Exome Variant Prioritization in a Large Cohort of Hearing-impaired Individuals Indicates IKZF2 to Be Associated with Non-syndromic Hearing Loss and Guides Future Research of Unsolved Cases

Overview

Journal Hum Genet

Specialty Genetics

Date 2024 Oct 15

PMID 39406892

Authors

Hedwig M Velde

Maryam Vaseghi-Shanjani

Jeroen J Smits

Gayatri Ramakrishnan

Jaap Oostrik

Mieke Wesdorp

Galuh Astuti

Helger G Yntema

Lies Hoefsloot

Cris P Lanting

Martijn A Huynen

Anna Lehman

Stuart E Turvey

Ronald J E Pennings

Hannie Kremer

Affiliations

Soon will be listed here.

Abstract

Although more than 140 genes have been associated with non-syndromic hereditary hearing loss (HL), at least half of the cases remain unexplained in medical genetic testing. One reason is that pathogenic variants are located in 'novel' deafness genes. A variant prioritization approach was used to identify novel (candidate) genes for HL. Exome-wide sequencing data were assessed for subjects with presumed hereditary HL that remained unexplained in medical genetic testing by gene-panel analysis. Cases in group AD had presumed autosomal dominantly inherited HL (n = 124), and in group AR, presumed autosomal recessive HL (n = 337). Variants in known and candidate deafness genes were prioritized based on allele frequencies and predicted effects. Selected variants were tested for their co-segregation with HL. Two cases were solved by variants in recently identified deafness genes (ABHD12, TRRAP). Variant prioritization also revealed potentially causative variants in candidate genes associated with recessive and X-linked HL. Importantly, missense variants in IKZF2 were found to co-segregate with dominantly inherited non-syndromic HL in three families. These variants specifically affected Zn-coordinating cysteine or histidine residues of the zinc finger motifs 2 and 3 of the encoded protein Helios. This finding indicates a complex genotype-phenotype correlation for IKZF2 defects, as this gene was previously associated with non-syndromic dysfunction of the immune system and ICHAD syndrome, including HL. The designed strategy for variant prioritization revealed that IKZF2 variants can underlie non-syndromic HL. The large number of candidate genes for HL and variants therein stress the importance of inclusion of family members for variant prioritization.

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