Am. J. Respir. Crit. Care Med., Volume 157, Number 2, February 1998, 498-504

Nitric Oxide Biosynthesis in an Exotoxin-induced Septic Lung Model
Role of cNOS and Impact on Pulmonary Hemodynamics

HARTWIG SCHÜTTE, KONSTANTIN MAYER, TOBIAS GESSLER, MARC RÜHL, JAN SCHLAUDRAFF, HEIKO BURGER, WERNER SEEGER, and FRIEDRICH GRIMMINGER

Department of Internal Medicine, Justus-Liebig University, Giessen, Germany

Nitric oxide (NO) is an important vasodilator that is produced by constitutive (cNOS) as well as inducible (iNOS) isoforms of nitric oxide synthase. The pore-forming hemolysin of Escherichia coli (HlyA), an important virulence factor in extraintestinal E. coli infections, was found to be a potent stimulator of NO liberation in isolated endothelial cells, and that it also causes thromboxane generation and related vasoconstriction in rabbit lungs. We investigated the effect of different concentrations of HlyA on pulmonary NO synthesis in buffer-perfused rabbit lungs. NO release into the alveolar as well as the intravascular compartment was monitored on-line by chemiluminescence detection of expired NO and by measurement of (peroxy-)nitrite/nitrate release into the perfusate. HlyA induced a pressor response and an immediate dose-dependent increase of exhalative and intravascular NO liberation, further enhanced by the addition of the NOS substrate L-arginine. The nonspecific NOS inhibitor N^G-monomethyl-L-arginine (L-NMMA), but not the iNOS selective inhibitors aminoguanidine and 2-(2-aminoethyl)-2-thiopseudourea-dihydrobromide, blocked the HlyA-evoked NO liberation into both the alveolar and the intravascular compartments. Enhancement of NO formation (L-arginine) slightly reduced, and inhibition of NO synthesis (L-NMMA) amplified greatly, the HlyA-elicited vasoconstrictor response. Inhibition of the pressor response by a thromboxane receptor antagonist did not interfere with the exotoxin-elicited NO formation. We conclude (1) that marked NO biosynthesis occurs in this model of the septic lung, (2) that the signal transduction in response to HlyA proceeds via activation of cNOS directly related to exotoxin activity and not to secondary changes in shear stress, and (3) that this vasodilator release mitigates the HlyA-induced pulmonary vasoconstriction. These findings may have important implications for therapeutic approaches using NOS inhibitors in sepsis.

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