Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity

Mark T. Gladwin; Alan N. Schechter; James H. Shelhamer; Lewis K. Pannell; Deirdre A. Conway; Borys W. Hrinczenko; James S. Nichols; Margaret E. Pease-Fye; Constance T. Noguchi; Griffin P. Rodgers; Frederick P. Ognibene

doi:10.1172/JCI7637

Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity

Mark T. Gladwin, Alan N. Schechter, James H. Shelhamer, Lewis K. Pannell, Deirdre A. Conway, Borys W. Hrinczenko, James S. Nichols, Margaret E. Pease-Fye, Constance T. Noguchi, Griffin P. Rodgers, Frederick P. Ognibene

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101 Scopus citations

Abstract

Nitric oxide (NO) inhalation has been reported to increase the oxygen affinity of sickle cell erythrocytes. Also, proposed allosteric mechanisms for hemoglobin, based on S-nitrosation of β-chain cysteine 93, raise the possibility of altering the pathophysiology of sickle cell disease by inhibiting polymerization or by increasing NO delivery to the tissue. We studied the effects of a 2-hour treatment, using varying concentrations of inhaled NO. Oxygen affinity, as measured by P₅₀, did not respond to inhaled NO, either in controls or in individuals with sickle cell disease. At baseline, the arterial and venous levels of nitrosylated hemoglobin were not significantly different, but NO inhalation led to a dose-dependent increase in mean nitrosylated hemoglobin, and at the highest dosage, a significant arterial-venous difference emerged. The levels of nitrosylated hemoglobin are too low to affect overall hemoglobin oxygen affinity, but augmented NO transport to the microvasculature seems a promising strategy for improving microvascular perfusion.

Original language	English
Pages (from-to)	937-945
Number of pages	9
Journal	Journal of Clinical Investigation
Volume	104
Issue number	7
DOIs	https://doi.org/10.1172/JCI7637
State	Published - Oct 1999
Externally published	Yes

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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. (1999). Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity. Journal of Clinical Investigation, 104(7), 937-945. https://doi.org/10.1172/JCI7637

@article{a2394bee506c46f996bf6d3bd53836a5,

title = "Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity",

abstract = "Nitric oxide (NO) inhalation has been reported to increase the oxygen affinity of sickle cell erythrocytes. Also, proposed allosteric mechanisms for hemoglobin, based on S-nitrosation of β-chain cysteine 93, raise the possibility of altering the pathophysiology of sickle cell disease by inhibiting polymerization or by increasing NO delivery to the tissue. We studied the effects of a 2-hour treatment, using varying concentrations of inhaled NO. Oxygen affinity, as measured by P50, did not respond to inhaled NO, either in controls or in individuals with sickle cell disease. At baseline, the arterial and venous levels of nitrosylated hemoglobin were not significantly different, but NO inhalation led to a dose-dependent increase in mean nitrosylated hemoglobin, and at the highest dosage, a significant arterial-venous difference emerged. The levels of nitrosylated hemoglobin are too low to affect overall hemoglobin oxygen affinity, but augmented NO transport to the microvasculature seems a promising strategy for improving microvascular perfusion.",

author = "Gladwin, {Mark T.} and Schechter, {Alan N.} and Shelhamer, {James H.} and Pannell, {Lewis K.} and Conway, {Deirdre A.} and Hrinczenko, {Borys W.} and Nichols, {James S.} and Pease-Fye, {Margaret E.} and Noguchi, {Constance T.} and Rodgers, {Griffin P.} and Ognibene, {Frederick P.}",

year = "1999",

month = oct,

doi = "10.1172/JCI7637",

language = "English",

volume = "104",

pages = "937--945",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "American Society for Clinical Investigation",

number = "7",

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Gladwin, MT, Schechter, AN, Shelhamer, JH, Pannell, LK, Conway, DA, Hrinczenko, BW, Nichols, JS, Pease-Fye, ME, Noguchi, CT, Rodgers, GP & Ognibene, FP 1999, 'Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity', Journal of Clinical Investigation, vol. 104, no. 7, pp. 937-945. https://doi.org/10.1172/JCI7637

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T1 - Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity

AU - Gladwin, Mark T.

AU - Schechter, Alan N.

AU - Shelhamer, James H.

AU - Pannell, Lewis K.

AU - Conway, Deirdre A.

AU - Hrinczenko, Borys W.

AU - Nichols, James S.

AU - Pease-Fye, Margaret E.

AU - Noguchi, Constance T.

AU - Rodgers, Griffin P.

AU - Ognibene, Frederick P.

PY - 1999/10

Y1 - 1999/10

N2 - Nitric oxide (NO) inhalation has been reported to increase the oxygen affinity of sickle cell erythrocytes. Also, proposed allosteric mechanisms for hemoglobin, based on S-nitrosation of β-chain cysteine 93, raise the possibility of altering the pathophysiology of sickle cell disease by inhibiting polymerization or by increasing NO delivery to the tissue. We studied the effects of a 2-hour treatment, using varying concentrations of inhaled NO. Oxygen affinity, as measured by P50, did not respond to inhaled NO, either in controls or in individuals with sickle cell disease. At baseline, the arterial and venous levels of nitrosylated hemoglobin were not significantly different, but NO inhalation led to a dose-dependent increase in mean nitrosylated hemoglobin, and at the highest dosage, a significant arterial-venous difference emerged. The levels of nitrosylated hemoglobin are too low to affect overall hemoglobin oxygen affinity, but augmented NO transport to the microvasculature seems a promising strategy for improving microvascular perfusion.

AB - Nitric oxide (NO) inhalation has been reported to increase the oxygen affinity of sickle cell erythrocytes. Also, proposed allosteric mechanisms for hemoglobin, based on S-nitrosation of β-chain cysteine 93, raise the possibility of altering the pathophysiology of sickle cell disease by inhibiting polymerization or by increasing NO delivery to the tissue. We studied the effects of a 2-hour treatment, using varying concentrations of inhaled NO. Oxygen affinity, as measured by P50, did not respond to inhaled NO, either in controls or in individuals with sickle cell disease. At baseline, the arterial and venous levels of nitrosylated hemoglobin were not significantly different, but NO inhalation led to a dose-dependent increase in mean nitrosylated hemoglobin, and at the highest dosage, a significant arterial-venous difference emerged. The levels of nitrosylated hemoglobin are too low to affect overall hemoglobin oxygen affinity, but augmented NO transport to the microvasculature seems a promising strategy for improving microvascular perfusion.

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Inhaled nitric oxide augments nitric oxide transport on sickle cell hemoglobin without affecting oxygen affinity

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