Turnover and activity-dependent transcriptional control of NompC in the Drosophila ear
Across their lives, biological sensors maintain near-constant functional outputs despite countless exogenous and endogenous perturbations. This sensory homeostasis is the product of multiple dynamic equilibria, the breakdown of which contributes to age-related decline. The mechanisms of homeostatic...
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Veröffentlicht in: | iScience 2021-05, Vol.24 (5), p.102486-102486, Article 102486 |
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Sprache: | eng |
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Zusammenfassung: | Across their lives, biological sensors maintain near-constant functional outputs despite countless exogenous and endogenous perturbations. This sensory homeostasis is the product of multiple dynamic equilibria, the breakdown of which contributes to age-related decline. The mechanisms of homeostatic maintenance, however, are still poorly understood. The ears of vertebrates and insects are characterized by exquisite sensitivities but also by marked functional vulnerabilities. Being under the permanent load of thermal and acoustic noise, auditory transducer channels exemplify the homeostatic challenge. We show that (1) NompC-dependent mechanotransducers in the ear of the fruit fly Drosophila melanogaster undergo continual replacement with estimated turnover times of 9.1 hr; (2) a de novo synthesis of NompC can restore transducer function in the adult ears of congenitally hearing-impaired flies; (3) key components of the auditory transduction chain, including NompC, are under activity-dependent transcriptional control, likely forming a transducer-operated mechanosensory gain control system that extends beyond hearing organs.
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•De novo NompC synthesis restores auditory transduction in congenitally deafened flies.•Complete turnover of NompC mechanotransducers within less than 24 hr.•Activity-dependent transcriptional control of transducers controls auditory function.
Biological sciences ; Molecular biology ; Sensory neuroscience |
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ISSN: | 2589-0042 2589-0042 |
DOI: | 10.1016/j.isci.2021.102486 |