The aim of this study was to assess the effect of chronic administration of NCX4016 [2 acetoxy-benzoate 2-(2-nitroxymethyl)-phenyl ester], a nitric oxide-releasing aspirin derivative on the consequences of coronary artery occlusion in streptozotocin-diabetic rats. Rats were made diabetic by injection of streptozotocin (60 mg kg(-1)) and received insulin (2.5 U kg(-1) s.c.) daily for 4 weeks. Animals received vehicle (1 ml kg(-1) polyethylene glycol), aspirin (65.2 mg kg(-1)), NCX4016 (60 mg kg(-1)), or (iv) NCX4016 (120 mg kg(-1)) orally, once daily for the last 5 days before coronary artery occlusion (CAO). One hour after the last dose, pentobarbital-anesthetized rats were subjected to CAO for 30 min followed by 120-min reperfusion. Neither drug significantly modified initial hemodynamics or plasma glucose levels compared with vehicle treatment in either nondiabetic or diabetic rats. Neither drug modified the total ventricular premature beat (VPB) count in normal animals, although NCX4016, but not aspirin, reduced the total VPB count and the incidence of ventricular tachycardia in diabetic rats. In nondiabetic animals, both aspirin and NCX4016 reduced infarct size. However, in diabetic rats, infarct size was reduced only by the larger dose of NCX4016 (120 mg kg(-1)) but not by aspirin or the lower dose of NCX4016. These results demonstrate that the cardioprotective effects of NCX4016 are reduced in the presence of diabetes compared with the effects seen in nondiabetic animals. In summary, the present study confirms the protective effect of NCX4016 against ischemia-reperfusion injury in the normal rat heart and demonstrates for the first time its protective effect in the heart of streptozotocin-diabetic rats.
Vasospasm is a complication of cardiological procedures such as balloon angioplasty and may be related to vascular oxidant stress. Although nitric oxide donor drugs are often administered to prevent vasospasm, the response to these drugs in balloon-injured arteries has not been studied. Pig coronary arteries were balloon-injured in vitro and relaxations to nitric oxide (NO)-donating and NO-independent vasodilators studied. Generation of superoxide in response to injury was assayed using dihydroethidium. NO formation on addition of the NO donor drugs was studied using an amperometric sensor. Expression of nitrotyrosine, a peroxynitrite marker, was probed using immunocytochemistry. In vitro injury enhanced sensitivity to the NO donors SNAP and SpermineNONOate but blunted the response to isoprenaline or chromakalim. With both donors, NO formation was significantly enhanced in the presence of an injured vessel. Vascular superoxide generation was also increased throughout the vessel wall and a small increase in nitrotyrosine was detected in the injured vessel media following addition of SNAP. In conclusion, injured vessels were more sensitive to NO donors and this appears to be due to enhanced NO generation by the donor molecule. Increased formation of peroxynitrite within the injured vessel may contribute to the enhanced relaxation in injured vessels.
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