Effects of electrical or chemical stimulation of the prefrontal cortex on arrhythmias induced in cats by electrical stimulation of the anteromedial hypothalamus

When the anteromedial hypothalamus is stimulated with a chronically implanted electrode in conscious cats, negative emotional behaviors such as restlessness and escape occur during stimulation and ventricular extrasystoles occur in rapid succession immediately after the end of stimulation. It has been shown in the lightly anesthetized cat that the activity of the sympathetic nervous system becomes predominant during stimulation of the anteromedial hypothalamus thereby causing the rises in blood pressure and heart rate. However, immediately after the cessation of the stimulation, this 'sympathetic dominant' state was observed to be switched to the 'parasympathetic dominant' state with falls in blood pressure and heart rate which was very frequently followed by the appearance of the ventricular extrasystoles (Poststimulus Arrhythmia: PSA). The purpose of this experiment was to examine how the electric and pharmacological stimulation of the prefrontal cortex modulate the rise in the blood pressure and heart rate and PSA caused by electric stimulation of the anteromedial hypothalamus. When the prefrontal cortex was electrically stimulated simultaneously with stimulation of the anteromedial hypothalamus in 24 lightly anesthetized cats, PSA was inhibited or facilitated or remained unchanged depending on the site of stimulation in the prefrontal cortex. When dopamine or noradrenaline was microinjected into the site of prefrontal cortex where PSA was inhibited, PSA was suppressed and this effect was blocked by microinjection of haloperidol or phenoxybenzamine, respectively. Dopamine was ineffective when injected in the site where PSA was facilitated; PSA was facilitated by microinjection of noradrenaline and this effect was inhibited by microinjection of propranolol. Although changes in blood pressure and heart rate were observed when the inhibition or facilitation of PSA was elicited by prefrontal injection of noradrenaline, no changes in cardiovascular parameters occurred when dopamine injection caused the inhibition of PSA. These results suggest (1) that activation of the dopamine receptor or alpha adrenoceptor in the prefrontal cortex is involved in the inhibition of PSA, and activation of beta adrenoceptor is concerned with facilitation of PSA and (2) that the mechanisms of dopamine receptor mediated inhibition of PSA appear to be different from those of inhibition of PSA by activation of the alpha adrenoceptor in the prefrontal cortex.