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Mechanical overstimulation causes acute injury and synapse loss followed by fast recovery in lateral-line neuromasts of larval zebrafish

Melanie Holmgren, Michael E. Ravicz, Kenneth E. Hancock, Olga Strelkova, Dorina Kallogjeri, Artur A. Indzhykulian, Mark E. Warchol, Lavinia Sheets

2021eLife20 citationsDOIOpen Access PDF

Abstract

Excess noise damages sensory hair cells, resulting in loss of synaptic connections with auditory nerves and, in some cases, hair-cell death. The cellular mechanisms underlying mechanically induced hair-cell damage and subsequent repair are not completely understood. Hair cells in neuromasts of larval zebrafish are structurally and functionally comparable to mammalian hair cells but undergo robust regeneration following ototoxic damage. We therefore developed a model for mechanically induced hair-cell damage in this highly tractable system. Free swimming larvae exposed to strong water wave stimulus for 2 hr displayed mechanical injury to neuromasts, including afferent neurite retraction, damaged hair bundles, and reduced mechanotransduction. Synapse loss was observed in apparently intact exposed neuromasts, and this loss was exacerbated by inhibiting glutamate uptake. Mechanical damage also elicited an inflammatory response and macrophage recruitment. Remarkably, neuromast hair-cell morphology and mechanotransduction recovered within hours following exposure, suggesting severely damaged neuromasts undergo repair. Our results indicate functional changes and synapse loss in mechanically damaged lateral-line neuromasts that share key features of damage observed in noise-exposed mammalian ear. Yet, unlike the mammalian ear, mechanical damage to neuromasts is rapidly reversible.

Topics & Concepts

Hair cellMechanotransductionZebrafishCell biologyBiologyRibbon synapseSynapseNeuriteLateral lineInner earAnatomyNeuroscienceSynaptic vesicleGeneIn vitroBiochemistryGeneticsMembraneVesicleHearing, Cochlea, Tinnitus, GeneticsMarine animal studies overviewHearing Loss and Rehabilitation
Mechanical overstimulation causes acute injury and synapse loss followed by fast recovery in lateral-line neuromasts of larval zebrafish | Litcius