References
- Jia L., Bonaventura C., Bonaventura J., Stamler J.S. S-nitrosohaemoglobin: a dynamic activity of blood involved in vascular control. Nature 1996; 380: 221–226
- Stamler J.S., Jia L., Eu J.P., McMahon T.J., Demchenko I.T., Bonaventura J., Gernert K., Piantadosi C.A. Blood flow regulation by S-nitrosohemoglobin in the physiological oxygen gradient. Science 1997; 276: 2034–2037
- Gow A.J., Stamler J.S. Reactions between nitric oxide and haemoglobin under physiological conditions. Nature 1998; 391: 169–173
- Bonaventura C., Ferruzzi G., Tesh S., Stevens R.D. Effects of S-nitrosation on oxygen binding by normal and sickle cell hemoglobin. Journal of Biological Chemistry 1999; 274: 24742–24748
- Fox-Robichaud A., Payne D., Hasan S.U., Ostrovsky L., Fairhead T., Reinhardt P., Kubes P. Inhaled NO as a viable antiadhesive therapy for ischemia/reperfusion injury of distal microvascular beds. Journal of Clinical Investigation 1998; 101: 2497–2505
- Quezado Z.M., Natanson C., Karzai W., Danner R.L., Koev C.A., Fitz Y., Dolan D.P., Richmond S., Banks S.M., Wilson L., Eichacker P.Q. Cardiopulmonary effects of inhaled nitric oxide in normal dogs and during E. coli pneumonia and sepsis. Journal of Applied Physiology 1998; 84: 107–115
- Takahashi Y., Kobayashi H., Tanaka N., Sato T., Takizawa N., Tomita T. Nitrosyl hemoglobin in blood of normoxic and hypoxic sheep during nitric oxide inhalation. American Journal of Physiology 1998; 274: H349–H357
- Gladwin M.T., Schechter A.N., Shelhamer J.H., Pannell L.K., Conway D.A., Hrinczenko B.W., Nichols J.S., Pease-Fye M.E., Noguchi C.T., Rodgers G.P., Ognibene F.P. Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity. Journal of Clinical Investigation 1999; 104: 937–945
- Gladwin M.T., Ognibene F.P., Pannell L.K., Nichols J.S., Pease-Fye M.E., Shelhamer J.H., Schechter A.N. Relative role of heme nitrosylation and β-cysteine 93 nitrosation in the transport and metabolism of nitric oxide by hemoglobin in the human circulation. Proceedings of the National Academy of Sciences, USA 2000; 97: 9943–9948
- Gladwin M.T., Schechter A.N., Shelhamer J.H., Ognibene F.P. The acute chest syndrome in sickle cell disease. Possible role of nitric oxide in its pathophysiology and treatment. American Journal of Respiratory and Critical Care Medicine 1999; 159: 1368–1376
- Samouilov A., Zweier J.L. Development of chemiluminescence-based methods for specific quantitation of nitrosylated thiols. Annals of Biochemistry 1998; 258: 322–330
- Bunn H.F. Pathogenesis and treatment of sickle cell disease. New England Journal of Medicine 1997; 337: 762–769
- Yonetani T., Tsuneshige A., Zhou Y., Chen X. Electron paramagnetic resonance and oxygen binding studies of α-Nitrosyl hemoglobin. A novel oxygen carrier having no-assisted allosteric functions. Journal of Biological Chemistry 1998; 273: 20323–20333
- Kosaka H., Sawai Y., Sakaguchi H., Kumura E., Harada N., Watanabe M., Shiga T. ESR spectral transition by arteriovenous cycle in nitric oxide hemoglobin of cytokine-treated rats. American Journal of Physiology 1994; 266: C1400–C1405
- Kosaka H., Seiyama A. Physiological role of nitric oxide as an enhancer of oxygen transfer from erythrocytes to tissues. Biochemical and Biophysical Research Communications 1996; 218: 749–752
- Kosaka H., Seiyama A. Elevation of oxygen release by nitroglycerin without an increase in blood flow in the hepatic microcirculation. Nature Medicine 1997; 3: 456–459
- Kosaka H. Nitric oxide and hemoglobin interactions in the vasculature. Biochimica et Biophysica Acta 1999; 1411: 370–377
- Briehl R.W., Salhany J.M. Gelation of sickle hemoglobin. III. Nitrosyl hemoglobin. Journal of Molecular Biology 1975; 96: 733–743
- Head C.A., Brugnara C., Martinez-Ruiz R., Kacmarek R.M., Bridges K.R., Kuter D., Bloch K.D., Zapol W.M. Low concentrations of nitric oxide increase oxygen affinity of sickle erythrocytes in vitro and in vivo. Journal of Clinical Investigation 1997; 100: 1193–1198
- Schechter A.N. NO therapy?. Journal of Clinical Investigation 1997; 100: 955–956
- Gow A.J., Luchsinger B.P., Pawloski J.R., Singel D.J., Stamler J.S. The oxyhemoglobin reaction of nitric oxide. Proceedings of the National Academy of Sciences USA 1999; 96: 9027–9032
- Patel R.P., Hogg N., Spencer N.Y., Kalyanaraman B., Matalon S., Darley-Usmar V.M. Biochemical characterization of human S-nitrosohemoglobin. Effects on oxygen binding and transnitrosation. Journal of Biological Chemistry 1999; 274: 15487–15492
- Garel M.C., Domenget C., Galacteros F., Martin-Caburi J., Beuzard Y. Inhibition of erythrocyte sickling by thiol reagents. Molecular Pharmacology 1984; 26: 559–565
- Garel M.C., Domenget C., Caburi-Martin J., Prehu C., Galacteros F., Beuzard Y. Covalent binding of glutathione to hemoglobin. I. Inhibition of hemoglobin S polymerization. Journal of Biological Chemistry 1986; 261: 14704–14709
- Tabrizi-Fard M.A., Lee W.I., Fung H.L. Differential interactions of nitric oxide donors with rat oxyhemoglobin. Biochemical Pharmacology 1999; 58: 671–674