4.7 Article

The Avian Basal Ganglia Are a Source of Rapid Behavioral Variation That Enables Vocal Motor Exploration

Journal

JOURNAL OF NEUROSCIENCE
Volume 38, Issue 45, Pages 9635-9647

Publisher

SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.2915-17.2018

Keywords

basal ganglia; motor exploration; reinforcement learning; social context; songbird; vocal learning

Categories

Funding

  1. National Institutes of Health [MH55897]
  2. National Alliance for Research on Schizophrenia and Depression
  3. Howard Hughes Medical Institute
  4. Korea Brain Research Institute basic research program [18-BR-01-06]

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The basal ganglia (BG) participate in aspects of reinforcement learning that require evaluation and selection of motor programs associated with improved performance. However, whether the BG additionally contribute to behavioral variation (motor exploration) that forms the substrate for such learning remains unclear. In songbirds, a tractable system for studying BG-dependent skill learning, a role for the BG in generating exploratory variability, has been challenged by the finding that lesions of Area X, the song-specific component of the BG, have no lasting effects on several forms of vocal variability that have been studied. Here we demonstrate that lesions of Area X in adult male zebra finches (Taeniopygia gutatta) permanently eliminate rapid within-syllable variation in fundamental frequency (FF), which can act as motor exploration to enable reinforcement-driven song learning. In addition, wefound that this within-syllable variation is elevated in juveniles and in adults singing alone, conditions that have been linked to enhanced song plasticity and elevated neural variability in Area X. Consistent with a model that variability is relayed from Area X, via its cortical target, the lateral magnocellular nucleus of the anterior nidopallium (LMAN), to influence song motor circuitry, we found that lesions of LMAN also eliminate within-syllable variability. Moreover, we found that electrical perturbation of LMAN can drive fluctuations in FF that mimic naturally occurring within-syllable variability. Together, these results demonstrate that the BG are a central source of rapid behavioral variation that can serve as motor exploration for vocal learning.

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