Peer-Reviewed Journal Details
Mandatory Fields
McVeigh, UM,McVeigh, TP,Curran, C,Miller, N,Morris, DW,Kerin, MJ
2020
February
Irish Journal Of Medical Science
Diagnostic yield of a custom-designed multi-gene cancer panel in Irish patients with breast cancer
Published
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Familial breast cancer Multi-gene panel Next-generation sequencing COLORECTAL-CANCER OVARIAN-CANCER VARIANT RECLASSIFICATION TRUNCATING VARIANTS GERMLINE MUTATIONS RISK-ASSESSMENT INTEGRAL TUMOR LYNCH SYNDROME BRCA1 GENE
Background Breast cancer is genetically heterogeneous, and parellel multi-gene sequencing is the most cost- and time-efficient manner to investigate breast cancer predisposition. Numerous multi-gene panels (MGPs) are commercially available, but many include genes with weak/unproven associaton with breast cancer, or with predisposition to cancer of other types. This study investigates the utility of a custom-designed multi-gene panel in an Irish cohort with breast cancer. Methods A custom panel comprising 83 genes offered by 19 clinical "breast cancer predisposition" MGPs was designed and applied to germline DNA from 91 patients with breast cancer and 77 unaffected ethnicially matched controls. Variants were identified and classified using a custom pipeline. Results Nineteen loss-of-function (LOF) and 334 missense variants were identified. After removing common and/or benign variants, 15 LOF and 30 missense variants were analysed. Variants in known breast cancer susceptibility genes were identified, including in BRCA1 and ATM in cases, and in NF1 and CHEK2 in controls. Most variants identified were in genes associated with predisposition to cancers other than breast cancer (BRIP1, RAD50, MUTYH, and mismatch repair genes), or in genes with unknown or unproven association with cancer. Conclusion Using multi-gene panels enables rapid, cost-effective identification of individuals with high-risk cancer predisposition syndromes. However, this approach also leads to an increased amount of uncertain results. Clinical management of individuals with particular genetic variants in the absence of a matching phenotype/family history is challenging. Further population and functional evidence is required to fully elucidate the clinical relevance of variants in genes of uncertain significance.
10.1007/s11845-020-02174-x
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