S. Sabry et al., IN-VITRO CONTRACTILE AND RELAXANT RESPONSES OF HUMAN RESISTANCE PLACENTAL STEM VILLI ARTERIES OF HEALTHY PARTURIENTS - ROLE OF ENDOTHELIUM, Fundamental and clinical pharmacology, 9(1), 1995, pp. 46-51
As fete-placental vessels in humans are not innervated, regulation of
vascular tone in the fetal extracorporeal circulation most likely depe
nds on either circulating hormones or local paracrine mechanisms. Howe
ver, the latter have not yet been fully investigated. The aim of our s
tudy was to characterize vasomotor behaviour of resistance stem villi
arteries when challenged with various constrictor and dilator agents,
with special emphasis on the physiological importance of endothelium.
The latter is poorly characterized in this particular vascular bed in
humans. Villous stem arterial rings (internal diameter 182 +/- 6 mu m)
were isolated under microscopy from term human placentae obtained aft
er cesarean section. The vessels were mounted as ring preparations in
an isometric myograph for tension measurements. Endothelium was remove
d from some of the rings by gentle insertion of a knotted human hair i
nto the vascular lumen. Of the three vasoconstrictors tested, endothel
in-1 (ET-1) showed the greatest potency, being 1,000 times more potent
than serotonin and phenylephrine. The classical endothelium-dependent
vasodilators, acetylcholine, adenosine diphosphate (ADP) and histamin
e, caused dose-dependent relaxation of the rings; an effect which was
completely abolished by the removal of endothelium. Pre-treatment with
the nitric oxide (NO) synthase inhibitor, N-omega-nitro-L-arginine, a
lso markedly reduced the endotheliumdependent relaxant responses to AD
P. By contrast, the vasodilatory response to sodium nitroprusside was
not affected by endothelial removal. We conclude that i) ET-1 is a pot
ent vasoconstrictor of the human placental vascular bed and ii) placen
tal villous endothelial cells synthesize and release relaxing factor(s
) which could possibly be NO.