Piccolino regulates the architecture of the ribbon at cochlear inner hair cell synapses

Abstract

AbstractCochlear inner hair cells (IHCs) form specialized ribbon synapses with spiral ganglion neurons that tireless-ly transmit sound information at high rates over long time periods with extreme temporal precision. This functional specialization is essential for precise sound encoding and is attributed to a distinct molecular machinery with unique players or splice variants compared to conventional neuronal synapses. Among these is the active zone (AZ) scaffold protein piccolo/aczonin, which is represented by its short splice variant piccolino at cochlear and retinal ribbon synapses. While the function of piccolo at synapses of the central nervous system has been intensively investigated, the role of piccolino at IHC synapses remains unclear. In this study, we characterized the structure and function of IHC-synapses in piccolo gene-trap mutant rats (Pclogt/gt). We found a mild hearing deficit with elevated thresholds and reduced amplitudes of auditory brainstem responses. Ca2+channel distribution and ribbon morphology were altered in apical IHCs, while their presynaptic function seemed unchanged. We conclude that piccolino contributes to the AZ organization in IHCs and is essential for normal synaptic transmission.