[alpha]1-Adrenergic and [alpha]2-adrenergic balance in the dorsal pons and gross behavioral activity of mice in a novel environment

Central alpha(1)- and alpha(2)-adrenoceptors in a number of different brain regions are known to have opposing actions on gross behavioral activity, with the former stimulating and the latter inhibiting activity. Therefore, blockade of alpha(1)-receptors may induce inactivity by leading to unopposed...

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Bibliographic Details
Published in:Psychopharmacology 2005-11, Vol.183 (1), p.127
Main Authors: Stone, Eric A, Lin, Yan, Ahsan, Mohammad R, Quartermain, David
Format: Article
Language:English
Subjects:
Adrenergic receptors
Animals
Behavior
Brain
Drug dosages
Hypotheses
Medical research
Online Access:Get full text
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Summary:Central alpha(1)- and alpha(2)-adrenoceptors in a number of different brain regions are known to have opposing actions on gross behavioral activity, with the former stimulating and the latter inhibiting activity. Therefore, blockade of alpha(1)-receptors may induce inactivity by leading to unopposed alpha(2) activity. The aim of this study was to test if central blockade of alpha(2)-receptor function restores behavioral activity in alpha(1)-receptor-blocked mice. Dose-response studies were undertaken on the effects of alpha(1)- and alpha(2)-agonists and antagonists microinjected into the dorsal pons on gross behavioral activity in a novel cage test. The behavioral inactivity resulting from blockade of alpha(1)-receptors in the pons with the antagonist, terazosin, was reversed by either a low dose of an alpha(2)-antagonist, atipamezole, or a low dose of an alpha(2)-agonist, dexmedetomidine, but was exacerbated by a high dose of the alpha(2)-agonist. The results support the hypothesis that blockade of alpha(1)-receptors in the dorsal pons of mice produces inactivity by causing unopposed activity of alpha(2)-receptors. This condition may be relevant to inactive states seen after stress or during depressive illness.
ISSN:0033-3158
1432-2072
DOI:10.1007/s00213-005-0171-8