The affinity of metergoline for 3H-serotonin (5HT) binding sites is regulated by guanine nucleotide

From fenfluramine racemate to d-fenfluramine. Specificity and potency of the effects on the serotoninergic system and food intake

Experiments using the binding of various ligands for monoamines to rat brain membranes and synaptosomal preparations for studying monoamine uptake and release have shown that d-fenfluramine is more potent than the l isomer in inhibiting 5-HT uptake, whereas d-norfenfluramine preferentially releases 5-HT from a reserpine-insensitive compartment. Studies on brain monoamine metabolism in intact animals have shown that the d and l isomers of fenfluramine at relatively low doses have a specific action on brain 5-HT and catecholamines, respectively. Based on the different ability of metergoline and ritanserin to displace 5-HT2 binding to rat brain membranes and to antagonize d-fenfluramine's anorexia, evidence has been provided that d-fenfluramine preferentially uses 5-HT1 sites in the rat brain to cause anorexia in this animal species. Finally, characteristics, regional distribution, and pharmacological characterization of a high-affinity [3H]d-fenfluramine binding to rat brain membranes have been described. This binding appears to be different from 5-HT uptake sites ([3H]imipramine binding) and 5-HT receptors and is not regionally related to the endogenous levels of 5-HT in the rat brain. It is, however, preferentially displaced by some agents using 5-HT to cause anorexia in rats, raising the possibility that it is somewhat related to 5-HT mechanisms involved in feeding control.

Muscarinic cholinergic, but not serotoninergic mediation of arginine vasopressin response to metoclopramide in man

The possibility that metoclopramide (MCP) stimulates arginine vasopressin (AVP) secretion in man through a serotoninergic and/or a cholinergic muscarinic pathway was studied. Twenty normal male subjects were tested with MCP (10 mg in an i.v. bolus) alone or in the presence of the 5HT1 serotoninergic antagonist metergoline (10 mg/day p.o. in five divided doses for 4 days), the 5HT2 receptor blocker ketanserin (10 mg i.v. 5 min before MCP) (n = 10), the M1 and M2 muscarinic antagonist atropine (1.2 mg i.v. just before MCP administration) or the M1 muscarinic receptor blocker pirenzepine (40 mg i.v. 10 min before MCP) (n = 10). AVP doubled in response to MCP. the MCP-induced AVP rise did not change after metergoline, ketanserin or pirenzepine administration, whereas it was abolished by atropine. Additional experiments were performed in order to evaluate the effect of 1.2 mg atropine, given alone, on circulating AVP levels and whether the effect of atropine on the AVP response to MCP depends on the amount of the muscarinic antagonist (dose-response study). For these purposes, atropine was given alone to the same subjects previously tested with MCP plus atropine; furthermore, eight additional male subjects were tested with MCP plus atropine given in doses ranging from 0.8 to 1.4 mg. The results of these additional studies failed to show an effect of atropine alone on AVP secretion and demonstrated a dose-related inhibition of MCP-induced AVP rise by increasing atropine administration from 0.8 mg to 1.2 mg.(ABSTRACT TRUNCATED AT 250 WORDS)