Intracellular mechanism of action of vasodilators.

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Citation

Walter U, Waldmann R, Nieberding M

Intracellular mechanism of action of vasodilators.

Eur Heart J. 1988 Jun;9 Suppl H:1-6.

PubMed ID
3049092 [ View in PubMed
]
Abstract

Vasodilators that act directly at the level of the vasculature may be classified as either endothelium-dependent or endothelium-independent agents. Endothelium-dependent agents stimulate the endothelium to produce endothelium-derived relaxing factor (recently identified as NO) which relaxes vascular smooth muscle and increases cGMP. Endothelium-independent vasodilators may be divided into calcium antagonists, alpha 1-adrenergic antagonists, cAMP-elevating agents and cGMP-elevating agents. It is generally accepted that calcium-dependent phosphorylation of myosin light chains initiates smooth muscle contraction. A variety of evidence suggests that certain vasodilators inhibit calcium-dependent phosphorylation of myosin light chains and smooth muscle contraction via activation of cAMP- and cGMP-dependent protein phosphorylation. Since vascular smooth muscle cells and platelets have many properties in common, and since cAMP- and cGMP-elevating vasodilators inhibit both smooth muscle contraction and platelet aggregation, human platelets were used to study the effects of vasodilators on protein phosphorylation. It could be demonstrated that cAMP- and cGMP-regulated protein kinases are the intracellular mediators for prostaglandin-E1- and nitroprusside-induced protein phosphorylation, respectively. Furthermore, prostaglandin-E1- and nitroprusside-stimulated protein phosphorylation was found to be associated with an inhibition of the phosphatidylinositol cycle. Cyclic nucleotide-elevating vasodilators may inhibit smooth muscle contraction and platelet aggregation by regulating the flux through the phosphatidylinositol cycle, and the activity of myosin light-chain kinase and of calcium ATPases.

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