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  • Title: Relaxation of rat thoracic aorta induced by the Ca(2+)-ATPase inhibitor, cyclopiazonic acid, possibly through nitric oxide formation.
    Author: Moritoki H, Hisayama T, Takeuchi S, Kondoh W, Imagawa M.
    Journal: Br J Pharmacol; 1994 Mar; 111(3):655-62. PubMed ID: 7517325.
    Abstract:
    1 The effect of the Ca(2+)-ATPase inhibitor, cyclopiazonic acid (CPA), was studied on rat thoracic aortic ring preparations. 2 At concentrations above 0.3 microM, CPA induced relaxation in the arteries precontracted with phenylephrine. Removal of the endothelium abolished CPA-induced relaxation. 3 The nitric oxide (NO) synthase inhibitor NG-nitro L-arginine (3-300 microM), the free radical scavenger haemoglobin (0.1-3 microM), the soluble guanylate cyclase inhibitor, LY83583 (0.1-10 microM), each inhibited the endothelium-dependent relaxation to CPA. The potassium channel blocker, glibenclamide (10 microM) and cyclo-oxygenase inhibitor, indomethacin (100 microM for 60 min and then washed out) did not alter the action of CPA. 4 The calmodulin inhibitors calmidazolium (3-10 microM) and W-7 (100 microM) also abolished CPA-induced relaxation. 5 CPA (10 microM) increased guanosine 3':5'-cyclic monophosphate (cyclic GMP) levels in arteries with an intact endothelium, without affecting adenosine 3':5'-cyclic monophosphate (cyclic AMP) levels. 6 The inhibitors of NO synthesis and actions, the calmodulin inhibitor and removal of the endothelium abolished the CPA-stimulated increase in the levels of cyclic GMP. 7 In Ca(2+)-free solution, CPA failed to induce relaxation or to stimulate cyclic GMP production. Relaxation to nitroprusside was not affected under these conditions. 8 These results suggest that CPA can stimulate NO synthesis, possibly by inhibiting a Ca(2+)-ATPase, which replenishes Ca2+ in the intracellular storage sites in endothelial cells. Depletion of the Ca2+ store in the endothelium may then trigger influx of extracellular Ca2+, contributing to an increase in free Ca2+ in the endothelial cells, which activates NO synthase and NO formation.
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