Litcius/Paper detail

Phasic Off responses of auditory cortex underlie perception of sound duration

Haifu Li, Jian Wang, Guilong Liu, Jinfeng Xu, Weilong Huang, Changbao Song, Dijia Wang, Huizhong W. Tao, Li I. Zhang, Feixue Liang

2021Cell Reports35 citationsDOIOpen Access PDF

Abstract

It has been proposed that sound information is separately streamed into onset and offset pathways for parallel processing. However, how offset responses contribute to auditory perception remains unclear. Here, loose-patch and whole-cell recordings in awake mouse primary auditory cortex (A1) reveal that a subset of pyramidal neurons exhibit a transient "Off" response, with its onset tightly time-locked to the sound termination and its frequency tuning similar to that of the transient "On" response. Both responses are characterized by excitation briefly followed by inhibition, with the latter mediated by parvalbumin (PV) inhibitory neurons. Optogenetically manipulating sound-evoked A1 responses at different temporal phases or artificially creating phantom sounds in A1 further reveals that the A1 phasic On and Off responses are critical for perceptual discrimination of sound duration. Our results suggest that perception of sound duration is dependent on precisely encoding its onset and offset timings by phasic On and Off responses.

Topics & Concepts

Auditory cortexNeuroscienceParvalbuminInhibitory postsynaptic potentialPerceptionAuditory perceptionAudiologyDuration (music)PsychologyBiologyPhysicsMedicineAcousticsNeural dynamics and brain functionNeuroscience and Music PerceptionMultisensory perception and integration