|ZFIN ID: ZDB-PUB-000504-3|
The histaminergic system in the brain: structural characteristics and changes in hibernation
Panula, P., Karlstedt, K., Sallmen, T., Peitsaro, N., Kaslin, J., Michelsen, K.A., Anichtchik, O., Kukko-Lukjanov, T., and Lintunen, M.
|Source:||Journal of chemical neuroanatomy 18(1-2): 65-74 (Journal)|
|Registered Authors:||Anichtchik, Oleg, Kaslin, Jan, Panula, Pertti, Peitsaro, Nina|
|Keywords:||epilepsy; hibernation; zebrafish; endothelial cells; blood-brain barrier; histidine decarboxylase|
|PubMed:||10708920 Full text @ J. Chem. Neuroanat.|
Panula, P., Karlstedt, K., Sallmen, T., Peitsaro, N., Kaslin, J., Michelsen, K.A., Anichtchik, O., Kukko-Lukjanov, T., and Lintunen, M. (2000) The histaminergic system in the brain: structural characteristics and changes in hibernation. Journal of chemical neuroanatomy. 18(1-2):65-74.
ABSTRACTHistaminergic neurons in adult vertebrate brain are confined to the posterior hypothalamic area, where they are comprised of scattered groups of neurons referred to as the tuberomammillary nucleus. Histamine regulates hormonal functions, sleep, food intake, thermoregulation and locomotor activity, for example. In the zebrafish, Danio rerio, histamine was detected only in the brain, where also the histamine synthesizing enzyme L-histidine decarboxylase (HDC) was expressed. It is possible that histamine has first evolved as a neurotransmitter in the central nervous system. We established sensitive quantitative in situ hybridization methods for histamine H(1) and H(2) receptors and HDC, to study the modulation of brain histaminergic system under pathophysiological conditions. A transient increase in H(1) receptor expression was seen in the dentate gyrus and striatum after a single injection of kainic acid, a glutamate analog. H(1) antagonists are known to increase duration of convulsions, and increased brain histamine is associated with reduced convulsions in animal models of epilepsy. No HDC mRNA was detected in brain vessels by in situ hybridization, which suggests lack of histamine synthesis by brain endothelial cells. This was verified by lack of HDC mRNA in a rat brain endothelial cell line, RBE4 cells. Both H(1) and H(2) receptor mRNA was found in this cell line, and the expression of both receptors was downregulated by dexamethasone. The findings are in agreement with the concept that histamine regulates blood-brain barrier permeability through H(1) and H(2) receptor mediated mechanisms. Hibernation is characterized by a drastic reduction of central functions. The activity of most transmitter systems is maintained at a very low level. Surprisingly, histamine levels and turnover were clearly elevated in hibernating ground squirrels, and the density of histamine-containing fibers was higher than in euthermic animals. It is possible that histamine actively maintains the low activity of other transmitters during the hibernation state.
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