Central cardiovascular actions of vasopressin in the rat

Abstract

Arginine vasopressin (AVP) containing neurones and pathways have been localized in various cardiovascular control centers of the central nervous system in rats. AVP influences cardiovascular regulation when injected into various areas of the central nervous system. The blood pressure increases in response to central AVP injections were shown to be initiated by stimulation of central V1-AVP receptors and mediated by stimulation of sympathetic outflow to the periphery. On the other hand, AVP has also been shown to attenuate the pressor responses to electrical stimulation of the mesencephalic reticular formation when injected into the brain ventricular system. In addition, AVP can participate in cardiovascular regulation by modulating baroreceptor reflex sensitivity. We have shown that in rats peripheral (hormonal) AVP can sensitize the heart rate component of the baroreceptor reflex by acting on V2-AVP receptors accessible from the blood, while at the same time central (neuronal) AVP can attenuate the baroreceptor reflex through brain V1-AVP receptors that cannot be reached from the blood. Binding and functional studies favour the existence of V1-AVP receptors in the central nervous system, whereas evidence for central V2-AVP receptors is still scarce. The role of AVP in hypertension remains controversial, but recent evidence suggests that a discordance between the various central and peripheral cardiovascular actions of AVP, rather than its hormonal vasopressor effects, may contribute to the pathogenesis of hypertension.