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

被引：70

作者：

Jean, Philippe ^{[1
,2
,3
,4
,5
]}

de la Morena, David Lopez ^{[1
,2
,4
,5
]}

Michanski, Susann ^{[3
,5
,6
,7
]}

Tobon, Lina Maria Jaime ^{[1
,2
,3
,4
,5
,8
,9
]}

Chakrabarti, Rituparna ^{[3
,4
,5
,6
,7
]}

Picher, Maria Magdalena ^{[1
,2
,3
,5
]}

Neef, Jakob ^{[1
,2
,3
,5
,8
,9
]}

Jung, SangYong ^{[1
,2
,5
,10
]}

Gueltas, Mehmet ^{[11
]}

Maxeiner, Stephan ^{[12
]}

Neef, Andreas ^{[13
]}

Wichmann, Carolin ^{[3
,5
,6
,7
]}

Strenzke, Nicola ^{[3
,5
,14
]}

Grabner, Chad ^{[1
,2
,5
,8
]}

Moser, Tobias ^{[1
,2
,3
,5
,8
,9
,15
]}

机构：

[1] Univ Med Ctr Gottingen, Inst Auditory Neurosci, Gottingen, Germany

[2] Univ Med Ctr Gottingen, InnerEarLab, Gottingen, Germany

[3] Univ Gottingen, Collaborat Res Ctr, Gottingen, Germany

[4] Univ Gottingen, Gottingen Grad Sch Neurosci & Mol Biosci, Gottingen, Germany

[5] Univ Med Ctr Gottingen, Dept Otolaryngol, InnerEarLab, Gottingen, Germany

[6] Univ Med Ctr Gottingen, Inst Auditory Neurosci, Mol Architecture Synapses Grp, Gottingen, Germany

[7] Univ Med Ctr Gottingen, Inst Biostruct Imaging Neurodegenerat, Gottingen, Germany

[8] Max Planck Inst Biophys Chem, Synapt Nanophysiol Grp, Gottingen, Germany

[9] Max Planck Inst Expt Med, Auditory Neurosci Grp, Gottingen, Germany

[10] Biomed Sci Inst, Singapore Bioimaging Consortium SBIC, Neuro Modulat & Neuro Circuitry Grp, Singapore, Singapore

[11] Georg August Univ Gottingen, Dept Breeding Informat, Gottingen, Germany

[12] Univ Saarland, Inst Anat & Cell Biol, Homburg, Germany

[13] Max Planck Inst Dynam & Self Org, Bernstein Grp Biophys Neural Computat, Gottingen, Germany

[14] Univ Med Ctr Gottingen, Dept Otolaryngol, Auditory Syst Physiol Grp, Gottingen, Germany

[15] Univ Med Ctr Gottingen, Ctr Nanoscale Microscopy & Mol Physiol Brain, Gottingen, Germany

来源：

ELIFE | 2018年 / 7卷

关键词：

AUDITORY-NERVE FIBERS; SPIRAL GANGLION NEURONS; COCHLEAR HAIR-CELLS; CA(V)1.3 CHANNELS; CA2+ CHANNELS; ACTIVE ZONES; CA2+-DEPENDENT INACTIVATION; VESICLE REPLENISHMENT; MULTIQUANTAL RELEASE; BINDING-PROTEINS;

D O I：

10.7554/eLife.29275

中图分类号：

Q [生物科学];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

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.

引用

页数：39

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