The effects of several muscarinic antagonists on pre- and postsynaptic receptors in the isolated rabbit heart

Abstract

Summary In order to reveal possible differences between pre- and postsynaptic muscarine receptors, seven antagonists were tested for their affinities on these receptor sites in the rabbit isolated perfused heart. Methacholine was used as an agonist to inhibit the noradrenaline overflow evoked by electrical stimulation (3 Hz, 3 min) of the sympathetic nerves (presynaptic parameter) and to decrease the systolic tension development of the right atrium (postsynaptic parameter). The affinity of an antagonist was expressed as pA₂. A decreasing order of potency was obtained with ipratropium, scopolamine, atropine, trihexyphenidyl, amitriptyline, and gallamine, both for pre- and postsynaptic responses. The antagonists acted competitively and their effects were reversible. Furthermore, for none of the drugs did the pA₂ (pre) differ from the pA₂ (post). With QNB (3-quinuclidinyl benzilate) a pA₂ (post) of 11.65 was obtained. However, the affinity to presynaptic receptors could not be determined as a pA₂ value due to the very prolonged exposure time required for the equilibrium with QNB and for that with methacholine in the presence of QNB. It is concluded that the antagonists employed do not reveal differences between pre- and postsynaptic muscarine receptors of the rabbit heart, in spite of their greatly varying chemical structure and their individual affinities ranging over 5 orders of magnitude. The findings confirm the view of a homogeneous muscarine receptor population characterized by functional parameters.