The comparative neuroanatomy and neurochemistry of zebrafish CNS systems of relevance to human neuropsychiatric diseases

The comparative neuroanatomy and neurochemistry of zebrafish CNS systems of relevance to human neuropsychiatric diseases

Abstract Modulatory neurotransmitters which signal through G protein-coupled receptors control brain functions which deteriorate in degenerative brain diseases. During the past decade many of these systems have been mapped in the zebrafish brain. The main architecture of the systems in zebrafish bra...

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Bibliographic Details
Published in:Neurobiology of disease Vol. 40; no. 1; pp. 46 - 57
Main Authors: Panula, P, Chen, Y.-C, Priyadarshini, M, Kudo, H, Semenova, S, Sundvik, M, Sallinen, V
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-10-2010
Elsevier
Subjects:
Acetylcholine
Alzheimer's disease
Animals
Brain Mapping - methods
Brain Mapping - trends
Disease Models, Animal
Dopamine
Histamine
Humans
Models, Genetic
Narcolepsy
Nervous System Diseases - genetics
Nervous System Diseases - metabolism
Nervous System Diseases - psychology
Neurodegenerative Diseases - genetics
Neurodegenerative Diseases - metabolism
Neurodegenerative Diseases - psychology
Neurology
Parkinson's disease
Schizophrenia
Serotonin
Zebrafish - genetics
Zebrafish - metabolism
Zebrafish - physiology
Zebrafish Proteins - chemistry
Zebrafish Proteins - genetics
Zebrafish Proteins - physiology
Histamine
Dopamine
Parkinson's disease
Serotonin
Schizophrenia
Acetylcholine
Narcolepsy
Alzheimer's disease
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Summary:Abstract Modulatory neurotransmitters which signal through G protein-coupled receptors control brain functions which deteriorate in degenerative brain diseases. During the past decade many of these systems have been mapped in the zebrafish brain. The main architecture of the systems in zebrafish brain resembles that of the mammals, despite differences in the development of the telencephalon and mesodiencephalon. Modulatory neurotransmitters systems which degenerate in human diseases include dopamine, noradrenaline, serotonin, histamine, acetylcholine and orexin/hypocretin. Although the number of G protein-coupled receptors in zebrafish is clearly larger than in mammals, many receptors have similar expression patterns, binding and signaling properties as in mammals. Distinct differences between mammals and zebrafish include duplication of the tyrosine hydroxylase gene in zebrafish, and presence of one instead of two monoamine oxidase genes. Zebrafish are sensitive to neurotoxins including MPTP, and exposure to this neurotoxin induces a decline in dopamine content and number of detectable tyrosine hydroxylase immunoreactive neurons in distinct nuclei. Sensitivity to important neurotoxins, many available genetic methods, rapid development and large-scale quantitative behavioral methods in addition to advanced quantitative anatomical methods render zebrafish an optimal organism for studies on disease mechanisms.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:0969-9961
1095-953X
DOI:10.1016/j.nbd.2010.05.010