Histone deacetylase inhibitor sodium butyrate attenuates gentamicin-induced hearing loss in vivo.

OBJECTIVE: Although histone deacetylase (HDAC) inhibition has been shown to protect against gentamicin (GM)-induced hearing loss in vitro, its protective effect has not been proven in vivo. In the present study, the aim was to investigate the protective effect of sodium butyrate (NaB), a specific HDAC inhibitor, on GM-induced ototoxicity in vivo. METHODS: Forty 8-week-old albino guinea pigs were divided into two experimental groups. Group 1 (n=10) underwent bilateral ear surgery to place sponges (0.3mm(3)) permeated with NaB (10µl, 100mg/ml) and physiological saline (10µl; control) in the right and left round window niches, respectively. The sponges were left in place for 15days to evaluate the effects of NaB at the applied concentration. Group 2 (n=30) underwent the same bilateral ear surgery described for Group 1, except three days after surgery, the animals received intramuscular GM injections (200mg/kg/day) for 5 consecutive days. Seven days after the final GM injection, the protective effects of NaB were examined. RESULTS: After 15days of NaB treatment (10µl, 100mg/ml), an increase in histone acetylation was detected in Corti organ samples. Auditory brainstem response (ABR) threshold shifts and hair cell loss were also reduced in NaB-treated ears after GM administration. Furthermore, GM treatment increased HDAC1 expression in outer hair cells (OHCs) in vivo, and NaB blocked this action. CONCLUSION: GM increases HDAC1 expression in OHCs, and NaB is able to block this action. Thus, it appears that the HDAC inhibitor, NaB, attenuates GM-induced hearing loss in guinea pigs.

G-CSF attenuates noise-induced hearing loss.

In this study, we investigated the effects of granulocyte colony-stimulating factor (G-CSF) for the treatment of noise-induced hearing loss (NIHL) in a guinea pig model. Forty guinea pigs were randomly divided into four groups: control, noise (white noise, 3 h/d for 2 days at 115 dB), noise+G-CSF (350 µg/kg/d for 5 days), and noise+saline. Auditory brainstem response (ABR) and distortion product otoacoustic emission (DPOAE) were used to determine the hearing threshold and outer hair cell function, respectively, in each group. Cochlear morphology was examined to evaluate hair cell injury induced by intense noise exposure. Fourteen days after noise exposure, the noise+G-CSF group had a lower ABR value than the noise group (P<0.05) or the noise+saline group (P<0.01). At most frequencies, the DPOAE value of the noise+G-CSF group showed a significant rise (P<0.05) compared to the noise group or the noise+saline group. Neither the ABR value nor the DPOAE value differed between the noise group and the noise+saline group. The morphology of the phalloidin-stained organ of Corti was consistent with the functional measurements. In conclusion, G-CSF can preserve hearing in an experimental model of NIHL in guinea pigs, by preserving hair cells after intense noise exposure.