Cardiovascular and sympathetic effects of nitric oxide inhibition at rest and during static exercise in humans

Nitric oxide (NO) regulates vascular tone and blood pressure, and studies in animals suggest that it does so, at least in part, by modulating sympathetic neural outflow. Loss of NO-induced vasodilator tone and restraint on sympathetic vasoconstrictor outflow could lead to exaggerated vasoconstrictor...

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Bibliographic Details
Published in:Circulation (New York, N.Y.) N.Y.), 1997-12, Vol.96 (11), p.3897-3903
Main Authors: OWLYA, R, VOLLENWEIDER, L, TRUEB, L, SARTORI, C, LEPORI, M, NICOD, P, SCHERRER, U
Format: Article
Language:English
Subjects:
Adrenergic alpha-Agonists
Adult
Biological and medical sciences
Blood Flow Velocity
Blood Pressure - drug effects
Blood Pressure - physiology
Enzyme Inhibitors
Exercise - physiology
Forearm - blood supply
Fundamental and applied biological sciences. Psychology
Hemodynamics. Rheology
Humans
Male
Nitric Oxide Synthase - antagonists & inhibitors
omega-N-Methylarginine
Phenylephrine
Reference Values
Rest - physiology
Sympathetic Nervous System - physiology
Sympathomimetics
Vascular Resistance - drug effects
Vascular Resistance - physiology
Vasoconstrictor Agents
Vertebrates: cardiovascular system
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Summary:Nitric oxide (NO) regulates vascular tone and blood pressure, and studies in animals suggest that it does so, at least in part, by modulating sympathetic neural outflow. Loss of NO-induced vasodilator tone and restraint on sympathetic vasoconstrictor outflow could lead to exaggerated vasoconstrictor and pressor responses to physical stress in humans. To determine the role of NO in the modulation of central sympathetic outflow and vascular tone at rest and during a physical stress, we tested effects of systemic inhibition of NO synthase by N(G)-monomethyl-L-arginine (L-NMMA) infusion (a stereospecific inhibitor of NO synthase) on sympathetic nerve activity (microneurography), regional vascular resistance, and blood pressure at rest and during static handgrip. The major new findings are that (1) under resting conditions, L-NMMA infusion, which increased mean arterial pressure by approximately 10%, did not have any detectable effect on muscle sympathetic nerve activity, whereas a similar increase in arterial pressure evoked by phenylephrine infusion (an NO-independent vasoconstrictor) decreased the rate of sympathetic nerve firing by approximately 50%; (2) during static handgrip, the exercise-induced sympathetic nerve responses were preserved during L-NMMA infusion but markedly attenuated during phenylephrine infusion; and (3) the L-NMMA-induced loss of vasodilator tone did not result in exaggerated exercise-induced pressor and calf vasoconstrictor responses. These findings indicate that NO is involved in the central regulation of sympathetic outflow in humans and suggest that both neuronal and endothelial NO synthesis may contribute to the regulation of vasomotor tone.
ISSN:0009-7322
1524-4539
DOI:10.1161/01.cir.96.11.3897