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Genome sequencing-based discovery of a novel deep intronic APC pathogenic variant causing exonization

Anikó Bozsik, Henriett Butz, Vince Kornél Grolmusz, Csaba Polgár, Attila Patócs, J. Papp

2023European Journal of Human Genetics10 citationsDOIOpen Access PDF

Abstract

Familial adenomatous polyposis (FAP) is a hereditary cancer syndrome that occurs as a result of germline mutations in the APC gene. Despite a clear clinical diagnosis of FAP, a certain proportion of the APC variants are not readily detectable through conventional genotyping routines. We accomplished genome sequencing in duo of the disease-affected proband and non-affected sibling followed by in silico predictions and a series of RNA-based assays clarifying variant functionality. By prioritizing variants obtained by genome sequencing, we discovered the novel deep intronic alteration APC:c.531 + 1482 A > G that was demonstrated to cause out-of-frame exonization of 56 base pairs from intron 5 of the gene. Further cDNA assays confirmed, that the aberrant splicing event was complete and its splice product was subject to nonsense-mediated decay. Co-segregation was observed between the variant carrier status and the disease phenotype. Cumulative evidence confirmed that APC:c.531 + 1482 A > G is a pathogenic variant causative of the disease.

Topics & Concepts

GeneticsBiologyExonIntronRNA splicingFamilial adenomatous polyposisGenomeProbandGeneNonsense-mediated decayCancerMutationRNAColorectal cancerGenetic factors in colorectal cancerCancer Genomics and DiagnosticsGenomics and Rare Diseases
Genome sequencing-based discovery of a novel deep intronic APC pathogenic variant causing exonization | Litcius