Literature DB >> 31544997

Deep-intronic variants in CNGB3 cause achromatopsia by pseudoexon activation.

Nicole Weisschuh1, Marc Sturm2, Britta Baumann1, Isabelle Audo3,4,5, Carmen Ayuso6,7, Beatrice Bocquet8,9, Kari Branham10, Brian P Brooks11, Jaume Catalá-Mora12, Roberto Giorda13, John R Heckenlively10, Robert B Hufnagel11, Samuel G Jacobson14, Ulrich Kellner15, Sofia Kitsiou-Tzeli16, Alexandre Matet17, Loreto Martorell Sampol18, Isabelle Meunier7,8, Günther Rudolph19, Dror Sharon20, Katarina Stingl21, Berthold Streubel22, Balázs Varsányi23,24, Bernd Wissinger1, Susanne Kohl1.   

Abstract

Our comprehensive cohort of 1100 unrelated achromatopsia (ACHM) patients comprises a considerable number of cases (~5%) harboring only a single pathogenic variant in the major ACHM gene CNGB3. We sequenced the entire CNGB3 locus in 33 of these patients to find a second variant which eventually explained the patients' phenotype. Forty-seven intronic CNGB3 variants were identified in 28 subjects after a filtering step based on frequency and the exclusion of variants found in cis with pathogenic alleles. In a second step, in silico prediction tools were used to filter out those variants with little odds of being deleterious. This left three variants that were analyzed using heterologous splicing assays. Variant c.1663-1205G>A, found in 14 subjects, and variant c.1663-2137C>T, found in two subjects, were indeed shown to exert a splicing defect by causing pseudoexon insertion into the transcript. Subsequent screening of further unsolved CNGB3 subjects identified four additional cases harboring the c.1663-1205G>A variant which makes it the eighth most frequent CNGB3 variant in our cohort. Compound heterozygosity could be validated in ten cases. Our study demonstrates that whole gene sequencing can be a powerful approach to identify the second pathogenic allele in patients apparently harboring only one disease-causing variant.
© 2019 Wiley Periodicals, Inc.

Entities:  

Keywords:  CNGB3; achromatopsia; deep intronic variant; pseudoexon; splicing defect

Mesh:

Substances:

Year:  2019        PMID: 31544997      PMCID: PMC8182131          DOI: 10.1002/humu.23920

Source DB:  PubMed          Journal:  Hum Mutat        ISSN: 1059-7794            Impact factor:   4.700


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