PHARMACOLOGICAL ANALYSIS OF SALIVARY AND BLOOD FLOW RESPONSES TO HISTAMINE OF THE SUBMANDIBULAR GLAND OF THE DOG

1 The submandibular gland in situ was perfused with blood through the glandular artery at constant pressure in anaesthetized dogs. Drugs were administered intra‐arterially. 2 Histamine produced both salivation and an increase in blood flow, each response having an early and a late component. 3 Marked tachyphylaxis to histamine developed in both of the salivary responses but only in the late blood flow response to histamine. 4 The early and late salivary responses were abolished and the late blood flow response was diminished by infusion of tetrodotoxin in doses that abolished the salivary and blood flow responses to electrical stimulation of the chorda‐lingual nerve. 5 The whole salivary response to histamine was abolished by infusion of (−)‐hyoscyamine in doses that greatly antagonized the salivary and blood flow responses to acetylcholine, whereas the blood flow responses to histamine were scarcely modified. These doses of (−)‐hyoscyamine abolished the salivary response to chorda‐lingual nerve stimulation but left the blood flow response to it unaffected. 6 The salivary and blood flow responses to histamine were unaffected by infusion of hexamethonium in doses that almost abolished the salivary and blood flow responses to chorda‐lingual nerve stimulation. 7 The whole salivary response to histamine was abolished and the late blood response to histamine was partially inhibited by the histamine H 1 ‐receptor antagonist, mepyramine, but not, by the histamine H 2 ‐receptor antagonist, metiamide. 8 The early blood flow response to histamine was antagonized by both mepyramine and metiamide but mepyramine was far more effective than metiamide. 9 These results led to the following conclusions: (1) the whole salivary response and a part of the late blood flow response to histamine are due entirely to excitation of parasympathetic postganglionic neurones; (2) neuronal histamine receptors involved are exclusively of the H 1 ‐type; (3) histamine has no direct stimulant action on the glandular cells; (4) the early blood flow response and the remaining part of the late blood flow response to histamine result from the direct action on vascular smooth muscle in the glandular vascular bed; (5) vascular histamine receptors consist of H 1 ‐ and H 2 ‐receptors.