钾离子通道打开剂:一类新的血管松弛剂。

Blood vessels Pub Date : 1990-01-01 DOI:10.1159/000158823
A H Weston, J Longmore, D T Newgreen, G Edwards, K M Bray, S Duty
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引用次数: 26

摘要

Cromakalim, pinacidil, nicorandil, diazoxide和RP-49356属于钾通道打开剂。在大鼠门静脉中,二氮氧化物与克罗卡林一样,可消除自发的机械和电活动,并在大鼠主动脉中引起86Rb外排增加,抑制KCl(20 mM)诱导的收缩。然而,与cromakalim相反,二氮氧化合物(大于100微米)也能抑制80毫米KCl在大鼠主动脉中引起的机械反应,这表明它除了具有打开K通道外还具有药理特性。由于格列本脲可以减弱cromakalim和二氮氧化合物在血管组织中的作用,因此可能存在一种类似于胰腺β细胞中发现的atp敏感K通道的通道,可能参与了这些药物的血管松弛作用。然而,在产生平滑肌松弛和减少胰腺β细胞胰岛素分泌的效力顺序上,cromakalim和diazoxide存在差异。此外,甘丙肽(打开β细胞中atp敏感的K通道)增加了大鼠门静脉的机械活性。预计新的化学发展将产生具有更大效力和组织选择性的K通道打开分子。
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The potassium channel openers: a new class of vasorelaxants.

Cromakalim, pinacidil, nicorandil, diazoxide and RP-49356 belong to the class of drugs termed potassium channel openers. In rat portal vein diazoxide, like cromakalim, abolished spontaneous mechanical and electrical activity and in rat aorta caused an increase in 86Rb efflux and inhibited KCl(20 mM)-induced contractions. However, in contrast to cromakalim, diazoxide (greater than 100 microM) also inhibited mechanical responses evoked by 80 mM KCl in rat aorta suggesting that it possesses pharmacological properties in addition to K channel opening. Since glibenclamide can attenuate the effects of cromakalim and diazoxide in vascular tissues, it is possible that a channel resembling the ATP-sensitive K channel found in pancreatic beta-cells may be involved in the vasorelaxant effects of these agents. However, differences exist in the order of potency of cromakalim and diazoxide for producing smooth muscle relaxation and for decreasing insulin secretion in pancreatic beta-cells. Furthermore galanin (which opens ATP-sensitive K channels in beta-cells) increases mechanical activity in rat portal vein. It is anticipated that new chemical developments will produce K channel opening molecules with greater potency and tissue selectivity.

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