Nitric oxide exposure inhibits endothelial NOS activity but not gene expression: a role for superoxide
Department of Pediatrics, University of California, San Francisco, California 94143-0106 Recent studies have characterized a rebound pulmonary vasoconstriction with abrupt withdrawal of inhaled nitric oxide (NO) during therapy for pulmonary hypertension, suggesting that inhaled NO may downregulate b...
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Published in | American journal of physiology. Lung cellular and molecular physiology Vol. 274; no. 5; pp. 833 - L841 |
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Format | Journal Article |
Language | English |
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01.05.1998
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Abstract | Department of Pediatrics, University of California, San Francisco,
California 94143-0106
Recent studies
have characterized a rebound pulmonary vasoconstriction with abrupt
withdrawal of inhaled nitric oxide (NO) during therapy for pulmonary
hypertension, suggesting that inhaled NO may downregulate basal NO
production. However, the exact mechanism of this rebound pulmonary
hypertension remains unclear. The objectives of these studies were to
determine the effect of NO exposure on endothelial NO synthase (eNOS)
gene expression, enzyme activity, and posttranslational modification in
cultured pulmonary arterial endothelial cells. Sodium nitroprusside
(SNP) treatment had no effect on eNOS mRNA or protein levels but did
produce a significant decrease in enzyme activity. Furthermore,
although SNP treatment induced protein kinase C (PKC)-dependent eNOS
phosphorylation, blockade of PKC activity did not protect against the
effects of SNP. When the xanthine oxidase inhibitor allopurinol or the
superoxide scavenger 4,5-dihydroxy-1-benzene-disulfonic acid were
coincubated with SNP, the inhibitory effects on eNOS activity
could be partially alleviated. Also, the levels of superoxide were
found to be elevated 4.5-fold when cultured pulmonary arterial
endothelial cells were exposed to the NO donor
spermine/NO. This suggests that NO can stimulate xanthine
oxidase to cause an increase in cellular superoxide generation. A
reaction between NO and superoxide would produce peroxynitrite, which
could then react with the eNOS protein, resulting in enzyme
inactivation. This mechanism may explain, at least in part, how NO
produces NOS inhibition in vivo and may delineate, in part, the
mechanism of rebound pulmonary hypertension after withdrawal of inhaled
NO.
enzyme inhibition; protein; phosphorylation; nitric oxide
synthase |
---|---|
AbstractList | Department of Pediatrics, University of California, San Francisco,
California 94143-0106
Recent studies
have characterized a rebound pulmonary vasoconstriction with abrupt
withdrawal of inhaled nitric oxide (NO) during therapy for pulmonary
hypertension, suggesting that inhaled NO may downregulate basal NO
production. However, the exact mechanism of this rebound pulmonary
hypertension remains unclear. The objectives of these studies were to
determine the effect of NO exposure on endothelial NO synthase (eNOS)
gene expression, enzyme activity, and posttranslational modification in
cultured pulmonary arterial endothelial cells. Sodium nitroprusside
(SNP) treatment had no effect on eNOS mRNA or protein levels but did
produce a significant decrease in enzyme activity. Furthermore,
although SNP treatment induced protein kinase C (PKC)-dependent eNOS
phosphorylation, blockade of PKC activity did not protect against the
effects of SNP. When the xanthine oxidase inhibitor allopurinol or the
superoxide scavenger 4,5-dihydroxy-1-benzene-disulfonic acid were
coincubated with SNP, the inhibitory effects on eNOS activity
could be partially alleviated. Also, the levels of superoxide were
found to be elevated 4.5-fold when cultured pulmonary arterial
endothelial cells were exposed to the NO donor
spermine/NO. This suggests that NO can stimulate xanthine
oxidase to cause an increase in cellular superoxide generation. A
reaction between NO and superoxide would produce peroxynitrite, which
could then react with the eNOS protein, resulting in enzyme
inactivation. This mechanism may explain, at least in part, how NO
produces NOS inhibition in vivo and may delineate, in part, the
mechanism of rebound pulmonary hypertension after withdrawal of inhaled
NO.
