The synaptic ribbon is critical for sound encoding at high rates and with 
temporal precision.

Jean, P.; Lopez de la Morena, D.; Michanski, S.; Jaime Tobón, L. M.; Chakrabarti, R.; Picher, M. M.; Neef, J.; Jung, S. Y.; Gültas, M.; Maxeiner, S.; Neef, A.; Wichmann, C.; Strenzke, N.; Grabner, C.; Moser, T.

doi:10.7554/eLife.29275

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The synaptic ribbon is critical for sound encoding at high rates and with temporal precision.

Jean, P., Lopez de la Morena, D., Michanski, S., Jaime Tobón, L. M., Chakrabarti, R., Picher, M. M., et al. (2018). The synaptic ribbon is critical for sound encoding at high rates and with temporal precision. eLife, 7(1): e29275. doi:10.7554/eLife.29275.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0000-28E3-3 Version Permalink: https://hdl.handle.net/21.11116/0000-0003-CF4D-F

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Creators:
Jean, P., Author
Lopez de la Morena, D., Author
Michanski, S., Author
Jaime Tobón, L. M., Author
Chakrabarti, R., Author
Picher, M. M., Author
Neef, J.¹, Author
Jung, S. Y., Author
Gültas, M., Author
Maxeiner, S., Author
Neef, A.², Author
Wichmann, C., Author
Strenzke, N., Author
Grabner, C., Author
Moser, T.¹, Author

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1Research Group of Synaptic Nanophysiology, MPI for Biophysical Chemistry, Max Planck Society, ou_2205655
2Research Group Theoretical Neurophysics, Max Planck Institute for Dynamics and Self-Organization, Max Planck Society, ou_2063289

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Free keywords: cell biology; mouse; neuroscience

Abstract: We studied the role of the synaptic ribbon for sound encoding at the synapses between inner hair cells (IHCs) and spiral ganglion neurons (SGNs) in mice lacking RIBEYE (RBEKO/KO). Electron and immunofluorescence microscopy revealed a lack of synaptic ribbons and an assembly of several small active zones (AZs) at each synaptic contact. Spontaneous and sound-evoked firing rates of SGNs and their compound action potential were reduced, indicating impaired transmission at ribbonless IHC-SGN synapses. The temporal precision of sound encoding was impaired and the recovery of SGN-firing from adaptation indicated slowed synaptic vesicle (SV) replenishment. Activation of Ca2+-channels was shifted to more depolarized potentials and exocytosis was reduced for weak depolarizations. Presynaptic Ca2+-signals showed a broader spread, compatible with the altered Ca2+-channel clustering observed by super-resolution immunofluorescence microscopy. We postulate that RIBEYE disruption is partially compensated by multi-AZ organization. The remaining synaptic deficit indicates ribbon function in SV-replenishment and Ca2+-channel regulation.

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Language(s): eng - English

Dates: Published Online: 2018-01-12

Publication Status: Published online

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Rev. Type: Peer

Identifiers: DOI: 10.7554/eLife.29275

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Title: eLife

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Pages: 39 Volume / Issue: 7 (1) Sequence Number: e29275 Start / End Page: - Identifier: -