Rémy Pujol scite author profile

Hearing relies on faithful synaptic transmission at the ribbon synapse of cochlear inner hair cells (IHCs). At present, the function of presynaptic ribbons at these synapses is still largely unknown. Here we show that anchoring of IHC ribbons is impaired in mouse mutants for the presynaptic scaffolding protein Bassoon. The lack of active-zone-anchored synaptic ribbons reduced the presynaptic readily releasable vesicle pool, and impaired synchronous auditory signalling as revealed by recordings of exocytic IHC capacitance changes and sound-evoked activation of spiral ganglion neurons. Both exocytosis of the hair cell releasable vesicle pool and the number of synchronously activated spiral ganglion neurons co-varied with the number of anchored ribbons during development. Interestingly, ribbon-deficient IHCs were still capable of sustained exocytosis with normal Ca2+-dependence. Endocytic membrane retrieval was intact, but an accumulation of tubular and cisternal membrane profiles was observed in ribbon-deficient IHCs. We conclude that ribbon-dependent synchronous release of multiple vesicles at the hair cell afferent synapse is essential for normal hearing.

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Salicylate Induces Tinnitus through Activation of Cochlear NMDA Receptors

Guitton

et al. 2003

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Salicylate, the active component of aspirin, is known to induce tinnitus. However, the site and the mechanism of generation of tinnitus induced by salicylate remains unclear. Here, we developed a behavioral procedure to measure tinnitus in rats. The behavioral model was based on an active avoidance paradigm in which rats had to display a motor task (i.e., to jump on a climbing pole when hearing a sound). Giving salicylate led to a decrease in the percentage of correct responses (score) and a drastic increase in the number of false positive responses (i.e., animals execute the motor task during a silent period). Presentation of the sound at a constant perceptive level prevents decrease of the score, leading to the proposal that score is related to hearing performance. In contrast, the increase of false positive responses remained unchanged. In fact, animals behaved as if they hear a sound, indicating that they are experiencing tinnitus. Mefenamate in place of salicylate also increased the number of false positive responses, suggesting that salicylate-induced tinnitus is related to an inhibition of cyclooxygenase. One physiological basis of salicylate ototoxicity is likely to originate from altered arachidonic acid metabolism. Because arachidonic acid potentiates NMDA receptor currents, we tested the involvement of cochlear NMDA receptors in the occurrence of tinnitus. Application of NMDA antagonists into the perilymphatic fluids of the cochlea blocked the increase in pole-jumping behavior induced by salicylate, suggesting that salicylate induces tinnitus through activation of cochlear NMDA receptors.

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Excitotoxicity and repair of cochlear synapses after noise-trauma induced hearing loss

Puel¹,

Ruel²,

D'Aldin³

et al. 1998

NeuroReport

357

261

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Guinea-pigs were exposed to a traumatic sound inducing up to 80 dB hearing loss. Beside the well described mechanical damage to outer hair cells, a total disruption of inner hair cell (IHC)-auditory nerve synapses was acutely observed within the traumatized area. To test the hypothesis that synaptic damage is due to an excessive release of glutamate by the IHCs, we examined the protective effect of the glutamate antagonist kynurenate on noise-induced hearing loss. The high degree of protection observed with kynurenate attests that dendritic damage is an important component in noise-induced hearing loss. Moreover, we demonstrate that a synaptic repair mechanism occurring within the first few days post-exposure is partly responsible for the recovery of temporary threshold shifts after an acoustic trauma.

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Dopamine inhibition of auditory nerve activity in the adult mammalian cochlea

Ruel

Nouvian

D'Aldin

et al. 2001

Eur J of Neuroscience

160

158

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Efferent feedback systems provide a means for modulating the input to the central nervous system. The lateral olivocochlear efferents modulate auditory nerve activity via synapses with afferent dendrites below sensory inner hair cells. We examined the effects of dopamine, one of the lateral olivocochlear neurotransmitters, by recording compound and single unit activity from the auditory nerve in adult guinea pigs. Intracochlear application of dopamine reduced the compound action potential (CAP) of the auditory nerve, increased the thresholds and decreased the spontaneous and driven discharge rates of the single unit fibres without changing their frequency-tuning properties. Surprisingly, dopamine antagonists SCH-23390 and eticlopride decreased CAP amplitude as did dopamine. In some units, both SCH-23390 and eticlopride increased the basal activity of auditory nerve fibres leading to an improvement of threshold sensitivity and a decrease of the maximum driven discharge rates to sound. In other units, the increase in firing rate was immediately followed by a marked reduction to values below predrug rates. Because CAP reflects the summed activity of auditory nerve fibres discharging in synchrony, both the decrease in sound-driven discharge rate and the postexcitatory reduction account for the reduction in CAP. Ultrastructural examination of the cochleas perfused with eticlopride showed that some of the afferent dendrites were swollen, suggesting that the marked reduction in firing rate may reflect early signs of excitotoxicity. Results suggest that dopamine may exert a tonic inhibition of the auditory nerve activity. Removal of this tonic inhibition results in the development of early signs of excitotoxicity.

