Austin, T.; Thomas, C. L.; Warren, B.

Age-related auditory decline manifests across the animal kingdom, from humans and mice to zebrafish and insects. Sex differences in auditory decline are established for humans, but there is now evidence in mice and even zebrafish. Here, we found sex differences in auditory decline in an insect, the Desert Locust and investigated its biological basis. We profiled gene expression in a dedicated auditory organ, Muller\'s organ to understand the genetic underpinning of sex differences and measured sound-evoked transduction currents in auditory neurons to quantify auditory decline. We analysed gene expression in Muller\'s organ of young locusts where sex differences were absent and in older, noise-exposed locusts where sex differences were maximal. The largest differences in gene expression between the sexes was between young and stressed (aged and noise-exposed) auditory organs. We found sex-specific genes and gene ontology terms for juvenile hormone (JH) and sex-specific estrogen-related steroids. We hypothesise that sex differences in auditory decline are due to differences in hormones and mitochondrial function.