Down-regulation of msrb3 and destruction of normal auditory system development through hair cell apoptosis in zebrafish

Abstract

Hearing defects can significantly influence quality of life for those who experiencethem. At this time, 177 deafness genes have been cloned, including 134 non-syndromic hearing-lossgenes. The methionine sulfoxide reductase B3 (Ahmed et al., 2011) gene (also called DFNB74) isone such newly discovered hearing-loss gene. Within this gene c.265 T>G and c.55 T>C mutationsare associated with autosomal recessive hearing loss. However, the biological role and mechanismunderlying how it contributes to deafness is unclear. Thus, to better understand this mutation, we designed splicing morpholinos for the purpose of down-regulating msrb3 in zebrafish. Morphants exhibited small, tiny, fused, or misplaced otoliths and abnormal numbers of otoliths. Down-regulation of msrb3 also caused shorter, thinner, and more crowded cilia. Furthermore, L1-8 neuromasts were reduced and disordered in the lateral line system; hair cells in each neuromast underwent apoptosis. Co-injection with human MSRB3 mRNA partially rescued auditory system defects, but mutant MSRB3 mRNA could not. Thus, msrb3 is instrumental for auditory system development in zebrafish and MSRB3-related deafness may be caused by promotion of hair cell apoptosis.