Cerebellar activity predicts vocalization in fruit bats

Echolocating bats exhibit remarkable auditory behaviors, enabled by adaptations both within and outside their auditory system. Yet research on echolocating bats has focused mostly on brain areas that belong to the classic ascending auditory pathway. This study provides direct evidence linking the ce...

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Veröffentlicht in:	Current biology 2024-11, Vol.34 (21), p.5112-5119.e3
Hauptverfasser:	Hariharan, Shivani, Palomares, Eugenia González, Babl, Susanne S., López-Jury, Luciana, Hechavarria, Julio C.
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Sprache:	eng
Schlagworte:	Animals Auditory Pathways - physiology Cerebellum - physiology Chiroptera - physiology Echolocation - physiology Hearing - physiology Male Vocalization, Animal - physiology
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creator	Hariharan, Shivani Palomares, Eugenia González Babl, Susanne S. López-Jury, Luciana Hechavarria, Julio C.
description	Echolocating bats exhibit remarkable auditory behaviors, enabled by adaptations both within and outside their auditory system. Yet research on echolocating bats has focused mostly on brain areas that belong to the classic ascending auditory pathway. This study provides direct evidence linking the cerebellum, an evolutionarily ancient and non-classic auditory structure, to vocalization and hearing. We report that in the fruit-eating bat Carollia perspicillata, external sounds can evoke cerebellar responses with latencies below 20 ms. Such fast responses are indicative of early inputs to the bat cerebellum. After establishing fruit-eating bats as a good model to study cerebellar auditory responses, we searched for a neural correlate of vocal production within the cerebellum. We investigated spike trains and field potentials occurring before and after vocalization and found that the type of sound produced (echolocation pulses or communication calls) can be decoded from pre-vocal and post-vocal neural signals, with prediction accuracies that reach above 85%. The latter provides a direct correlate of vocalization in an ancient motor-coordination structure that lies outside of the classic ascending auditory pathway. Taken together, our findings provide evidence of specializations for vocalization and hearing in the cerebellum of an auditory specialist. [Display omitted] •The cerebellum contributes to vocalization and auditory processing•Cerebellar responses to external sounds are rapid with latencies below 20 ms•Cerebellar activity can predict the type of vocalization with >85% accuracy•Vocalizations are better predicted by spikes than LFPs in the cerebellum Hariharan et al. demonstrate that the cerebellum can predict the type of vocalization (echolocation or communication) in fruit-eating bats with high accuracy. They also show prominent and fast responses to sound in the cerebellum of passively listening bats, highlighting its specialized role in vocal prediction and auditory processing.
doi_str_mv	10.1016/j.cub.2024.09.033
format	Article
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Yet research on echolocating bats has focused mostly on brain areas that belong to the classic ascending auditory pathway. This study provides direct evidence linking the cerebellum, an evolutionarily ancient and non-classic auditory structure, to vocalization and hearing. We report that in the fruit-eating bat Carollia perspicillata, external sounds can evoke cerebellar responses with latencies below 20 ms. Such fast responses are indicative of early inputs to the bat cerebellum. After establishing fruit-eating bats as a good model to study cerebellar auditory responses, we searched for a neural correlate of vocal production within the cerebellum. We investigated spike trains and field potentials occurring before and after vocalization and found that the type of sound produced (echolocation pulses or communication calls) can be decoded from pre-vocal and post-vocal neural signals, with prediction accuracies that reach above 85%. The latter provides a direct correlate of vocalization in an ancient motor-coordination structure that lies outside of the classic ascending auditory pathway. Taken together, our findings provide evidence of specializations for vocalization and hearing in the cerebellum of an auditory specialist. [Display omitted] •The cerebellum contributes to vocalization and auditory processing•Cerebellar responses to external sounds are rapid with latencies below 20 ms•Cerebellar activity can predict the type of vocalization with >85% accuracy•Vocalizations are better predicted by spikes than LFPs in the cerebellum Hariharan et al. demonstrate that the cerebellum can predict the type of vocalization (echolocation or communication) in fruit-eating bats with high accuracy. 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Yet research on echolocating bats has focused mostly on brain areas that belong to the classic ascending auditory pathway. This study provides direct evidence linking the cerebellum, an evolutionarily ancient and non-classic auditory structure, to vocalization and hearing. We report that in the fruit-eating bat Carollia perspicillata, external sounds can evoke cerebellar responses with latencies below 20 ms. Such fast responses are indicative of early inputs to the bat cerebellum. After establishing fruit-eating bats as a good model to study cerebellar auditory responses, we searched for a neural correlate of vocal production within the cerebellum. We investigated spike trains and field potentials occurring before and after vocalization and found that the type of sound produced (echolocation pulses or communication calls) can be decoded from pre-vocal and post-vocal neural signals, with prediction accuracies that reach above 85%. The latter provides a direct correlate of vocalization in an ancient motor-coordination structure that lies outside of the classic ascending auditory pathway. Taken together, our findings provide evidence of specializations for vocalization and hearing in the cerebellum of an auditory specialist. [Display omitted] •The cerebellum contributes to vocalization and auditory processing•Cerebellar responses to external sounds are rapid with latencies below 20 ms•Cerebellar activity can predict the type of vocalization with >85% accuracy•Vocalizations are better predicted by spikes than LFPs in the cerebellum Hariharan et al. demonstrate that the cerebellum can predict the type of vocalization (echolocation or communication) in fruit-eating bats with high accuracy. 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The latter provides a direct correlate of vocalization in an ancient motor-coordination structure that lies outside of the classic ascending auditory pathway. Taken together, our findings provide evidence of specializations for vocalization and hearing in the cerebellum of an auditory specialist. [Display omitted] •The cerebellum contributes to vocalization and auditory processing•Cerebellar responses to external sounds are rapid with latencies below 20 ms•Cerebellar activity can predict the type of vocalization with >85% accuracy•Vocalizations are better predicted by spikes than LFPs in the cerebellum Hariharan et al. demonstrate that the cerebellum can predict the type of vocalization (echolocation or communication) in fruit-eating bats with high accuracy. 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subjects	Animals Auditory Pathways - physiology Cerebellum - physiology Chiroptera - physiology Echolocation - physiology Hearing - physiology Male Vocalization, Animal - physiology
title	Cerebellar activity predicts vocalization in fruit bats
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