Diane E. Normandin scite author profile

The potassium channel activators cromakalim and pinacidil were recently shown to have anti-ischemic properties in isolated globally ischemic rat hearts. The effects of two reported blockers of ATP-sensitive potassium channels, glibenclamide (glyburide) and sodium 5-hydroxydecanoate, on the anti-ischemic efficacy of cromakalim were determined in this model. Buffer-perfused rat hearts were subjected to 25 minutes of ischemia followed by 30 minutes of reperfusion. Pretreatment of these hearts with 60 ,uM cromakalim significantly decreased indexes of contractile function but caused a significant improvement of postreperfusion function and a significant decrease in release of lactate dehydroxygenase and in end-diastolic pressure. Pretreatment with glibenclamide at concentrations that reversed the preischemic effects of cromakalim (0.05 and 1.0 ,M) also significantly reversed its postischemic protective effects. Sodium 5-hydroxydecanoate (100 and 300 ,uM) had no effect on the preischemic (negative inotropic) effects of cromakalim but completely reversed its cardioprotective effects. Sodium 5-hydroxydecanoate did not reverse the cardioprotective effects of the calcium entry blocker diltiazem. In phenylephrine-contracted rat aorta, glibenclamide (0.1-10 pM) inhibited cromakalim-induced relaxation, whereas sodium 5-hydroxydecanoate (10-1,000 JAM) had no effect. Similarly, the ability of cromakalim to shorten cardiac action potential duration in guinea pig papillary muscle and to increase outward whole-cell potassium currents in isolated myocytes was inhibited by glibenclamide, whereas sodium 5-hydroxydecanoate was without effect. Thus, both glibenclamide and sodium 5-hydroxydecanoate inhibited the effects of cromakalim after reperfusion; however, sodium 5 -hydroxydecanoate, unlike glibenclamide, had no effect in nonischemic preparations. These results suggest that sodium 5-hydroxydecanoate is an ischemia-selective inhibitor of ATP-sensitive potassium channels. (Circulation Research 1991;69:949-958 channel mechanism was implicated for the antiischemic effects of these compounds, since their protective actions were reversed by glibenclamide. Recently, sodium 5 -hydroxydecanoate (5 -HD, Figure 1), a proposed class III antiarrhythmic agent, which is structurally unrelated to glibenclamide, has been shown to inhibit cardiac ATP-sensitive potassium channels.10"11 A previous study12 indicated that 5-HD completely reversed the postischemic cardioprotective effects of cromakalim, yet 5-HD did not inhibit the preischemic coronary dilator effects of cromakalim. Glibenclamide completely inhibited both the preischemic coronary dilator effect and the postischemic cardioprotective effects of cromakalim. These preliminary observations led us to believe that 5-HD may possess some degree of ischemia selectivity. The use of coronary flow as an indicator of preischemic activity is imperfect, however, because the negative inotropic effects of cromakalim would complicate the interpretation of the coronary flow data. Therefore, to investigate...

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Cardioselective Antiischemic ATP-Sensitive Potassium Channel Openers. 2. Structure-Activity Studies on Benzopyranylcyanoguanidines; Modification of the Benzopyran Ring

Atwal¹,

Grover²,

Ferrara³

et al. 1995

J. Med. Chem.

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The ATP-sensitive potassium channel (KATP) openers are of considerable interest as myocardial protecting agents. However, there exists a narrow window of safety for the use of first-generation compounds as antiischemic agents due to their powerful peripheral vasodilating effects, which can result in underperfusion of the area already at risk. We have recently disclosed the discovery of benzopyranylcyanoguanidine type KATP openers (BMS-180448) which are more selective for the ischemic myocardium compared to the first-generation compounds. This publication deals with structure-activity relationships for the antiischemic activity of the lead compound 8. The presence of an electron-withdrawing group at C6, an sp3 center at C4, and a gem-dimethyl group at C2 appears to be essential for antiischemic activity. Cyanoguanidine can be replaced with a urea moiety. The results reported here support the hypothesis that distinct structure-activity relationships exist for antiischemic and vasorelaxant activities of compounds related to 8 and cromakalim. The trifluoromethyl analog 10 is 550-fold more selective in vitro for the ischemic myocardium compared to the first-generation agent cromakalim. The reasons for the selectivity of these compounds for the ischemic myocardium are not clear at the present time. They may be related to the existence of receptor subtypes in smooth muscle and the myocardium.

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Cardioselective Antiischemic ATP-Sensitive Potassium Channel (K_ATP) Openers. 5. Identification of 4-(N-Aryl)-Substituted Benzopyran Derivatives with High Selectivity

et al. 1997

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This paper describes our studies aimed at the discovery of structurally distinct analogs of the cardioprotective KATP opener BMS-180448 (2) with improved selectivity for the ischemic myocardium. The starting compound 6, derived from the indole analog 4. showed good cardioprotective potency and excellent selectivity compared to 2 and the first-generation KATP opener cromakalim (1). The structure-activity studies indicate that increasing the size of the alkyl ester leads to diminished potency as does its replacement with a variety of other groups (nitrile, methyl sulfone). Replacement of the ethyl ester of 6 with an imidazole gave the best compound 3 (BMS-191095) of this series which maintains the potency and selectivity of its predecessor 6. The results described in this publication further support that there is no correlation between vasorelaxant and cardioprotective potencies of KATP openers. Compound 3 is over 20- and 4000-fold more selective for the ischemic myocardium than 2 and cromakalim (1), respectively. The selectivity for the ischemic myocardium is achieved by reduction of vasorelaxant potency rather than enhancement in antiischemic potency. As for cromakalim (1) and 2, the cardioprotective effects of compound 3 are inhibited by cotreatment with the KATP blocker glyburide, indicating that the KATP opening is involved in its mechanism of cardioprotection. With its good oral bioavailability (47%) and plasma elimination half-life (3 h) in rats, compound 3 offers an excellent candidate to investigate the role of residual vasorelaxant potency of 2 toward its cardioprotective activity in vivo.

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