Neural Circuits. Inhibition Protects Acquired Song Segments During Vocal Learning in Zebra Finches

Overview

Journal Science

Specialty Science

Date 2016 Jan 28

PMID 26816377

Citations 68

Authors

Daniela Vallentin

Georg Kosche

Dina Lipkind

Michael A Long

Affiliations

Soon will be listed here.

Abstract

Vocal imitation involves incorporating instructive auditory information into relevant motor circuits through processes that are poorly understood. In zebra finches, we found that exposure to a tutor's song drives spiking activity within premotor neurons in the juvenile, whereas inhibition suppresses such responses upon learning in adulthood. We measured inhibitory currents evoked by the tutor song throughout development while simultaneously quantifying each bird's learning trajectory. Surprisingly, we found that the maturation of synaptic inhibition onto premotor neurons is correlated with learning but not age. We used synthetic tutoring to demonstrate that inhibition is selective for specific song elements that have already been learned and not those still in refinement. Our results suggest that structured inhibition plays a crucial role during song acquisition, enabling a piece-by-piece mastery of complex tasks.

Citing Articles

Perineuronal nets in motor circuitry regulate the performance of learned vocalizations in songbirds.

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Variable and slow-paced neural dynamics in HVC underlie plastic song production in juvenile zebra finches.

Bistere L, Wilczek S, Vallentin D BMC Neurosci. 2024; 25(1):76.

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Differential behavioral engagement of inhibitory interneuron subtypes in the zebra finch brain.

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Female calls promote song learning in male juvenile zebra finches.

Bistere L, Gomez-Guzman C, Xiong Y, Vallentin D Nat Commun. 2024; 15(1):8938.

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Millisecond-scale motor coding precedes sensorimotor learning in songbirds.

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