enzyme inhibition; protein; phosphorylation; nitric oxide
synthase Recent studies have characterized a rebound pulmonary vasoconstriction with abrupt withdrawal of inhaled nitric oxide (NO) during therapy for pulmonary hypertension, suggesting that inhaled NO may downregulate basal NO production. However, the exact mechanism of this rebound pulmonary hypertension remains unclear. The objectives of these studies were to determine the effect of NO exposure on endothelial NO synthase (eNOS) gene expression, enzyme activity, and posttranslational modification in cultured pulmonary arterial endothelial cells. Sodium nitroprusside (SNP) treatment had no effect on eNOS mRNA or protein levels but did produce a significant decrease in enzyme activity. Furthermore, although SNP treatment induced protein kinase C (PKC)-dependent eNOS phosphorylation, blockade of PKC activity did not protect against the effects of SNP. When the xanthine oxidase inhibitor allopurinol or the superoxide scavenger 4,5-dihydroxy-1-benzene-disulfonic acid were co-incubated with SNP, the inhibitory effects on eNOS activity could be partially alleviated. Also, the levels of superoxide were found to be elevated 4.5-fold when cultured pulmonary arterial endothelial cells were exposed to the NO donor spermine/NO. This suggests that NO can stimulate xanthine oxidase to cause an increase in cellular superoxide generation. A reaction between NO and superoxide would produce peroxynitrite, which could then react with the eNOS protein, resulting in enzyme inactivation. This mechanism may explain, at least in part, how NO produces NOS inhibition in vivo and may delineate, in part, the mechanism of rebound pulmonary hypertension after withdrawal of inhaled NO. Recent studies have characterized a rebound pulmonary vasoconstriction with abrupt withdrawal of inhaled nitric oxide (NO) during therapy for pulmonary hypertension, suggesting that inhaled NO may downregulate basal NO production. However, the exact mechanism of this rebound pulmonary hypertension remains unclear. The objectives of these studies were to determine the effect of NO exposure on endothelial NO synthase (eNOS) gene expression, enzyme activity, and posttranslational modification in cultured pulmonary arterial endothelial cells. Sodium nitroprusside (SNP) treatment had no effect on eNOS mRNA or protein levels but did produce a significant decrease in enzyme activity. Furthermore, although SNP treatment induced protein kinase C (PKC)-dependent eNOS phosphorylation, blockade of PKC activity did not protect against the effects of SNP. When the xanthine oxidase inhibitor allopurinol or the superoxide scavenger 4,5-dihydroxy-1-benzene-disulfonic acid were coincubated with SNP, the inhibitory effects on eNOS activity could be partially alleviated. Also, the levels of superoxide were found to be elevated 4.5-fold when cultured pulmonary arterial endothelial cells were exposed to the NO donor spermine/NO. This suggests that NO can stimulate xanthine oxidase to cause an increase in cellular superoxide generation. A reaction between NO and superoxide would produce peroxynitrite, which could then react with the eNOS protein, resulting in enzyme inactivation. This mechanism may explain, at least in part, how NO produces NOS inhibition in vivo and may delineate, in part, the mechanism of rebound pulmonary hypertension after withdrawal of inhaled NO. |
Author | Black, Stephen M Sheehy, A. Macduff Burson, Michael A |
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Snippet | Department of Pediatrics, University of California, San Francisco,
California 94143-0106
Recent studies
have characterized a rebound pulmonary vasoconstriction... Recent studies have characterized a rebound pulmonary vasoconstriction with abrupt withdrawal of inhaled nitric oxide (NO) during therapy for pulmonary... |
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SubjectTerms | Animals Enzyme Inhibitors - pharmacology Gene Expression - drug effects Nitric Oxide - pharmacology Nitric Oxide Synthase - antagonists & inhibitors Nitric Oxide Synthase - genetics Nitric Oxide Synthase - metabolism Nitric Oxide Synthase Type III Nitroprusside - pharmacology Protein Processing, Post-Translational - drug effects RNA, Messenger - metabolism Sheep - embryology Superoxides - antagonists & inhibitors Superoxides - metabolism |
Title | Nitric oxide exposure inhibits endothelial NOS activity but not gene expression: a role for superoxide |
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