Pino, E.; Kunizawa, H. T.; Borde, M.

A large body of evidence indicates a pivotal role of cholinergic neurons of brainstem tegmental nuclei in the control of neurons of the reticular nucleus pontis oralis (PnO) considered executive for rapid eye movement sleep (REM-S) onset and maintenance. More recent data suggest that the PnO is also under GABAergic control that gate REM-S and highlights the role of interactions between cholinergic and GABAergic processes as a key mechanism for REM-S control. Here we employed an in vitro model of REM-S motor suppression to investigate the modulation of GABAergic inputs to PnO neurons by cholinergic agents. We found that carbachol, a mixed muscarinic-nicotinic cholinergic agonist, provoked either depression or facilitation of single evoked monosynaptic GABAergic IPSCs. Both effects were presynaptic in origin and likely due to the activation of different presynaptic cholinergic receptors as depression was replicated by muscarine (presynaptic inhibition) and facilitation by nicotine (presynaptic facilitation). IPSCs evoked by presumed physiological patterns of stimulation (short trains of stimuli at 15 Hz) were also affected by cholinergic agonists. Muscarine caused presynaptic inhibition accompanied by frequency facilitation and nicotine promoted the opposite effect. Notably, both agonists reduced the total inhibitory charge transferred to postsynaptic neurons during the train. Our results shed light on a possible additional mechanism for a cholinergic-mediated relief of GABAergic inhibition of PnO neurons under presumed physiological conditions, as a local component of the mutual inhibitory interaction design between sleep controlling systems at REM-s brainstem executive areas.