The Cl--channel TMEM16A controls the generation of cochlear Ca2+ waves and promotes the refinement of auditory brainstem networks

Abstract

SummaryBefore hearing onset (postnatal day 12 in mice), inner hair cells (IHC) spontaneously fire action potentials thereby driving pre-sensory activity in the ascending auditory pathway. The rate of IHC action potential bursts is modulated by inner supporting cells (ISC) of Kölliker’s organ through the activity of the Ca2+ activated Cl- channel TMEM16A. Here we show that conditional deletion of Tmem16a in mice disrupts the generation of Ca2+ waves within Kölliker’s organ, reduces the burst firing activity and the frequency-selectivity of auditory brainstem neurons in the medial nucleus of the trapezoid body (MNTB), and also impairs the refinement of MNTB projections to the lateral superior olive (LSO). These results reveal the importance of the activity of Kölliker’s organ for the refinement of central auditory connectivity. In addition, our study suggests a mechanism for the generation of Ca2+ waves, which may also apply to other tissues expressing TMEM16A.