ISL1 is an essential determinant of structural and functional tonotopic representation of sound

Author:

Filova IvaORCID,Pysanenko KaterynaORCID,Tavakoli Mitra,Vochyanova SimonaORCID,Dvorakova MartinaORCID,Bohuslavova RomanaORCID,Smolik OndrejORCID,Benesova SarkaORCID,Valihrach LukasORCID,Yamoah Ebenezer N.ORCID,Syka JosefORCID,Fritzsch BerndORCID,Pavlinkova GabrielaORCID

Abstract

AbstractA cardinal feature of the auditory pathway is frequency selectivity, represented in the form of a tonotopic map from the cochlea to the cortex. The molecular determinants of the auditory frequency map are unknown. Here, we discovered that the transcription factor ISL1 regulates molecular and cellular features of auditory neurons, including the formation of the spiral ganglion, and peripheral and central processes that shape the tonotopic representation of the auditory map. We selectively knocked out Isl1 in auditory neurons using Neurod1Cre strategies. In the absence of Isl1, spiral ganglion neurons migrate into the central cochlea and beyond, and the cochlear wiring is profoundly reduced and disrupted. The central axons of Isl1 mutants lose their topographic projections and segregation at the cochlear nucleus. Transcriptome analysis of spiral ganglion neurons shows that Isl1 regulates neurogenesis, axonogenesis, migration, neurotransmission-related machinery, and synaptic communication patterns. We show that peripheral disorganization in the cochlea affects the physiological properties of hearing in the midbrain and auditory behavior. Surprisingly, auditory processing features are preserved despite the significant hearing impairment, revealing central auditory pathway resilience and plasticity in Isl1 mutant mice. Mutant mice have a reduced acoustic startle reflex, altered prepulse inhibition, and characteristics of compensatory neural hyperactivity centrally. Our findings show that ISL1 is one of the obligatory factors required to sculpt auditory structural and functional tonotopic maps. Still, upon Isl1 deletion, the ensuing central compensatory plasticity of the auditory pathway does not suffice to overcome developmentally induced peripheral dysfunction of the cochlea.

Publisher

Cold Spring Harbor Laboratory

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