Maxim Moshnyakov scite author profile

The modulatory aminergic neurotransmitters are involved in practically all important physiological systems in the brain, and many of them are also involved in human central nervous system diseases, including Parkinson's disease, schizophrenia, Alzheimer's disease, and depression. The zebrafish brain aminergic systems share many structural properties with the mammalian systems. The noradrenergic, serotonergic, and histaminergic systems are highly similar. The dopaminergic systems also show similarities with the major difference being the lack of dopaminergic neurons in zebrafish mesencephalon. Development of automated quantitative behavioral analysis methods for zebrafish and imaging systems of complete brain neurotransmitter networks have enabled comprehensive studies on these systems in normal and pathological conditions. It is possible to visualize complete neurotransmitter systems in the whole zebrafish brain at an age when the fish already displays all major vital behaviors except reproduction. Alterations of brain dopaminergic systems with MPTP, the neurotoxin that in humans and rodents induces Parkinson's disease, induces both changes in zebrafish dopaminergic system and quantifiable abnormalities in motor behavior. Chemically-induced brain histamine deficiency causes an identifiable alteration in histaminergic neurons and terminal networks, and a clear change in swimming behavior and long-term memory. Combining the imaging techniques and behavioral methods with zebrafish genetics is likely to help reveal how the modulatory transmitter systems interact to produce important behaviors, and how they are regulated in pathophysiological conditions and diseases.

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Expression of neurotrophin receptors during rat tooth development is developmentally regulated, independent of innervation, and suggests functions in the regulation of morphogenesis and innervation

Luukko

Moshnyakov

Sainio

et al. 1996

Dev. Dyn.

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Localization of Glial Cell Line‐derived Neurotrophic Factor (GDNF) mRNA in Embryonic Rat by In Situ Hybridization

Suvanto

Hiltunen

Arumäe

et al. 1996

Eur J of Neuroscience

123

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The localization of glial cell line-derived neurotrophic factor (GDNF) mRNA was studied by in situ hybridization in rat from embryonic (E) day E10 to E15. At E10, GDNF mRNA is found in the urogenital field and the cranial part of the gut. At E11, the most abundant expression of GDNF mRNA is seen in the epithelial cells of the second, third and fourth pharyngeal pouches, the third and fourth pharyngeal arches and pharynx. Also mesenchymal cells of the gut and mesonephric tubules contain GDNF mRNA. At E13, expression is observed in the mesenchymal cell layers of the oesophagus, intestine and stomach, the mesenchymal cells around the condensing cartilages and metanephric kidney mesenchyme. Also, the epithelia of Rathke's pouch and pharynx are intensely labelled. High expression of GDNF mRNA continues at E15 in kidney, gastrointestinal tract and cartilage. At that stage, GDNF mRNA is seen also in whisker pad and skeletal muscles. The distribution of GDNF mRNA in embryonic rat suggests important roles for GDNF in the early differentiation of the kidney tubules, the innervation of the gastrointestinal tract and the differentiation process of the cartilage and muscle. Our results indicate novel functions for GDNF outside the nervous system.

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