Background-The recent discovery that nitrite is an intrinsic vasodilator and signaling molecule at near-physiological concentrations has raised the possibility that nitrite contributes to hypoxic vasodilation and to the bioactivity of nitroglycerin and mediates the cardiovascular protective effects of nitrate in the Mediterranean diet. However, important questions of potency, kinetics, mechanism of action, and possible induction of tolerance remain unanswered. Methods and Results-In the present study, we performed biochemical, physiological, and pharmacological studies using nitrite infusion protocols in 20 normal human volunteers and in nonhuman primates to answer these questions, and we specifically tested 3 proposed mechanisms of bioactivation: reduction to nitric oxide by xanthine oxidoreductase, nonenzymatic disproportionation, and reduction by deoxyhemoglobin. We found that (1) nitrite is a relatively potent and fast vasodilator at near-physiological concentrations; (2) nitrite functions as an endocrine reservoir of nitric oxide, producing remote vasodilation during first-pass perfusion of the opposite limb; (3) nitrite is reduced to nitric oxide by intravascular reactions with hemoglobin and with intravascular reductants (ie, ascorbate); (4) inhibition of xanthine oxidoreductase with oxypurinol does not inhibit nitrite-dependent vasodilation but potentiates it; and (5) nitrite does not induce tolerance as observed with the organic nitrates. Conclusions-We propose that nitrite functions as a physiological regulator of vascular function and endocrine nitric oxide homeostasis and suggest that it is an active metabolite of the organic nitrates that can be used therapeutically to bypass enzymatic tolerance.
SummaryIn addition to vaso-occlusion by sickled erythrocytes, the pathophysiology of sickle cell disease (SCD) is compounded by the diminished bioavailability of nitric oxide (NO), associated with vasoconstriction, endothelial activation and cell adhesion. We tested the ability of sodium nitrite, which can be converted to NO by deoxyhaemoglobin at acid pH and low oxygen tension, to improve blood flow in patients with SCD. In a phase I/II clinical trial, sodium nitroprusside, NG-monomethyl-L-arginine, and sodium nitrite were infused sequentially into the brachial artery in 14 patients at steady state. In a dose-dependent manner, sodium nitrite infusion rates of 0AE4, 4 and 40 lmol/ min into the brachial artery augmented mean venous plasma nitrite concentrations (P < 0AE0001) and stimulated forearm blood flow up to 77 ± 11% above baseline (P < 0AE0001), measured by venous occlusion strain gauge plethysmography. This nitrite response was blunted significantly compared to controls without SCD, as previously seen with other NO donors. Sodium nitrite infusions were well tolerated without hypotension, clinically significant methaemoglobinaemia or other untoward events. The unique pharmacological properties of nitrite as a hypoxia-potentiated vasodilator and cytoprotective agent in the setting of ischaemia-reperfusion injury make this anion a plausible NO donor for future clinical trials in SCD.
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