A further study of the vasodilator and negative inotropic mechanisms of action of nicorandil and its congeners in the canine heart.

The vasodilator and negative inotropic mechanisms of action of nicorandil and its congeners (SG-209, SG-103, and SG-86) were investigated in isolated canine papillary muscle preparations cross-circulated through the anterior septal artery with support dogs. SG-209, SG-103, and SG-86 were obtained by replacement of the nitroxyl group of nicorandil by acetoxyl, nicotinoyloxyl, and hydroxyl groups, respectively. Nicorandil (0.03-10 mumol), SG-209 (0.1-10 mumol), SG-103 (1-30 mumol), and SG-86 (3-100 mumol) all produced an increase in coronary blood flow through the anterior septal artery. Both nicorandil and SG-209 produced a near-maximal increase in coronary blood flow, the latter being about 5.5 times less potent than the former. SG-103 and SG-86 were far less potent than SG-209 in that order. The vasodilator actions of nicorandil and SG-209 were antagonized by glibenclamide given IV to support dogs, but those of SG-103 and SG-86 were not. The pKB values of glibenclamide were 6.34 toward nicorandil and 6.49 toward SG-209. Developed tension of the papillary muscle was reduced by nicorandil, SG-209, and SG-103, but not by SG-86. In this respect SG-209 was about 4.7 times less potent than nicorandil, and SG-103 was much less potent than SG-209. The negative inotropic effects of nicorandil and SG-209 were antagonized by glibenclamide, but that of SG-103 was not.(ABSTRACT TRUNCATED AT 250 WORDS)