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THBS1 is a new autosomal recessive non-syndromic hearing impairment gene
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THBS1 is a new autosomal recessive non-syndromic hearing impairment gene
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Journal Article
THBS1 is a new autosomal recessive non-syndromic hearing impairment gene
2024
Overview
Background
Prelingual hearing impairment (HI) is genetically highly heterogenous. Early diagnosis and intervention are essential for psychosocial development. In this study we investigated a consanguineous family from Pakistan with autosomal recessive (AR) non-syndromic sensorineural HI (NSHI).
Methods
A DNA sample from an HI member of a consanguineous Pakistani family segregating ARNSHL underwent exome sequencing. Using Sanger sequencing select variants were validated and tested for segregation using DNA samples from additional family members. We further investigated RNA expression data for the candidate gene in mouse and human inner ear and human inner ear organoids using data obtained from the gene Expression Analysis Resource.
Results
We identified
thrombospondin 1
(
THBS1)
as a new NSHI gene. A homozygous frameshift variant [c.1470del: p.(Ile491Serfs*45)] was observed in the three hearing-impaired and in the heterozygous state in three unaffected family members. Unlike for most ARNSHI, hearing-impaired individuals had audiograms with a sloping pattern, showing more pronounced HI in the mid and high frequencies (ranging from moderate to profound) compared to the low frequencies. RNA expression data indicates
THBS1
is expressed during human inner ear development. Additionally,
THBS1
is expressed in the cochlear epithelium and supporting cells of the mouse inner ear during embryonic and postnatal stages. Previously,
THBS1
was demonstrated to affect hearing in knockout mice by influencing the formation and function of afferent synapses in the inner ear.
Conclusions
Our findings highlight
THBS1
as a potential novel candidate gene for human HI characterized by a sloping high-frequency audio profile. This discovery enhances our understanding of the genetic etiology of HI and will aid in advancing molecular diagnosis.
