Abstract
Sensorineural hearing loss (SNHL) is one of the most common sensory defects in humans. Hair cells are vulnerable to various ototoxic insults. Effective prevention of hair cell loss remains an unmet medical need. Apoptotic hair cell death, which involves active regulation of transcription, accounts for the majority of aminoglycoside-induced hair cells loss. As one of the important epigenetic covalent modifications, histone methylation is involved in the regulation of gene expression, development and reaction to injury. In particular, H3K9 dimethylation (H3K9me2) is critical for euchromatin gene silencing. In the present study, we examined the roles of two highly homologous histone methyltransfereases responsible for this modification, G9a/G9a-like protein (GLP), in the reaction to aminoglycoside-induced hair cell damage. We observed a rapid increase of H3K9me2 upon hair cell damage in organotypic cochlear cultures. Treatment with the G9a/GLP-specific inhibitors, BIX01294 or UNC0638, reduced the level of H3K9me2 and prevented hair cells from death. Local delivery of BIX01294 also prevented neomycin-induced in vivo auditory hair cell loss in the organ of Corti in a mouse damage model. It is unlikely that BIX01294 functions through blocking aminoglycoside absorption as it does not interfere with aminoglycoside uptaking by hair cells in the organotypic cochlear cultures. Our data revealed a novel role of histone methylation in otoprotection, which is of potential therapeutic value for SNHL management.
Highlights
Discordant disease susceptibilities have been shown in monozygotic twins despite their shared genetic background
We investigated whether BIX01294 interferes with aminoglycoside uptake by monitoring the uptake of gentamicin tagged with Texas Red (GTTR) or the uptake of a membrane permeable probe FM1-43FX
To assess whether the resistance to neomycin injury by BIX01294 pre-treatment is achieved through the inhibition of apoptosis induced by aminoglycosides, we investigated the mitochondrial function by examining the distribution of tetramethylrhodamine methyl ester (TMRM), a fluorescent lipophilic cation, in cochlear epithelium with or without BIX01294 pre-treatment
Summary
Discordant disease susceptibilities have been shown in monozygotic twins despite their shared genetic background. Epigenetic modifications have an important role in the regulation of many chromosomal functions and are closely linked to certain biological events, such as transcriptional regulation, cell survival, differentiation, and cell death.[7,8,9,10] Dimethylation of lysine 9 of histone H3 (H3K9me2) is a dynamic histone methylation mark associated with euchromatin gene silencing. Suppression of H3K9me[2] induced by ototoxic drugs may provide an effective way of clinical importance to protect hair cells from injury
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