Cognitive and emotional functions of the teleost fish cerebellum.
(2005)
Journal - Brain research bulletin (United States )
Abstract :
Increasing experimental and neuropsychological evidence indicates that the cerebellum of humans and other mammals, traditionally associated with motor control, is implicated in a variety of cognitive and emotional functions. For example, the cerebellum has been identified as an essential structure in different learning processes, ranging from simple forms of associative, sensory-motor learning and emotional conditioning, to more complex, higher-order processes such as spatial cognition. Although neuroanatomical and neurophysiological data indicate that the organization of the cerebellum is notably well conserved in vertebrates, little is actually known about the cerebellar contribution to processes besides the motor domain in non-mammals. In this work, we analyzed the involvement of the teleost fish cerebellum on classical conditioning of motor and emotional responses and on spatial cognition. Cerebellum lesions in goldfish impair the classical conditioning of a simple eye-retraction response analogous to the eyeblink conditioning described in mammals. Single unit extracellular electrophysiological recording and cytochrome oxidase histochemistry also reveal the involvement of the teleost fish cerebellum in classical conditioning. Autonomic emotional responses (e.g., heart rate classical conditioning) are also impaired by cerebellum lesions in goldfish. Furthermore, goldfish with cerebellum lesions present a severe impairment in spatial cognition. In contrast, cerebellum lesions do not produce any observable motor deficit as indicated by the swimming activity or obstacle avoidance and do not interfere with the occurrence of unconditioned motor or emotional responses. These data indicate that the functional involvement of the teleost cerebellum in learning and memory is strikingly similar to mammals and suggest that the cognitive and emotional functions of the cerebellum may have evolved early in vertebrate evolution, having been conserved along the phylogenetic history of the extant vertebrate groups.
| ISSN : | 0361-9230 |
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| Mesh Heading : | Animals Behavior, Animal Cerebellum Cognition Conditioning, Classical Emotions Fishes Heart Rate Humans Spatial Behavior physiology physiology physiology |
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| Mesh Heading Relevant : | physiology physiology physiology |
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Spatial memory and hippocampal pallium through vertebrate evolution: insights from reptiles and teleost fish.
(2002)
Journal - Brain research bulletin (United States )
Abstract :
The forebrain of vertebrates shows great morphological variation and specialized adaptations. However, an increasing amount of neuroanatomical and functional data reveal that the evolution of the vertebrate forebrain could have been more conservative than previously realized. For example, the pallial region of the teleost telencephalon contains subdivisions presumably homologous with various pallial areas in amniotes, including possibly a homologue of the medial pallium or hippocampus. In mammals and birds, the hippocampus is critical for encoding complex spatial information to form map-like cognitive representations of the environment. Here, we present data showing that the pallial areas of reptiles and fish, previously proposed as homologous to the hippocampus of mammals and birds on an anatomical basis, are similarly involved in spatial memory and navigation by map-like or relational representations of the allocentric space. These data suggest that early in vertebrate evolution, the medial pallium of an ancestral fish group that gave rise to the extant vertebrates became specialized for processing and encoding complex spatial information, and that this functional trait has been retained through the evolution of each independent vertebrate lineage.
| ISSN : | 0361-9230 |
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| Mesh Heading : | Animals Fishes Hippocampus Memory Reptiles Space Perception Vertebrates physiology physiology |
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| Mesh Heading Relevant : | Evolution physiology physiology physiology physiology |
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