Abstract
The excessive generation of reactive oxygen species (ROS) and mitochondrial damage have been widely reported in noise-induced hearing loss (NIHL). However, the specific mechanism of noise-induced mitochondrial damage remains largely unclear. In this study, we showed that acoustic trauma caused oxidative damage to mitochondrial DNA (mtDNA), leading to the reduction of mtDNA content, mitochondrial gene expression and ATP level in rat cochleae. The expression level and mtDNA-binding function of mitochondrial transcription factor A (TFAM) were impaired following acoustic trauma without affecting the upstream PGC-1α and NRF-1. The mitochondria-target antioxidant mito-TEMPO (MT) was demonstrated to enter the inner ear after the systemic administration. MT treatment significantly alleviated noise-induced auditory threshold shifts 3d and 14d after noise exposure. Furthermore, MT significantly reduced outer hair cell (OHC) loss, cochlear ribbon synapse loss, and auditory nerve fiber (ANF) degeneration after the noise exposure. In addition, we found that MT treatment effectively attenuated noise-induced cochlear oxidative stress and mtDNA damage, as indicated by DHE, 4-HNE, and 8-OHdG. MT treatment also improved mitochondrial biogenesis, ATP generation, and TFAM-mtDNA interaction in the cochlea. These findings suggest that MT has protective effects against NIHL via maintaining TFAM-mtDNA interaction and mitochondrial biogenesis based on its ROS scavenging capacity.
Highlights
Hearing loss is the most prevalent sensory disorder and affects more than 1.5 billion people worldwide (WHO, 2021)
The concentration of the MT in the perilymph of the cochlea was 18.541 μg/kg 15 min after the injection. These results indicated that MT could pass through the blood-labyrinth barrier (BLB) and enter the inner ear
We investigated the protective effect of MT against noise-induced hearing loss (NIHL) and the underlying mechanism in a rat model
Summary
Hearing loss is the most prevalent sensory disorder and affects more than 1.5 billion people worldwide (WHO, 2021). Exposure to high-intensity or chronic noise leads to noise-induced hearing loss (NIHL). High-intensity or chronic noise can result in permanent threshold shift (PTS), i.e., irreversible hearing loss (Kurabi et al, 2017). According to WHO, about 10% of the world’s population is exposed to noise, 5.3% of whom develop NIHL (WHO, 2021). Those who experience hearing loss have difficulties in social communication, which may cause potential mental and cognitive disorders such as anxiety, depression, and dementia (Loughrey et al, 2018; Blazer and Tucci, 2019)
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