Abstract
Genetic predisposition accounts for nearly 10% of all melanoma cases and has been associated with a dozen moderate- to high-penetrance genes, including CDKN2A, CDK4, POT1 and BAP1. However, in most melanoma-prone families, the genetic etiology of cancer predisposition remains undetermined. The goal of this study was to identify rare genomic variants associated with cutaneous melanoma susceptibility in melanoma-prone families. Whole-exome sequencing was performed in 2 affected individuals of 5 melanoma-prone families negative for mutations in CDKN2A and CDK4, the major cutaneous melanoma risk genes. A total of 288 rare coding variants shared by the affected relatives of each family were identified, including 7 loss-of-function variants. By performing in silico analyses of gene function, biological pathways, and variant pathogenicity prediction, we underscored the putative role of several genes for melanoma risk, including previously described genes such as MYO7A and WRN, as well as new putative candidates, such as SERPINB4, HRNR, and NOP10. In conclusion, our data revealed rare germline variants in melanoma-prone families contributing with a novel set of potential candidate genes to be further investigated in future studies.
Highlights
Ultraviolet radiation exposure is the leading environmental risk factor for the development of cutaneous melanoma [1]
The ten selected members of the five families were screened for TERT promoter and MITF E318K variants [13] and for rare germline copy-number variations [17], with negative results for both analyses, as previously published
Half of the patients were diagnosed at age 40 or younger, and most (80%) diagnoses occurred before the sixth decade of life
Summary
Ultraviolet radiation exposure is the leading environmental risk factor for the development of cutaneous melanoma [1]. Intermittent sun exposure and sunburns are highly associated with. Whole-exome sequencing in melanoma-prone families this, the data can be assessed trough the link below: https://dataview.ncbi.nlm.nih.gov/object/ PRJNA705160?reviewer= aqgueip1f84vot7q8qed6br8e2
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