Noise-induced hearing loss correlates with inner ear hair cell decrease in larval zebrafish

Resource type
Authors/contributors
Title
Noise-induced hearing loss correlates with inner ear hair cell decrease in larval zebrafish
Abstract
Anthropogenic noise can be hazardous for the auditory system and wellbeing of animals, including humans. However, very limited information is known on how this global environmental pollutant affects auditory function and inner ear sensory receptors in early ontogeny. The zebrafish (Danio rerio) is a valuable model in hearing research, including investigations of developmental processes of the vertebrate inner ear. We tested the effects of chronic exposure to white noise in larval zebrafish on inner ear saccular sensitivity and morphology at 3 and 5 days post-fertilization (dpf), as well as on auditory-evoked swimming responses using the prepulse inhibition (PPI) paradigm at 5 dpf. Noise-exposed larvae showed a significant increase in microphonic potential thresholds at low frequencies, 100 and 200 Hz, while the PPI revealed a hypersensitization effect and a similar threshold shift at 200 Hz. Auditory sensitivity changes were accompanied by a decrease in saccular hair cell number and epithelium area. In aggregate, the results reveal noise-induced effects on inner ear structure–function in a larval fish paralleled by a decrease in auditory-evoked sensorimotor responses. More broadly, this study highlights the importance of investigating the impact of environmental noise on early development of sensory and behavioural responsiveness to acoustic stimuli.
Publication
Journal of Experimental Biology
Volume
225
Issue
7
Pages
jeb243743
Date
2022-04-06
Journal Abbr
Journal of Experimental Biology
DOI
10.1242/jeb.243743
ISSN
0022-0949
Accessed
9/21/22, 8:11 AM
Library Catalog
Silverchair
Extra
2 citations (Crossref) [2022-09-21]
Citation
Lara, R. A., Breitzler, L., Lau, I. H., Gordillo-Martinez, F., Chen, F., Fonseca, P. J., Bass, A. H., & Vasconcelos, R. O. (2022). Noise-induced hearing loss correlates with inner ear hair cell decrease in larval zebrafish. Journal of Experimental Biology, 225(7), jeb243743. https://doi.org/10.1242/jeb.243743