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Physiological, anatomical, and behavioral changes after acoustic trauma in Drosophila melanogaster
Journal article   Open access   Peer reviewed

Physiological, anatomical, and behavioral changes after acoustic trauma in Drosophila melanogaster

Kevin W. Christie, Elena Sivan-Loukianova, Wesley C. Smith, Benjamin T. Aldrich, Michael A. Schon, Madhuparna Roy, Bridget C. Lear and Daniel F. Eberl
Proceedings of the National Academy of Sciences of the United States of America, Vol.110(38), pp.15449-15454
09/17/2013
DOI: 10.1073/pnas.1307294110
PMCID: PMC3780856
PMID: 24003166
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Physiological anatomical and behavioral changes after acoustic945.29 kBDownloadView
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https://doi.org/10.1073/pnas.1307294110View
Published (Version of record)PNAS September 17, 2013 110 (38) 15449-15454

Abstract

Noise-induced hearing loss (NIHL) is a growing health issue, with costly treatment and lost quality of life. Here we establish Drosophila melanogaster as an inexpensive, flexible, and powerful genetic model system for NIHL. We exposed flies to acoustic trauma and quantified physiological and anatomical effects. Trauma significantly reduced sound-evoked potential (SEP) amplitudes and increased SEP latencies in control genotypes. SEP amplitude but not latency effects recovered after 7 d. Although trauma produced no gross morphological changes in the auditory organ (Johnston’s organ), mitochondrial cross-sectional area was reduced 7 d after exposure. In nervana 3 heterozygous flies, which slightly compromise ion homeostasis, trauma had exaggerated effects on SEP amplitude and mitochondrial morphology, suggesting a key role for ion homeostasis in resistance to acoustic trauma. Thus, Drosophila exhibit acoustic trauma effects resembling those found in vertebrates, including inducing metabolic stress in sensory cells. This report of noise trauma in Drosophila is a foundation for studying molecular and genetic sequelae of NIHL.

Biology OAfund mitochondria Na/K ATPase locomotion auditory courtship behavior

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