Litcius/Paper detail

A population of neurons selective for human voice in the monkey brain

Margherita Giamundo, Régis Trapeau, Etienne Thoret, Luc Renaud, Simon Nougaret, Thomas Brochier, Pascal Belin

2024Proceedings of the National Academy of Sciences13 citationsDOIOpen Access PDF

Abstract

Many animals can extract useful information from the vocalizations of other species. Neuroimaging studies have evidenced areas sensitive to conspecific vocalizations in the cerebral cortex of primates, but how these areas process heterospecific vocalizations remains unclear. Using fMRI-guided electrophysiology, we recorded the spiking activity of individual neurons in the anterior temporal voice patches of two macaques while they listened to complex sounds including vocalizations from several species. In addition to cells selective for conspecific macaque vocalizations, we identified an unsuspected subpopulation of neurons with strong selectivity for human voice, not merely explained by spectral or temporal structure of the sounds. The auditory representational geometry implemented by these neurons was strongly related to that measured in the human voice areas with neuroimaging and only weakly to low-level acoustical structure. These findings provide new insights into the neural mechanisms involved in auditory expertise and the evolution of communication systems in primates.

Topics & Concepts

MacaqueNeuroscienceAuditory cortexNeuroimagingPsychologyElectrophysiologyPopulationHuman brainTemporal cortexPrimateBiologyCommunicationMedicineEnvironmental healthNeuroscience and Music PerceptionNeural dynamics and brain functionAnimal Vocal Communication and Behavior