gastroenterology 138:2073–2087.e3. - PMC - PubMed

[5] Burt, R. W. 2000. Colon cancer screening. Gastroenterology 119:837–853. - PubMed

[6] Burt, R. W. 2000. Colon cancer screening. Gastroenterology 119:837–853. - PubMed

[7] Chung, D. C. , and Rustgi A. K.. 2003. The hereditary nonpolyposis colorectal cancer syndrome: genetics and clinical implications[dhelix]. Ann. Intern. Med. 138:560–570. - PubMed

[8] Chung, D. C. , and Rustgi A. K.. 2003. The hereditary nonpolyposis colorectal cancer syndrome: genetics and clinical implications[dhelix]. Ann. Intern. Med. 138:560–570. - PubMed

[9] Cooper, D. N. , Ball E. V., and Krawczak M.. 1998. The human gene mutation database. Nucleic Acids Res. 26:285–287. - PMC - PubMed

[10] Cooper, D. N. , Ball E. V., and Krawczak M.. 1998. The human gene mutation database. Nucleic Acids Res. 26:285–287. - PMC - PubMed

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Targeted sequencing of 36 known or putative colorectal cancer susceptibility genes

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Targeted sequencing of 36 known or putative colorectal cancer susceptibility genes

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