A 4.6 Mb Inversion Leading to PCDH15-LINC00844 and BICC1-PCDH15 Fusion Transcripts as a New Pathogenic Mechanism Implicated in Usher Syndrome Type 1.

Christel Vaché,Valérie Faugère,Michel Koenig,David Baux,Franck Pellestor,Catherine Blanchet,Isabelle Meunier,Floriane Darmaisin,Anne-Françoise Roux,Alessandro Liquori,Gema Garcia-Garcia,Jacques Puechberty

doi:10.3389/fgene.2020.00623

Abstract

Usher type 1 syndrome is a rare autosomal recessive disorder involving congenital severe-to-profound hearing loss, development of vision impairment in the first decade, and severe balance difficulties. The PCDH15 gene, one of the five genes implicated in this disease, is involved in 8–20% of cases. In this study, we aimed to identify and characterize the two causal variants in a French patient with typical Usher syndrome clinical features. Massively parallel sequencing-based gene panel and screening for large rearrangements were used, which detected a single multi-exon deletion in the PCDH15 gene. As the second pathogenic event was likely localized in the unscreened regions of the gene, PCDH15 transcripts from cultured nasal cells were analyzed and revealed a loss of junction between exon 13 and exon 14. This aberration could be explained by the identification of two fusion transcripts, PCDH15-LINC00844 and BICC1-PCDH15, originating from a 4.6 Mb inversion. This complex chromosomal rearrangement could not be detected by our diagnostic approach but was instead characterized by long-read sequencing, which offers the possibility of detecting balanced structural variants (SVs). This finding extends our knowledge of the mutational spectrum of the PCDH15 gene with the first ever identification of a large causal paracentric inversion of chromosome 10 and illustrates the utility of screening balanced SVs in an exhaustive molecular diagnostic approach.

Highlights

Usher syndrome (USH) is an autosomal recessive disorder characterized by bilateral sensorineural hearing loss (SNHL) and progressive deterioration of vision due to retinitis pigmentosa (RP)
Among the three clinical USH types described according to the severity of hearing loss, the onset of RP, and the presence or absence of vestibular dysfunction, Usher type 1 (USH1) is the most severe form with congenital severe-to-profound SNHL with RP occurring in the first decade, and vestibular dysfunction
As no other pathogenic candidate variant had been detected in the 63 NSHL genes and the 38 RP genes of our gene panel, we hypothesized that PCDH15 was the causal gene carrying a paternal pathogenic variation in the unscreened intronic sequences leading to a splice defect

Summary

Introduction

Usher syndrome (USH) is an autosomal recessive disorder characterized by bilateral sensorineural hearing loss (SNHL) and progressive deterioration of vision due to retinitis pigmentosa (RP). PCDH15, located on chromosome 10, spans nearly 1 Mb and encodes three prominent transmembrane protocadherin-15 (Pcdh15) splice isoforms (Pcdh15-CD1, Pcdh15-CD2, and Pcdh15-CD3) differing mainly in their cytoplasmic domains (CD). This gene is involved in 8% to 20% of USH1 cases (Roux et al, 2006; Le Guédard et al, 2007; Jiang et al, 2015; Ivanova et al, 2018; Sun et al, 2018) and presents a mutational spectrum comprising nonsense and splicing variants, out-of-frame insertions/deletions, some missense variants, and a significant proportion of large genomic rearrangements (see the Locus Specific Database LOVD1)

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