Song System Auditory Responses Are Stable and Highly Tuned During Sedation, Rapidly Modulated and Unselective During Wakefulness, and Suppressed By Arousal

Department of Biology and Neuroscience Graduate Group, University of Pennsylvania, Philadelphia, Pennsylvania 19104 Submitted 18 April 2003; accepted in final form 17 July 2003 We used auditory responsiveness in the avian song system to investigate the complex relationship between behavioral state a...

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Bibliographic Details
Published in:Journal of neurophysiology 2003-11, Vol.90 (5), p.2884-2899
Main Authors: Cardin, Jessica A, Schmidt, Marc F
Format: Article
Language:English
Subjects:
Acoustic Stimulation - methods
Animals
Arousal - physiology
Auditory Perception - physiology
Male
Sleep - physiology
Songbirds
Taeniopygia guttata
Vocalization, Animal - physiology
Wakefulness - physiology
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Summary:Department of Biology and Neuroscience Graduate Group, University of Pennsylvania, Philadelphia, Pennsylvania 19104 Submitted 18 April 2003; accepted in final form 17 July 2003 We used auditory responsiveness in the avian song system to investigate the complex relationship between behavioral state and sensory processing in a high-order sensorimotor brain area. We present evidence from recordings in awake, anesthetized, and sleeping male zebra finches ( Taeniopygia guttata ) that auditory responsiveness in nucleus HVc is profoundly affected by changes in behavioral state. In anesthetized and sleeping birds, auditory responses were characterized by an increase in firing rate that was selective for the bird's own song (BOS) and highly stable over time. In contrast, HVc responses during wakefulness were extremely variable and transitioned between undetectable and robust levels over short intervals. Surprisingly, auditory responses in awake birds were not selective for the BOS stimulus. The variability of HVc auditory responses in awake birds suggests that, as in mammals, wakefulness is not a uniform behavioral state. Rather, auditory responsiveness likely is continually influenced by variables such as arousal state. We therefore developed several experimental paradigms in which we could manipulate arousal levels during auditory stimulus presentation. In all cases, arousal suppressed HVc auditory responses. This effect was specific to the song system, as auditory responses in Field L, a primary auditory area that is a source of auditory input to HVc, were unaffected. While arousal acts as a negative regulator of HVc auditory responsiveness, the presence and variability of the responses observed in awake, alert birds suggests that other mechanisms, such as attention, may enhance auditory responsiveness. The interplay between behavioral state and sensory processing may regulate song system responsiveness according to the bird's behavioral and social context. Address for reprint requests and other correspondence: M. F. Schmidt, 312 Leidy Labs, 415 S. University Ave., University of Pennsylvania, Philadelphia, PA 19104 (E-mail marcschm{at}sas.upenn.edu ).
ISSN:0022-3077
1522-1598
DOI:10.1152/jn.00391.2003