Lesions of an avian basal ganglia circuit prevent context-dependent changes to song variability

doi:10.1152/jn.01138.2005

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Lesions of an avian basal ganglia circuit prevent context-dependent changes to song variability

Mimi H Kao¹^* and Michael S Brainard²

¹ Keck Center for Integrative Neuroscience, Departments of Physiology and Psychiatry, University of California, San Francisco, San Francisco, California, United States
² Keck Center for Integrative Neuroscience, Departments of Physiology and Psychiatry, University of California, San Francisco, San Francisco, California, United States; San Francisco, California, United States

^* To whom correspondence should be addressed. E-mail: mimi{at}phy.ucsf.edu.

Trial-by-trial variability is important in feedback-based motorlearning. Variation in motor output enables evaluation mechanismsto differentially reinforce patterns of motor activity thatproduce desired behaviors. Here, we investigate neural substratesof variability in the performance of adult birdsong, a complex,learned motor skill used for courtship. Song performance ismore variable when male birds sing alone ('undirected') thanwhen they sing to females ('directed'). We test the role ofthe anterior forebrain pathway (AFP), an avian basal ganglia-forebraincircuit, in this socially driven modulation of song variability. We show that lesions of the lateral magnocellular nucleus ofthe anterior nidopallium (LMAN), the output nucleus of the AFP,cause a reduction in the moment-by-moment variability in syllablestructure during undirected song to the level present duringdirected song. This elimination of song modulation is immediateand long lasting. We further show that the degree of syllablevariability and its modulation are both attenuated in olderbirds, in concert with decreased variability of LMAN activityin these birds. In contrast to the requirement of LMAN forsocial modulation of syllable structure, we find that LMAN isnot required for modulation of other features of song, suchas the number of introductory elements and motif repetitionsand the ordering of syllables, or for other motor and motivationalaspects of courtship. Our findings suggest that a key functionof avian basal ganglia circuitry is to regulate vocal performanceand plasticity by specifically modulating moment-by-moment variabilityin the structure of individual song elements.

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