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. 2017 Apr 1;3(4):464-471.
doi: 10.1001/jamaoncol.2016.5194.

Prevalence and Spectrum of Germline Cancer Susceptibility Gene Mutations Among Patients With Early-Onset Colorectal Cancer

Rachel Pearlman  1 Wendy L Frankel  2 Benjamin Swanson  2 Weiqiang Zhao  2 Ahmet Yilmaz  2 Kristin Miller  2 Jason Bacher  2 Christopher Bigley  1 Lori Nelsen  1 Paul J Goodfellow  3 Richard M Goldberg  1 Electra Paskett  1 Peter G Shields  1 Jo L Freudenheim  4 Peter P Stanich  5 Ilene Lattimer  1 Mark Arnold  6 Sandya Liyanarachchi  7 Matthew Kalady  8 Brandie Heald  8 Carla Greenwood  9 Ian Paquette  10 Marla Prues  11 David J Draper  12 Carolyn Lindeman  12 J Philip Kuebler  13 Kelly Reynolds  14 Joanna M Brell  15 Amy A Shaper  16 Sameer Mahesh  17 Nicole Buie  18 Kisa Weeman  19 Kristin Shine  20 Mitchell Haut  21 Joan Edwards  21 Shyamal Bastola  22 Karen Wickham  22 Karamjit S Khanduja  23 Rosemary Zacks  24 Colin C Pritchard  25 Brian H Shirts  25 Angela Jacobson  25 Brian Allen  26 Albert de la Chapelle  7 Heather Hampel  1 Ohio Colorectal Cancer Prevention Initiative Study Group
Affiliations

Prevalence and Spectrum of Germline Cancer Susceptibility Gene Mutations Among Patients With Early-Onset Colorectal Cancer

Rachel Pearlman et al. JAMA Oncol. .

Abstract

Importance: Hereditary cancer syndromes infer high cancer risks and require intensive cancer surveillance, yet the prevalence and spectrum of these conditions among unselected patients with early-onset colorectal cancer (CRC) is largely undetermined.

Objective: To determine the frequency and spectrum of cancer susceptibility gene mutations among patients with early-onset CRC.

Design, setting, and participants: Overall, 450 patients diagnosed with colorectal cancer younger than 50 years were prospectively accrued from 51 hospitals into the Ohio Colorectal Cancer Prevention Initiative from January 1, 2013, to June 20, 2016. Mismatch repair (MMR) deficiency was determined by microsatellite instability and/or immunohistochemistry. Germline DNA was tested for mutations in 25 cancer susceptibility genes using next-generation sequencing.

Main outcomes and measures: Mutation prevalence and spectrum in patients with early-onset CRC was determined. Clinical characteristics were assessed by mutation status.

Results: In total 450 patients younger than 50 years were included in the study, and 75 gene mutations were found in 72 patients (16%). Forty-eight patients (10.7%) had MMR-deficient tumors, and 40 patients (83.3%) had at least 1 gene mutation: 37 had Lynch syndrome (13, MLH1 [including one with constitutional MLH1 methylation]; 16, MSH2; 1, MSH2/monoallelic MUTYH; 2, MSH6; 5, PMS2); 1 patient had the APC c.3920T>A, p.I1307K mutation and a PMS2 variant; 9 patients (18.8%) had double somatic MMR mutations (including 2 with germline biallelic MUTYH mutations); and 1 patient had somatic MLH1 methylation. Four hundred two patients (89.3%) had MMR-proficient tumors, and 32 patients (8%) had at least 1 gene mutation: 9 had mutations in high-penetrance CRC genes (5, APC; 1, APC/PMS2; 2, biallelic MUTYH; 1, SMAD4); 13 patients had mutations in high- or moderate-penetrance genes not traditionally associated with CRC (3, ATM; 1, ATM/CHEK2; 2, BRCA1; 4, BRCA2; 1, CDKN2A; 2, PALB2); 10 patients had mutations in low-penetrance CRC genes (3, APC c.3920T>A, p.I1307K; 7, monoallelic MUTYH). Importantly, 24 of 72 patients (33.3%) who were mutation positive did not meet established genetic testing criteria for the gene(s) in which they had a mutation.

Conclusions and relevance: Of 450 patients with early-onset CRC, 72 (16%) had gene mutations. Given the high frequency and wide spectrum of mutations, genetic counseling and testing with a multigene panel could be considered for all patients with early-onset CRC.

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Conflict of interest statement

Conflict of Interest Disclosures: Myriad Genetics Inc donated the next-generation sequencing testing for mismatch repair–proficient patients with CRC diagnosed younger than 50 years for this study. Dr Kalady discloses honorarium from Helomics and Transenterix and is a member of the speakers’ bureau for Helomics. Ms Heald discloses a consulting or advising role with Invitae and Myriad Genetics Inc and is a member of the speakers’ bureau for Myriad Genetics Inc. Dr Paquette has received honoraria from Medtronic and has served on the speakers’ bureau. Dr Kuebler discloses employment with Columbus Oncology Associates, LLC. Dr Mahesh discloses stock in Merck, Pfizer, Kite pharmaceuticals, Oncothyreon, and Exelixis. Ms Buie discloses research funding from Merck, Galera, Amgen, and Celgene. Dr Haut discloses research funding from Amgen, Celgene, Incyte, Conversant Bio, Evidera, EMD Serono, Vector Oncology, Bristol Myers, GlaxoSmithKline, Eli Lilly, Luitpold pharmaceuticals, and Sanofi pharmaceuticals. Mr Allen discloses employment and stock with Myriad Genetics Inc. Dr de la Chapelle discloses a patent or intellectual property interest with Genzyme and Ipsogen. Ms Hampel discloses a consulting or advising role with Invitae, research funding from Myriad Genetics Inc, and honoraria from Beacon LBS. No other conflicts are reported.

Figures

Figure
Figure. Testing Strategy
CRC indicates colorectal cancer; IHC, immunohistochemistry; MMR, mismatch repair; MSI, microsatellite instability. aMLH1 methylation indicated if tumor MSI-high and/or absent MLH1/PMS2 proteins on IHC. bMMR-deficient tumor indicates MSI-high and/or abnormal IHC. cMMR-proficient tumor indicates microsatellite stability and/or normal IHC.
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References

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