Antagonism of a peripheral vascular but not an apparently central serotonergic response by xylamidine and BW 501C67

Abstract

Xylamidine and BW501C67 (α-anilino-N-2-m-chlorophenoxypropylacetamidine), serotonin antagonists that have been reported not to cross the blood-brain barrier, were compared to other serotonin antagonists: mianserin, ketanserin, metergoline and LY 53857. All six compounds were potent inhibitors of the binding of tritiated spiperone to 5HT 2 receptors in rat frontal cortex membranes in vitro and were less potent inhibitors of the binding of tritiated serotonin to 5HT 1 receptors in rat brain membranes. All were potent antagonists of the 5HT 2 receptor-mediated contractile response to serotonin in the rat jugular vein in vitro. At doses of 0.1 and 0.3 mg/kg i.p., xylamidine and BW501C67 antagonized the pressor response to intravenously injected serotonin in pithed rats. In contrast, neither xylamidine nor BW501C67 at doses of 1 or 3 mg/kg i.p. antagonized the elevation of serum corticosterone concentration by quipazine in rats, although the other compounds antagonized this effect with ED 50 values between 0.03 and 0.9 mg/kg. These data corroborate the previously reported antiserotonin activity of xylamidine and BW501C67. Since xylamidine and BW501C67 were potent antagonists of a peripheral serotonergic response in vivo, their inability to antagonize the elevation of serum corticosterone concentration by quipazine suggests that this effect results from activation of central serotonin receptors.