The systemic cardiovascular effects of a novel 5-hydroxtryptamine (5-HT)(1B/1D)-receptor agonist were investigated in the anaesthetised dog. SB 209509 (VML 251) was more potent than sumatriptan in producing increases in carotid vascular resistance after intravenous administration and was similar in potency to sumatriptan after sequential intraduodenal administration at 30-min intervals. In open-chest dogs, sequential intravenous administration of SB 209509 or sumatriptan produced marked increases in carotid vascular resistance without changing coronary vascular resistance. In contrast to sumatriptan, after administration of high doses of SB 209509 (>790 nmol/kg), a reduction in coronary vascular resistance was observed. After a single bolus intraduodenal dose of SB 209509 (260, 520, or 790 nmol/kg), increases in carotid vascular resistance could be detected over a 5-h period. Sumatriptan (i.d.), 2.4 micromol/kg but not 700 nmol/kg, produced a sustained effect similar to the effects of SB 209509 (790 nmol/kg). In all experiments, SB 209509 and sumatriptan had minimal effects on arterial blood pressure or heart rate but produced marked changes in carotid vascular resistance over the same concentration range. SB 209509 was rapidly absorbed after intraduodenal administration in conscious dogs and had good bioavailability. These data indicate that SB 209509 is a potent 5-HT(1B/1D)-receptor agonist that is rapidly absorbed from the duodenum. The effects of SB 209509 are long lasting and selective for the carotid vascular bed.
We investigated the effects of the selective NK(3) tachykinin receptor antagonist, SB-235375, on noxious signalling from gut and skin and on intestinal motility in anaesthetized rats. We also measured penetrance into brain and spinal cord. Nociceptive responses in reaction to colorectal distension and skin pinch were assessed by recording the electromyogram (EMG) from the external oblique muscle (a visceromotor response). Motility was measured by recording intraluminal pressure waves during changes in baseline pressure in the jejunum. Colorectal compliance was assessed by measuring luminal pressure change during isovolumic distension. SB-235375 (20 mg kg(-1), by i.v. bolus) reduced the EMG response to colorectal distension by over 90%. The reduction was slow at onset, peaked at about 60 min, and lasted for over 2 h. Responses to noxious skin pinch were unchanged. Amplitudes of propulsive waves in the jejunum were slightly reduced, but their frequency of occurrence was unchanged. SB-235375 decreased colorectal compliance by 5-10%. There was undetectable penetration of i.v. SB-235375 into brain or spinal cord. We conclude that SB-235375 acts peripherally to substantially reduce nociceptive signalling from colorectum without affecting noxious signalling from skin and with little effect on intestinal motility.
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