Influence of diabetic state and that of different sulfonylureas on the size of myocardial infarction with and without ischemic preconditioning in rabbits.

The sensitivity of the myocardium to ischemia and the level of protection achieved by ischemic preconditioning is shaped by the joint influence of several mechanisms in diabetes mellitus. In vivo studies were made in alloxan diabetic and non-diabetic control rabbits to assess if the effects of preconditioning and sulfonylurea pretreatment with either glibenclamide or glimepiride (0.05-0.2-0.6 micromol kg (-1)) influence the extent of the infarcted area caused by one hour ligature of the left coronary artery. For our study, we defined preconditioning as 2 minutes of ischemia followed by 2 minutes of reperfusion, which was repeated 3 times. The interrelationship of the diabetic pathophysiological state, and sulfonylurea treatment during ischemic preconditioning were studied by comparing the infarcted areas and the rate of infarction to risk areas in left ventricular slices using computer planimetry. In healthy control rabbits preconditioning reduced infarcted area (29.6 +/- 3.0% vs. 48.8 +/- 2.8% p < 0.0005), while in diabetic rabbits this protection did not occur (53.3 +/- 7.3% vs. 56.6 +/- 4.4% NS). Glibenclamide in all of applied doses prevented the protective effect in control animals (infarction/ risk area: HP: 0.47 +/- 0.04 vs. HP Glib-0.05 : 0.69+/-0.06 p< 0.004 vs. HP Glib-0.2 : 0.72+/-0.09 p< 0.002 vs. HP Glib-0.6 : 0.75 +/- 0.04 p< 0.001). In contrast, in diabetic rabbits low dose of glibenclamide contributed to the same development of preconditioning. However the highest dose of glibenclamide (infarction/risk area: DP Glib-0.6 : 0.77 +/- 0.17 vs. DP Glib-0.05 : 0.55 < 0.03 p < 0.047) and the consequences of the diabetic state blocked the salutary effect. Glimepiride had no considerable influence on the protective effect, either in control nor in diabetic animals. Glibenclamide and glimepiride, presumably due to their different sulfonylurea receptor affinity in the heart, resulted in different influence on preconditioning in healthy control animals. Glibenclamide treatment seemed to be more harmful when less K (+)ATP channels were activated. The accomplishment of myocardial preconditioning in diabetes mellitus is claimed to be determined by the interaction of both metabolically influenced K (+)ATP channel activity and the dose of sulfonylurea.

Hyperglycaemia alters the endothelium-dependent relaxation of canine coronary arteries.

The aim of the present study was to investigate the effects of experimental diabetes and hyperglycaemia per se on the endothelium-dependent relaxation of isolated canine coronary arteries and to analyse the possible involvement of the cyclooxygenase pathway in the alterations induced by hyperglycaemia. Rings from the left anterior descending coronary arteries of 18 metabolically healthy, six alloxan-diabetic and six insulin-treated alloxan diabetic dogs were set up for isometric tension recording. Diabetic coronaries as well as healthy vessels subjected to in vitro hyperglycaemia (25.5 mmol L-1 glucose) showed impaired (P < 0.05) relaxation to acetylcholine (3 nmol L-1-10 micromol L-1) compared with normoglycaemic, i.e. metabolically healthy and insulin-treated diabetic controls, either before or after indomethacin (3 micromol L-1) administration. The maximal dilation elicited by acetylcholine was further decreased (P < 0.05) by the cyclooxygenase inhibitor in the diabetic coronaries only. Relaxation to sodium nitroprusside did not differ among groups. These results suggest that hyperglycaemia may result in impaired endothelium-dependent dilation of coronary arteries. Diminished relaxation of diabetic coronaries is worsened by the inhibition of the synthesis of vasodilator cyclooxygenase products.