Functional regionalization of the teleost cerebellum analyzed in vivo

There has been accumulating evidence for a regionalized organization of the cerebellum, which was mostly deduced from anatomical mapping of axonal projections of cerebellar afferents. A likewise regionalization of the cerebellar output has been suggested from lesion studies and dye-tracer experiment...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2014-08, Vol.111 (32), p.11846-11851
Main Authors: Matsui, Hideaki, Namikawa, Kazuhiko, Babaryka, Andreas, Köster, Reinhard W.
Format: Article
Language:English
Subjects:
Animal behavior
Animals
Animals, Genetically Modified
Axons
Behavior, Animal - physiology
Behavioral neuroscience
Biological Sciences
Brain
Brain Mapping
Calcium Signaling
Cells
Cerebellar Cortex - anatomy & histology
Cerebellar Cortex - growth & development
Cerebellar Cortex - physiology
Cerebellum
Cerebellum - anatomy & histology
Cerebellum - growth & development
Cerebellum - physiology
Danio rerio
Efferent Pathways - anatomy & histology
Efferent Pathways - physiology
Imaging
Larvae
Medical genetics
Neurons
Optogenetics
Purkinje cells
Purkinje Cells - physiology
Saccades
Swimming
Teleostei
Zebrafish
Zebrafish - genetics
Zebrafish - growth & development
Zebrafish - physiology
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Summary:There has been accumulating evidence for a regionalized organization of the cerebellum, which was mostly deduced from anatomical mapping of axonal projections of cerebellar afferents. A likewise regionalization of the cerebellar output has been suggested from lesion studies and dye-tracer experiments, but its physiological targets as well as the functional relevance of such an output regionalization are less clear. Ideally, such functional regionalization should be proven noninvasively in vivo. We here provide evidence for such a regionalization of the output from the cerebellar cortex by genetically encoded transneuronal mapping of efferent circuits of zebrafish Purkinje neurons. These identified circuits correspond to distinct regionalized Purkinje cell activity patterns in freely behaving zebrafish larvae during the performance of cerebellar-dependent behaviors. Furthermore, optogenetic interrogation of selected Purkinje cell regions during animal behavior confirms the functional regionalization of Purkinje cell efferents and reveals their contribution to behavior control as well as their function in controlling lateralized behavioral output. Our findings reveal how brain compartments serve to fulfill a multitude of functions by dedicating specialized efferent circuits to distinct behavioral tasks.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1403105111