Angeli's salt counteracts the vasoactive effects of elevated plasma hemoglobin
| Autor: | Christine C. Helms, Landon Bellavia, Gabriela A. Ferreyra, Alan N. Schechter, Junfeng Sun, Steven B. Solomon, Steven J. Kern, Daniel A. Sweeney, Linda C. McPhail, Mark T. Gladwin, Charles Natanson, Andreas Perlegas, Barbora Piknova, S. Bruce King, Nicolaas J. H. Raat, Daniel B. Kim-Shapiro |
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| Rok vydání: | 2012 |
| Předmět: |
Blood Platelets
Erythrocytes Vasodilator Agents Blood Pressure Pulmonary Artery Pharmacology Hemolysis Biochemistry Article Methemoglobin Nitric oxide chemistry.chemical_compound Dogs Heart Rate Physiology (medical) Leukocytes medicine Animals Platelet activation Nitrites Whole blood Chemistry Albumin medicine.disease Red blood cell medicine.anatomical_structure Vasoconstriction medicine.symptom Oxidation-Reduction |
| Zdroj: | Free Radical Biology and Medicine. 53:2229-2239 |
| ISSN: | 0891-5849 |
| Popis: | Plasma hemoglobin (Hb) released during intravascular hemolysis has been associated with numerous deleterious effects that may stem from increased nitric oxide (NO) scavenging, but has also been associated with reactive oxygen species generation and platelet activation. Therapies that convert plasma oxyHb to metHb, or metHb to iron-nitrosyl Hb, could be beneficial because these species do not scavenge NO. In this study, we investigated the effects of Angeli’s Salt (AS, sodium α-oxyhyponitrite, Na2N2O3), a nitroxyl (HNO) and nitrite (NO2−) donor, on plasma Hb oxidation and formation of iron-nitrosyl Hb from metHb, and on the vasoactivity of plasma Hb. We hypothesized that AS could ameliorate hemolysis-associated pathology via its preferential reactivity with plasma Hb, as opposed to red cell encapsulated Hb, and through its intrinsic vasodilatory activity. To test this hypothesis, we infused (n=3 per group) (1) cell-free Hb and AS, (2) cell-free Hb + 0.9% NaCl, (3) AS + 3% Albumin, and (4) 3% Albumin + 0.9% NaCl (colloid controls for Hb and AS, respectively) in a canine model. Co-infusion of AS and cell-free Hb led to preferential conversion of plasma Hb to metHb, but the extent of conversion was lower than anticipated based on the in vivo concentration of AS relative to plasma Hb. This lower metHb yield was likely due to reactions of nitroxyl-derived AS with plasma components such as thiol-containing compounds. From a physiological and therapeutic standpoint, the infusion of Hb alone led to significant increases in mean arterial pressure (p=0.03) and systemic vascular resistance index (p=0.01) compared to controls. Infusion of AS alone led to significant decreases in these parameters and co-infusion of AS along with Hb had an additive effect on reversing the effects of Hb alone on the systemic circulation. Interestingly, in the pulmonary system, the decrease in pressure when AS is added to Hb was significantly less than would have been expected compared to the effects of Hb and AS alone suggesting that inactivation of scavenging with AS reduced the direct vasodilatory effects of AS on the vasculature. We also found that, AS reduced platelet activation when administered to whole blood in vitro. These data suggest that AS-like compounds could serve as a therapeutic agent to counteract the negative vasoconstrictive consequences of hemolysis that occur in hemolytic anemia’s, transfusion of stored blood, and other diseases. Increases in metHb in the red blood cell, the potential of AS for neurotoxicity, and hypotension would need to be carefully monitored in a clinical trial. |
| Databáze: | OpenAIRE |
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