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  • Title: Cannabinoid agonists induce relaxation in the bovine ophthalmic artery: evidences for CB1 receptors, nitric oxide and potassium channels.
    Author: Romano MR, Lograno MD.
    Journal: Br J Pharmacol; 2006 Apr; 147(8):917-25. PubMed ID: 16474412.
    Abstract:
    Glaucoma pathophysiology appears to involve vascular deficits, which may contribute to initiation and progression of the disease. Anandamide, the endogenous cannabinoid ligand, and WIN55212-2, a synthetic cannabinoid agonist, are able to evoke concentration-dependent relaxations in bovine ophthalmic artery rings, precontracted with 5-hydroxytryptamine (5-HT) (1 microM). Endothelium removal reduces cannabinoid agonist potency and efficacy. The selective cannabinoid 1 (CB1) receptor antagonists SR141716A (100 nM) and AM251 (100 nM) cause a shift to the right in the concentration-response curves to anandamide and WIN55212-2 in arterial rings both in the presence and in the absence of endothelium. In endothelium-intact arteries, the nitric oxide synthase inhibitor, N(G)-monomethyl-L-arginine (L-NMMA, 300 microM), completely blocked the anandamide- and WIN55212-2-relaxant responses; by contrast, the nitric oxide donor S-nitroso-N-acetylpenicillamine (SNAP, 100 microM) induced an increase in vasorelaxant responses to cannabinoid agonists. Relaxations to anandamide and WIN55212-2 were inhibited by iberiotoxin (IbTX, 200 nM), a blocker of large conductance, Ca2+-activated K+ channel (BK(Ca)), and by 4-aminopyridine (4-AP; 1 mM), a blocker of delayed rectifier K+ channel, whereas the blockade of K(ATP) channels by glibenclamide (5 microM) and of small conductance Ca2+-activated K+ channels (SK(Ca)) by apamin (100 nM) did not produce any effects. These data suggest that anandamide and WIN55212-2 relax the bovine ophthalmic artery by involving CB1 the cannabinoid receptor-sensitive pathway. In endothelium-intact arteries, relaxation occurs through activation of nitric oxide synthase cyclic GMP and Ca2+-activated K+ channels. They also cause endothelium-independent relaxation by involving potassium channel opening.
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