Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
Volume 104, Issue 41, Pages 16341-16346Publisher
NATL ACAD SCIENCES
DOI: 10.1073/pnas.0705756104
Keywords
hearing; exocytosis; hair cell; synaptic transmission; auditory nerve fiber
Categories
Funding
- NIDCD NIH HHS [DC006476, R01 DC006476] Funding Source: Medline
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At the first synapse in the auditory pathway, the receptor potential of mechanosensory hair cells is converted into a firing pattern in auditory nerve fibers. For the accurate coding of timing and intensity of sound signals, transmitter release at this synapse must occur with the highest precision. To measure directly the transfer characteristics of the hair cell afferent synapse, we implemented simultaneous whole-cell recordings from mammalian inner hair cells (IHCs) and auditory nerve fiber terminals that typically receive input from a single ribbon synapse. During a 1-s IHC depolarization, the synaptic response depressed >90%, representing the main source for adaptation in the auditory nerve. Synaptic depression was slightly affected by alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor desensitization; however, it was mostly caused by reduced vesicular release. When the transfer function between transmitter release and Ca2+ influx was tested at constant open probability for Ca2+ channels (potentials >0 mV), a super linear relation was found. This relation is presumed to result from the cooperative binding of three to four Ca2+ ions at the Ca2+ sensor. However, in the physiological range for receptor potentials (-50 to -30 mV), the relation between Ca2+ influx and afferent activity was linear, assuring minimal distortion in the coding of sound intensity. Changes in Ca2+ influx caused an increase in release probability, but not in the average size of multivesicular synaptic events. By varying Ca2+ buffering in the IHC, we further investigate how Ca2+ channel and Ca2+ sensor at this synapse might relate.
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