Altered vasoreactivity in lungs isolated from rats exposed to
nitric oxide gas.
Oka, Masahiko, Masahiro Ohnishi, Hideki Takahashi, Sanae Soma, Kiichi
Hasunuma, Kazuhiko Sato, and Shiro Kira.
Department of Respiratory Medicine, Juntendo University School of
Medicine
APStracts 3:0083L, 1996.
A rebound phenomenon (severe arterial desaturation and pulmonary
vasoconstriction) has been observed in some patients with pulmonary
hypertension after sudden discontinuation of nitric oxide (NO)
inhalation therapy. The mechanism responsible for this phenomenon is
unknown. It has recently been reported that NO synthase (NOS) can be
inhibited by NO as a negative feedback mechanism. We therefore
hypothesized that this rebound phenomenon might be attributable to
reduced endogenous NO production due to inhibition of pulmonary
endothelial NOS (eNOS) activity by inhaled NO. To test this
hypothesis, vasoreactivities were compared in isolated perfused lungs
from rats exposed to 40 ppm NO gas and room air for 2 days. The
pressor responses to angiotensin II and hypoxia of lungs from rats
exposed to NO were markedly potentiated and their depressor response
to bradykinin was considerably impaired, whereas that to sodium
nitroprusside was preserved, compared with the responses of those
exposed to room air. This altered pulmonary vasoreactivity was also
induced by lower concentrations of inhaled NO (as low as 1 ppm) and
was completely reversed by discontinuation of NO inhalation for
several (< 8) hours. The expression of eNOS mRNA by lungs
isolated from rats exposed to 40 ppm NO and room air for 2 days did
not differ. These results suggest that pulmonary endogenous NO
production is reversibly reduced after relatively short-term NO
inhalation, which probably inhibits eNOS activity directly. We
speculate that reduced production of pulmonary endogenous NO by
exogenous (inhaled) NO could be the mechanism responsible for this
rebound phenomenon.
Received 13 November 1995; accepted in final form 29 April 1996.
APS Manuscript Number L327-5.
Article publication pending Am. J. Physiol. (Lung Cell. Mol.
Physiology).
ISSN 1080-4757 Copyright 1996 The American Physiological Society.
Published in APStracts on 5 June 96