Title : Onset of cholinergic efferent synaptic function in sensory hair cells of the rat cochlea - Roux_2011_J.Neurosci_31_15092 |
Author(s) : Roux I , Wersinger E , McIntosh JM , Fuchs PA , Glowatzki E |
Ref : Journal of Neuroscience , 31 :15092 , 2011 |
Abstract :
In the developing mammalian cochlea, the sensory hair cells receive efferent innervation originating in the superior olivary complex. This input is mediated by alpha9/alpha10 nicotinic acetylcholine receptors (nAChRs) and is inhibitory due to the subsequent activation of calcium-dependent SK2 potassium channels. We examined the acquisition of this cholinergic efferent input using whole-cell voltage-clamp recordings from inner hair cells (IHCs) in acutely excised apical turns of the rat cochlea from embryonic day 21 to postnatal day 8 (P8). Responses to 1 mm acetylcholine (ACh) were detected from P0 on in almost every IHC. The ACh-activated current amplitude increased with age and demonstrated the same pharmacology as alpha9-containing nAChRs. Interestingly, at P0, the ACh response was not coupled to SK2 channels, so that the initial cholinergic response was excitatory and could trigger action potentials in IHCs. Coupling to SK current was detected earliest at P1 in a subset of IHCs and by P3 in every IHC studied. Clustered nAChRs and SK2 channels were found on IHCs from P1 on using Alexa Fluor 488 conjugated alpha-bungarotoxin and SK2 immunohistochemistry. The number of nAChRs clusters increased with age to 16 per IHC at P8. Cholinergic efferent synaptic currents first appeared in a subset of IHCs at P1 and by P3 in every IHC studied, contemporaneously with ACh-evoked SK currents, suggesting that SK2 channels may be necessary at onset of synaptic function. An analogous pattern of development was observed for the efferent synapses that form later (P6-P8) on outer hair cells in the basal cochlea. |
PubMedSearch : Roux_2011_J.Neurosci_31_15092 |
PubMedID: 22016543 |
Roux I, Wersinger E, McIntosh JM, Fuchs PA, Glowatzki E (2011)
Onset of cholinergic efferent synaptic function in sensory hair cells of the rat cochlea
Journal of Neuroscience
31 :15092
Roux I, Wersinger E, McIntosh JM, Fuchs PA, Glowatzki E (2011)
Journal of Neuroscience
31 :15092