Effects of dopamine analogues and antagonists on carotid body chemosensors in situ.

Abstract

1. The effects of dopamine, its analogues and antagonists on the chemosensory discharges originating from carotid bodies in situ were studied in anaesthetized cats. 2. Intracarotid (I.C.) injections of 100 ng or more of dopamine produced transient depression of the frequency of carotid nerve chemosensory discharges. Short term (1‐5 sec) complete inhibition was usually elicited by 2 microgram dopamine. 3. I.V. injections of dopamine also produced inhibition of chemosensory discharges, an effect observed with doses which were still too low to produce changes in systemic arterial pressure. Half‐maximal inhibition (ID50) of chemoreceptors was elicited with a mean dose of 84 ng.kg‐1. 4. I.C. and I.V. injections of apomorphine and amantadine also produced transient inhibition of chemosensory activity. Higher doses of these analogues of dopamine were needed to produce this effect, and the resulting inhibition usually did not silence the nerve discharges. Apomorphine inhibition was slightly more prolonged than that with dopamine. 5. Large doses of amphetamine and tyramine, inducers of dopamine release, did not produce inhibition of chemosensory discharges. 6. The effects of two classes of dopamine antagonists were tested. Dose‐response curves for dopamine and apomorphine inhibition were displaced to the right by administration of phenothiazines (chlorpromazine and perphenazine) and butyrophenones (haloperidol and spiroperidol). In animals treated with perphenazine or spiroperidol, dopamine became a stimulator of chemoreceptor activity. 7. It is suggested that dopamine present in carotid body may operate as a modulator of chemosensory activity.