While adenosine pretreatment protects against necrosis in the rabbit, (1) the expression of this protection depends at least in part upon the actions of K(+)ATP channels during ischaemia, and (2) glibenclamide at higher doses increases infarct size, suggesting either that the K(+)ATP channel is endogenously protective during ischaemia, or that the higher dose has other infarct extending effects.
ATP-sensitive potassium (K+Atp) channel openers such as cromakalim and pinacidil exhibit both potent vasodilatory and anti-ischemic properties. U-89232, a cyanoguanidine analog of cromakalim, has recently been found to exhibit myocardial protection during ischemia without altering in vivo hemodynamics. We examined the effects of U-89232, cromakalim and pinacidil in isolated vascular and cardiac tissue and tested whether glyburide, a Katp channel blocker, could antagonize their effects. All three compounds produced concentration-dependent relaxation in isolated vascular segmentswith cromakalim being approximately 100-fold more potent than either pinacidil or U-89232. Glyburide completely antagonized the effects of pinacidil but merely blunted the effects of cromakalim and U-89232. In an isolated rabbit cardiac tissue preparation, U-89232 had little effect on maximum tension in cardiac muscle, whereas cromakalim and pinacidil significantly decreased maximum developed tension in a concentration-dependent manner. Glyburide effectively antagonized the effects of cromakalim and pinacidil in cardiac tissue. These data suggest that U-89232, although chemically related to cromakalim, possesses activity which is not common to known potassium channel openers.
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