Citations to this article
Citation Information: J Clin Invest. 2005;115(12):3409-3417. https://doi.org/10.1172/JCI25040.
Abstract
During intravascular hemolysis in human disease, vasomotor tone and organ perfusion may be impaired by the increased reactivity of cell-free plasma hemoglobin (Hb) with NO. We experimentally produced acute intravascular hemolysis in a canine model in order to test the hypothesis that low levels of decompartmentalized or cell-free plasma Hb will severely reduce NO bioavailability and produce vasomotor instability. Importantly, in this model the total intravascular Hb level is unchanged; only the compartmentalization of Hb within the erythrocyte membrane is disrupted. Using a full-factorial design, we demonstrate that free water–induced intravascular hemolysis produces dose-dependent systemic vasoconstriction and impairs renal function. We find that these physiologic changes are secondary to the stoichiometric oxidation of endogenous NO by cell-free plasma oxyhemoglobin. In this model, 80 ppm of inhaled NO gas oxidized 85–90% of plasma oxyhemoglobin to methemoglobin, thereby inhibiting endogenous NO scavenging by cell-free Hb. As a result, the vasoconstriction caused by acute hemolysis was attenuated and the responsiveness to systemically infused NO donors was restored. These observations confirm that the acute toxicity of intravascular hemolysis occurs secondarily to the accelerated dioxygenation reaction of plasma oxyhemoglobin with endothelium-derived NO to form bioinactive nitrate. These biochemical and physiological studies demonstrate a major role for the intact erythrocyte in NO homeostasis and provide mechanistic support for the existence of a human syndrome of hemolysis-associated NO dysregulation, which may contribute to the vasculopathy of hereditary, acquired, and iatrogenic hemolytic states.
Authors
Peter C. Minneci, Katherine J. Deans, Huang Zhi, Peter S.T. Yuen, Robert A. Star, Steven M. Banks, Alan N. Schechter, Charles Natanson, Mark T. Gladwin, Steven B. Solomon
Total citations by year
Citations to this article in year 2016 (6)
| Title and authors | Publication | Year |
|---|---|---|
|
Xenotransfusion of anemic cats with blood compatibility issues: pre- and posttransfusion laboratory diagnostic and crossmatching studies
CC Euler, K Raj, K Mizukami, L Murray, CY Chen, A Mackin, U Giger |
Veterinary Clinical Pathology | 2016 |
|
Haptoglobin Preserves Vascular Nitric Oxide Signaling during Hemolysis
CA Schaer, JW Deuel, D Schildknecht, L Mahmoudi, I Garcia-Rubio, C Owczarek, S Schauer, R Kissner, U Banerjee, AF Palmer, DR Spahn, DC Irwin, F Vallelian, PW Buehler, DJ Schaer |
American journal of respiratory and critical care medicine | 2016 |
|
Substance P is increased in patients with sickle cell disease and associated with haemolysis and hydroxycarbamide use
AM Brandow, NJ Wandersee, M Dasgupta, RG Hoffmann, CA Hillery, CL Stucky, JA Panepinto |
British Journal of Haematology | 2016 |
|
Mechanical blood trauma in assisted circulation: sublethal RBC damage preceding hemolysis
SE Olia, TM Maul, JF Antaki, MV Kameneva |
The International Journal of Artificial Organs | 2016 |
|
Quality Assessment of Established and Emerging Blood Components for Transfusion
JP Acker, DC Marks, WP Sheffield |
Journal of Blood Transfusion | 2016 |
|
Exposure of Stored Packed Erythrocytes to Nitric Oxide Prevents Transfusion-associated Pulmonary Hypertension:
S Muenster, A Beloiartsev, B Yu, E Du, S Abidi, M Dao, G Fabry, JA Graw, M Wepler, R Malhotra, BO Fernandez, M Feelisch, KD Bloch, DB Bloch, WM Zapol |
Anesthesiology | 2016 |
Copyright © 2025 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)