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A7r5 smooth muscle (aorta) cells have a spontaneous electrical activity. Application of vasopressin produces a hyperpolarization accompanied by an interruption of the spontaneous activity, which is followed by a depolarization associated with a recovery of the spiking activity. Vasopressin action is produced by an action of the peptide on three different types of ionic channels. Vasopressin activates a Ca2+-sensitive K+ conductance, presumably by producing inositol 1,4,5-trisphosphate intracellularly and liberating Ca2+ from internal stores. This activation is transient (0.5-4 min) and is related to the vasopressin-induced hyperpolarization. Intracellular perfusion of inositol trisphosphate triggers by itself a transient K+ current and prevents subsequent activation by vasopressin. Vasopressin inhibits an L-type Ca2+ channel through both protein kinase C activation and a [Ca2+]i-dependent inactivation mechanism triggered by inositol trisphosphate production. The addition of the activation of a Ca2+-sensitive K+ channel and of the inhibition of a voltage-sensitive Ca2+ channel is responsible for the transient blockade of the spontaneous activity. Vasopressin also provokes the activation of an inward current (2-20 min) due to a nonselective channel able to transfer Ca2+, Na+, K+, and Cs+ across the membrane. This effect of the peptide is associated with the depolarization following the hyperpolarization phase.

Vasopressin modulates the spontaneous electrical activity in aortic cells (line A7r5) by acting on three different types of ionic channels.