Cardiovascular Effects of ω-Conopeptides in Conscious Rats: Mechanisms of Action

We examined the effects of ω-conopeptides, a novel class of neuronal voltage-gated calcium channel antagonists, on hemodynamic responses in rats. Intravenous (i.v.) injections of SNX-111 (ω-conopeptide MVIIA) dose-dependently decreased arterial blood pressure (BP) in conscious rats. Intracerebroventricular (i.c.v.) SNX-111 injections (580 pmol) tended to increase BP and, after an initial decrease, to increase heart rate (HR). The dose-response curve for SNX-111 administered i.v. in conscious rats was biphasic. Beginning at subdepressor doses, SNX-111 caused a long-lasting blockade of pressor responses elicited by sympathetic nerve stimulation in pithed animals but did not prevent increases in BP evoked by exogenously administered norepinephrine (NE). Pre-treatment of rats with histamine antagonists partially blocked the hypotensive effects of the higher (870 and 2,900 nmol/kg) doses of SNX-111. Substitution of alanine for arginine at position 10 ([Ala]-MVIIA) markedly attenuated the histamine-mediated component of the vasodepressor response. Together, these findings indicate that SNX-111 administered i.v. decreases systemic BP by a combination of blockade of sympathetic neurotransmission and mast cell degranulation; the latter function appears to be dependent on the arginine residue in position 10 of the amino acid sequence of SNX-111.