Article date: January 2000
By: K A Dora, J M Hinton, S D Walker, C J Garland, in Volume 129, Issue 2, pages 381-387
The possibility that stimulation of smooth muscle α1‐adrenoceptors modulates contraction via the endothelium was examined in rat small mesenteric arteries.
Nω‐nitro‐L‐arginine methyl ester, (L‐NAME, 100 μM to inhibit NO synthase) increased contraction to single concentrations of phenylephrine (1–3 μM) by approximately 2 fold (from a control level of 14.2±3.0 to 34.1±4.2% of the maximum contraction of the artery, n=20). The action of L‐NAME was abolished by disrupting the endothelium.
The subsequent addition of apamin (to inhibit small conductance Ca2+‐activated K+ channels, 50 nM) further augmented phenylephrine contractions, in an endothelium‐dependent manner, to more than 3 fold above control (50.4±5.3% of the maximum contraction, n=11).
Charybdotoxin (non‐selective inhibitor of large conductance Ca2+‐activated K+ channels, BKCa, 50 nM) plus L‐NAME augmented the level of phenylephrine contraction to 4–5‐fold above control (64.1±3.1%, n=5), but this effect was independent of the endothelium. The potentiation of contraction by charybdotoxin could be mimicked with the selective BKCa inhibitor, iberiotoxin,.
Apamin together with L‐NAME and charybdotoxin further significantly increased the phenylephrine contraction by 5–6‐fold, to 79.9±3.5% of the maximum contraction of the artery (n=13).
Phenylephrine failed directly to increase the intracellular Ca2+ concentration in endothelial cells freshly isolated from the small mesenteric artery.
Stimulation of smooth muscle α1‐adrenoceptors in the mesenteric artery induces contraction that is markedly suppressed by the endothelium. The attenuation of contraction appears to reflect both the release of NO from the endothelium and the efflux of K+ from both endothelial and smooth muscle cells. This suggests that the release of NO and endothelium‐derived hyperpolarizing factor can be evoked indirectly by agents which act only on the smooth muscle cells.
The possibility that stimulation of smooth muscle α1‐adrenoceptors modulates contraction via the endothelium was examined in rat small mesenteric arteries.
Nω‐nitro‐L‐arginine methyl ester, (L‐NAME, 100 μM to inhibit NO synthase) increased contraction to single concentrations of phenylephrine (1–3 μM) by approximately 2 fold (from a control level of 14.2±3.0 to 34.1±4.2% of the maximum contraction of the artery, n=20). The action of L‐NAME was abolished by disrupting the endothelium.
The subsequent addition of apamin (to inhibit small conductance Ca2+‐activated K+ channels, 50 nM) further augmented phenylephrine contractions, in an endothelium‐dependent manner, to more than 3 fold above control (50.4±5.3% of the maximum contraction, n=11).
Charybdotoxin (non‐selective inhibitor of large conductance Ca2+‐activated K+ channels, BKCa, 50 nM) plus L‐NAME augmented the level of phenylephrine contraction to 4–5‐fold above control (64.1±3.1%, n=5), but this effect was independent of the endothelium. The potentiation of contraction by charybdotoxin could be mimicked with the selective BKCa inhibitor, iberiotoxin,.
Apamin together with L‐NAME and charybdotoxin further significantly increased the phenylephrine contraction by 5–6‐fold, to 79.9±3.5% of the maximum contraction of the artery (n=13).
Phenylephrine failed directly to increase the intracellular Ca2+ concentration in endothelial cells freshly isolated from the small mesenteric artery.
Stimulation of smooth muscle α1‐adrenoceptors in the mesenteric artery induces contraction that is markedly suppressed by the endothelium. The attenuation of contraction appears to reflect both the release of NO from the endothelium and the efflux of K+ from both endothelial and smooth muscle cells. This suggests that the release of NO and endothelium‐derived hyperpolarizing factor can be evoked indirectly by agents which act only on the smooth muscle cells.
British Journal of Pharmacology (2000) 129, 381–387; doi:10.1038/sj.bjp.0703052
DOI: 10.1038/sj.bjp.0703052
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