The pulmonary circulation of homozygous or heterozygous eNOS-null mice is hyperresponsive to mild hypoxia
Karen A. Fagan, … , Ivan F. McMurtry, David M. Rodman
Karen A. Fagan, … , Ivan F. McMurtry, David M. Rodman
Published January 15, 1999
Citation Information: J Clin Invest. 1999;103(2):291-299. https://doi.org/10.1172/JCI3862.
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Article

The pulmonary circulation of homozygous or heterozygous eNOS-null mice is hyperresponsive to mild hypoxia

Abstract

Acute hypoxic vasoconstriction and development of hypoxic pulmonary hypertension (PHTN) are unique properties of the pulmonary circulation. The pulmonary endothelium produces vasoactive factors, including nitric oxide (NO), that modify these phenomena. We tested the hypothesis that NO produced by endothelial nitric oxide synthase (eNOS) modulates pulmonary vascular responses to hypoxia using mice with targeted disruption of the eNOS gene (eNOS–/–). Marked PHTN was found in eNOS–/– mice raised in mild hypoxia when compared with either controls or eNOS–/– mice raised in conditions simulating sea level. We found an approximate twofold increase in partially and fully muscularized distal pulmonary arteries in eNOS–/– mice compared with controls. Consistent with vasoconstriction being the primary mechanism of PHTN, however, acute inhalation of 25 ppm NO resulted in normalization of RV pressure in eNOS–/– mice. In addition to studies of eNOS–/– mice, the dose–effect of eNOS was tested using heterozygous eNOS+/– mice. Although the lungs of eNOS+/– mice had 50% of normal eNOS protein, the response to hypoxia was indistinguishable from that of eNOS–/– mice. We conclude that eNOS-derived NO is an important modulator of the pulmonary vascular response to chronic hypoxia and that more than 50% of eNOS expression is required to maintain normal pulmonary vascular tone.

Authors

Karen A. Fagan, Brian W. Fouty, Robert C. Tyler, Kenneth G. Morris Jr., Lisa K. Hepler, Koichi Sato, Timothy D. LeCras, Steven H. Abman, Howard D. Weinberger, Paul L. Huang, Ivan F. McMurtry, David M. Rodman

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Figure 4

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(a) Distribution of nonmuscular, partially muscular, and fully musculari...
(a) Distribution of nonmuscular, partially muscular, and fully muscularized small arterioles (mean ± SEM) in wild-type (open bars) and eNOS–/–(closed bars) mice at differing levels of hypoxia, demonstrating that with decreasing PiO2 there is a twofold increase in the percentage of fully muscularized (FM) small vessels in eNOS–/– vs. wild-type mice (P = 0.012). Additionally, there is a greater decrease in the nonmuscular (NM) arteries in eNOS–/– mice compared with wild-type with decreasing PiO2 (P = 0.018). There is a trend for increased partially muscularized (PM) arterioles in eNOS–/– mice compared with wild-type with decreasing PiO2 (P = 0.11). (P < 0.05 significant by Kruskal-Wallis ANOVA). (b) Photomicrographs (×40) of myosin-stained lung sections of (1) wild-type lung in normoxia demonstrating a nonmuscular vessel, (2) wild-type lung after severe hypoxia with a partially muscularized vessel, and (3) eNOS–/– lung after severe hypoxia with a fully muscularized vessel. AD, alveolar ducts.