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Homeostatic maintenance and age-related functional decline in the Drosophila ear

Alyona Keder, Camille Tardieu, Liza Malong, Anastasia Filia, Assel Kashkenbayeva, Fay Newton, Marcos Georgiades, Jonathan E. Gale, Michael Lovett, Andrew P. Jarman, Joerg T. Albert

2020Scientific Reports26 citationsDOIOpen Access PDF

Abstract

Age-related hearing loss (ARHL) is a threat to future human wellbeing. Multiple factors contributing to the terminal auditory decline have been identified; but a unified understanding of ARHL - or the homeostatic maintenance of hearing before its breakdown - is missing. We here present an in-depth analysis of homeostasis and ageing in the antennal ears of the fruit fly Drosophila melanogaster. We show that Drosophila, just like humans, display ARHL. By focusing on the phase of dynamic stability prior to the eventual hearing loss we discovered a set of evolutionarily conserved homeostasis genes. The transcription factors Onecut (closest human orthologues: ONECUT2, ONECUT3), Optix (SIX3, SIX6), Worniu (SNAI2) and Amos (ATOH1, ATOH7, ATOH8, NEUROD1) emerged as key regulators, acting upstream of core components of the fly's molecular machinery for auditory transduction and amplification. Adult-specific manipulation of homeostatic regulators in the fly's auditory neurons accelerated - or protected against - ARHL.

Topics & Concepts

Drosophila melanogasterBiologyHearing lossHomeostasisDrosophila (subgenus)NeuroscienceInner earCell biologyGeneticsGeneAudiologyMedicineNeurobiology and Insect Physiology ResearchGenetics, Aging, and Longevity in Model OrganismsPlant Molecular Biology Research
Homeostatic maintenance and age-related functional decline in the Drosophila ear | Litcius