APA
Morín, Matias & Borreguero, Lucía & Booth, Kevin T & Lachgar, María & Huygen, Patrick & Villamar, Manuela & Mayo, Fernando & Barrio, Luis Carlos & Santos Serrão de Castro, Luciana & Morales, Carmelo & del Castillo, Ignacio & Arellano, Beatriz & Tellería, Dolores & Smith, Richard J.H. & Azaiez, Hela & Moreno Pelayo, Miguel Angel (2020 ) .Insights into the pathophysiology of DFNA10 hearing loss associated with novel EYA4 variants.
ISO 690
Morín, Matias & Borreguero, Lucía & Booth, Kevin T & Lachgar, María & Huygen, Patrick & Villamar, Manuela & Mayo, Fernando & Barrio, Luis Carlos & Santos Serrão de Castro, Luciana & Morales, Carmelo & del Castillo, Ignacio & Arellano, Beatriz & Tellería, Dolores & Smith, Richard J.H. & Azaiez, Hela & Moreno Pelayo, Miguel Angel. 2020 .Insights into the pathophysiology of DFNA10 hearing loss associated with novel EYA4 variants.
https://hdl.handle.net/20.500.12080/39727
Résumé:
The mutational spectrum of many genes and their contribution to the global prevalence of hereditary
hearing loss is still widely unknown. In this study, we have performed the mutational screening of
EYA4 gene by DHLPC and NGS in a large cohort of 531 unrelated Spanish probands and one Australian
family with autosomal dominant non-syndromic hearing loss (ADNSHL). In total, 9 novel EYA4 variants
have been identifed, 3 in the EYA4 variable region (c.160G>T; p.Glu54*, c.781del; p.Thr261Argfs*34
and c.1078C>A; p.Pro360Thr) and 6 in the EYA-HR domain (c.1107G>T; p.Glu369Asp, c.1122G>¿T;
p.Trp374Cys, c.1281G>A; p.Glu427Glu, c.1282-1G>A, c.1601C>G; p.S534* and an heterozygous
copy number loss encompassing exons 15 to 17). The contribution of EYA4 mutations to ADNSHL in
Spain is, therefore, very limited (~1.5%, 8/531). The pathophysiology of some of these novel variants
has been explored. Transient expression of the c-myc-tagged EYA4 mutants in mammalian COS7 cells
revealed absence of expression of the p.S534* mutant, consistent with a model of haploinsufciency
reported for all previously described EYA4 truncating mutations. However, normal expression pattern
and translocation to the nucleus were observed for the p.Glu369Asp mutant in presence of SIX1.
Complementary in silico analysis suggested that c.1107G>T (p.Glu369Asp), c.1281G>A (p.Glu427Glu)
and c.1282-1G>A variants alter normal splicing. Minigene assays in NIH3T3 cells further confrmed
that all 3 variants caused exon skipping resulting in frameshifts that lead to premature stop codons.
Our study reports the frst likely pathogenic synonymous variant linked to DFNA10 and provide further
evidence for haploinsufciency as the common underlying disease-causing mechanism for DFNA10-
related hearing loss.