Xq. Hu et al., EFFECTS OF LONG-TERM HIGH-ALTITUDE HYPOXEMIA ON ALPHA(1)-ADRENERGIC RECEPTORS IN THE OVINE UTERINE ARTERY, American journal of physiology. Heart and circulatory physiology, 39(3), 1996, pp. 1001-1007
To elucidate the effects of chronic hypoxia on alpha(1)-adrenergic rec
eptor-mediated contractions of the uterine artery, we examined norepin
ephrine-induced contractions in tissues obtained from near-term (simil
ar to 140 days gestation) pregnant ewes maintained near sea level(simi
lar to 300 m) and at high altitude (3,820 m) from 30 days gestation. C
ompared with the sea-level controls, contractions induced by norepinep
hrine in main and fourth-branch uterine arteries of the high-altitude
animals were significantly depressed. The norepinephrine dose-response
curves were shifted to the right and the concentrations at which 50%
of the maximal response was attained were increased 3.2- and 5.7-fold
in the main and fourth-branch uterine arteries, respectively. The maxi
mal responses were decreased 22 and 36% in main and fourth-branch uter
ine arteries, respectively. The dissociation constants of norepinephri
ne were increased from 0.77 to 1.53 mu M and from 0.72 to 2.05 mu M in
main and fourth-branch uterine arteries, respectively. Radioligand bi
nding studies with [H-3]prazosin revealed a decrease in the density of
alpha(1)-adrenergic receptors in both vessels from high-altitude anim
als. We conclude that chronic hypoxia depresses alpha(1)-adrenergic re
ceptor-induced contractions of conduit- and resistance-type uterine ar
teries. The depressed contractility is mediated, at least in part, by
decreases in alpha(1)-adrenergic receptor density and agonist binding
affinity.