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Caspase Inhibitors, but not c-Jun NH2-Terminal Kinase Inhibitor Treatment, Prevent Cisplatin-Induced Hearing Loss

et al. 2004

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Excitotoxicity, Synaptic Repair, and Functional Recovery in the Mammalian Cochlea: A Review of Recent Findings

Pujol

Puel

1999

Annals of the New York Academy of Sciences

254

161

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Besides its fast excitatory properties, glutamate is known to have neurotoxic properties when released in large amounts or when incompletely recycled. This so-called excitotoxicity is involved in a number of acute and/or degenerative forms of neuropathology such as epilepsy, Alzheimer's, Parkinson's, stroke, and retinal ischemia. In the cochlea, excitotoxicity may occur in two pathological conditions: anoxia and noise trauma. It is characterized by a two-step mechanism: (1) An acute swelling, which primarily depends on the AMPA/kainate type of receptors, together with a disruption of the postsynaptic structures (type I afferent dendrites) resulting in a loss of function. Within the next 5 days, synaptic repair may be observed with a full or a partial (acoustic trauma) recovery of cochlear potentials. (2) The second phase of excitotoxicity, which may develop after strong and/or repetitive injury, consists of a cascade of metabolic events triggered by the entry of Ca2+, which leads to neuronal death in the spiral ganglion. Ongoing experiments in animals, tracking the molecular basis of both these processes, presages the development of new pharmacological strategies to help neurites to regrow and reconnect properly to the IHCs, and to prevent or delay neuronal death in the spiral ganglion. Human applications should follow, and a local (transtympanic) strategy against cochlear excitotoxicity may, in the near future, prove to be helpful in ischemic- or noise-induced sudden deafness, as well as in the related tinnitus.

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Excitatory amino acid antagonists protect cochlear auditory neurons from excitotoxicity

Puel

Pujol

Tribillac

et al. 1994

J of Comparative Neurology

195

136

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Since ischemic damage in the brain is linked to glutamate excitotoxicity, the effects of an acute exposure to glutamate, alpha-amino-3-hydroxy-5-methyl-4-isoxazole proprionic acid (AMPA) or N-methyl-D aspartate (NMDA) on the radial dendrites were compared with those occurring after a severe cochlear ischemia. Glutamate and AMPA, but not NMDA, produced a drastic swelling restricted to the radial dendrites below the inner hair cells (IHCs). At a concentration of 20 microM AMPA, a full electrophysiological recovery could be observed in some cochleas after washing the drug out. A prior perfusion of 6-7-dinitroquinoxaline-2,3-dione (DNQX, 50 microM) prevented the 25 microM AMPA-induced dendritic swelling. No protective effect of D-2-amino-5-phosphonopentanoate (D-AP5) could be observed. In the same way, ischemia (5-40 minutes) resulted in a clear swelling of the radial dendrites. While D-AP5 had no protective effects, 50 microM DNQX protected most of the radial dendrites from the ischemia-induced swelling, excepting those contacting the modiolar side of the IHCs. Finally, 50 microM DNQX + 50 microM D-AP5 resulted in a nearly complete protection of all the radial dendrites. Altogether, these results suggest that the acute swelling of radial dendrites primarily occurs via AMPA/kainate receptors. However, in radial dendrites contacting the inner hair cells on their modiolar side, NMDA receptors may be also involved.

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Kainic acid selectively alters auditory dendrites connected with cochlear inner hair cells

et al. 1985

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Rémy Pujol

Hair cell synaptic ribbons are essential for synchronous auditory signalling

Salicylate Induces Tinnitus through Activation of Cochlear NMDA Receptors

Excitotoxicity and repair of cochlear synapses after noise-trauma induced hearing loss

Dopamine inhibition of auditory nerve activity in the adult mammalian cochlea

Caspase Inhibitors, but not c-Jun NH2-Terminal Kinase Inhibitor Treatment, Prevent Cisplatin-Induced Hearing Loss

Excitotoxicity, Synaptic Repair, and Functional Recovery in the Mammalian Cochlea: A Review of Recent Findings

Excitatory amino acid antagonists protect cochlear auditory neurons from excitotoxicity

Kainic acid selectively alters auditory dendrites connected with cochlear inner hair cells

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