ESR demonstration of nitric oxide production from nitroglycerin and sodium nitrite in the blood of rats

Electron spin resonance (ESR) spectra of iron-metal complexes formed by the reaction between nitric oxide (ʹNO) and hemoglobin (Hb), referred to as nitrosylhemoglobin (HB-NO), were observed in rat blood treated in vitro and in vivo with nitroglycerin (GTN) at 77K. The same types of spectra were also detected in rats treated with sodium nitrite (NaNO2). Two types of Hb-NO, which were identified by ESR parameters of g values and superhyperfine coupling constants (shfcc), were the 6- and 5-coordinated complexes. These two types of Hb-NO were generated in a dose-dependent manner in the blood after intraperitoneal administration of 1.5–6 mg of GTN. At the higher dose of GTN (6 mg), the 6-coordinated complex was the major species generated initially, but within 10 min, the 5-coordinated complex increased time-dependently. Quantitative analysis of Hb-NO revealed that when GTN 0.3 mg and 0.6 mg was administered sublingually in rats, the concentration of Hb-NO observed in rat blood was 30% higher than the estimated concentration of GTN. The methemoglobin and peroxide complex of hemoglobin were observed in the blood incubated with GTN at 37°C. These results suggest that the function of GTN was related to oxidative stress with the generation of Hb-NO. Therefore, monitoring of Hb-NO levels may be useful as an indicator of the function of various vasodilators.