Cholinergic neurons of the pontomesencephalic tegmentum play a critical role in paradoxical sleep, when, according to single unit recording of 'possibly' cholinergic neurons, they fire maximally. The profile of activity of the cholinergic neurons may be determined by noradrenergic locus coeruleus neurons that are active during waking and silent during paradoxical sleep. Indeed, a permissive role of the noradrenergic neurons in paradoxical sleep has been proposed based upon an inhibitory action of noradrenaline through alpha(2) adrenergic receptors on the cholinergic cells. Yet some 'possibly' cholinergic neurons are purportedly maximally active during waking and excited by noradrenaline through alpha(1) receptors. In the present study, we examined by fluorescent dual-immunostaining in the laterodorsal and pedunculopontine tegmental nuclei of the rat whether choline acetyltransferase-immunopositive neurons are stained for alpha(2A) or alpha(1A) adrenergic receptors. For comparison, we examined immunostaining for these receptors on tyrosine hydroxylase-immunopositive locus coeruleus neurons, which are known to bear alpha(2A) autoreceptors. Whereas virtually all the noradrenergic neurons were labeled for the alpha(2A) and none for the alpha(1A), approximately half the cholinergic neurons were labeled for the alpha(2A) and one third for the alpha(1A) adrenergic receptors in adjacent sections. These results suggest that different groups of cholinergic neurons bear alpha(2) versus alpha(1) adrenergic receptors and would accordingly have different sleep-wake state activities and roles. The alpha(2)-bearing group would be inhibited by noradrenaline during waking to become disinhibited and maximally active while promoting paradoxical sleep, whereas the alpha(1)-bearing group would be excited by noradrenaline during waking to become maximally active while promoting features of that state.
Copyright 2002 IBRO