JOURNAL ARTICLE
Sharp Waves, Bursts, and Coherence: Activity in a Songbird Vocal Circuit Is Influenced by Behavioral State.
Published In: Journal of Neuroscience, 2025, v. 45, n. 47. P. 1 1 of 3
Database: Academic Search Ultimate 2 of 3
Authored By: Lorenz, Corinna; Das, Anindita; Centeno, Eduarda Gervini Zampieri; Yeganegi, Hamed; Duvoisin, Robin; Ursu, Roman; Retailleau, Aude; Giret, Nicolas; Leblois, Arthur; Hahnloser, Richard H. R.; Ondracek, Janie M. 3 of 3
Abstract
Similar to motor skill learning in mammals, vocal learning in songbirds requires a set of interconnected brain areas that make up an analogous basal ganglia–thalamocortical circuit known as the anterior forebrain pathway (AFP). Although neural activity in the AFP has been extensively investigated during awake singing, very little is known about its neural activity patterns during other behavioral states. Here, we used chronically implanted Neuropixels probes to investigate spontaneous neural activity in the AFP during natural sleep and awake periods in male zebra finches. We found that during sleep, neuron populations in the pallial region LMAN (lateral magnocellular nucleus of the nidopallium) spontaneously exhibited synchronized bursts that were characterized by a negative sharp deflection in the local field potential (LFP) and a transient increase in gamma power. LMAN population bursts occurred primarily during non-rapid eye movement sleep and were highly reminiscent of sharp-wave ripple activity observed in the rodent hippocampus. We also examined the functional connectivity within the AFP by calculating the pairwise LFP coherence. As expected, delta and theta band coherence within LMAN and Area X was higher during sleep compared with awake periods. Contrary to our expectations, we did not observe strong coherence between LMAN and Area X during sleep, suggesting that the input from LMAN into Area X is spatially restricted. Overall, these results provide the first description of spontaneous neural dynamics within the AFP across behavioral states. [ABSTRACT FROM AUTHOR]
Additional Information
- Source:Journal of Neuroscience. 2025/11, Vol. 45, Issue 47, p1
- Document Type:Article
- Subject Area:Zoology
- Publication Date:2025
- ISSN:0270-6474
- DOI:10.1523/JNEUROSCI.1903-24.2025
- Accession Number:189718914
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