Preeclampsia is associated with altered biosynthesis of vasoactive prostanoids in placental villi. The two isozymes of prostaglandin H synthase (PGHS) are essential for prostanoid synthesis. We tested the hypothesis that PGHS-2 expression is elevated in trophoblast from preeclamptic women, compared with trophoblast from healthy women. Using immunofluorescent staining, we demonstrated a higher PGHS-2 expression in villi from preeclampsia, compared with normal pregnancy. Cytotrophoblasts cultured from placentas of preeclamptic women expressed higher levels of PGHS-2 compared with cytotrophoblasts from normal placentas. This enhanced expression of PGHS-2 correlated with increased media levels of both thromboxane and prostaglandin E2, two products of PGHS activity. The increased prostanoid production by trophoblast from preeclamptic women was markedly reduced by NS-398, a specific inhibitor of PGHS-2. We conclude that both expression and activity of PGHS-2 are enhanced in trophoblasts from preeclamptic women compared with trophoblast from normal pregnancies. The increased production of prostanoids may contribute to the clinical syndrome of preeclampsia. Our data suggest that a selective inhibitor of PGHS-2 might provide a therapeutic alternative to prophylactic low-dose aspirin in modifying the prostanoid profile in preeclampsia.
Abnormal PG production by placental PG-H synthase (PGHS) is associated with preeclampsia. There are two PGHS isozymes, and their regulation in trophoblasts is presently unknown. We hypothesized that the PGHS isozymes are differentially regulated in human trophoblasts. To test this hypothesis, we transfected primary trophoblasts and JEG3 cells with promoter constructs of either PGHS-1 or PGHS-2 genes. We found that in both cell systems, the basal activity of PGHS-2 promoter was 10-to 30-fold higher than the activity of PGHS-1 promoter. In response to either 12-0-tetradecanoylphorbol-13-acetate (TPA) or 8-bromo-cAMP, we observed an increase in PGHS-2 promoter activity but no change in activity of PGHS-1 promoter. Similarly, both agents enhanced PGHS-2 expression, as well as prostaglandin E 2 production. The activity of PGHS-2 promoter was potentiated by coexpression of protein kinase A and inhibited by coexpression of kinase A inhibitor. Aspirin attenuated the stimulatory effect of TPA on PGHS-2 promoter. We conclude that both PGHS-1 and PGHS-2 promoters are active in trophoblasts. The activity of PGHS-2 promoter is stimulated by either TPA or cAMP, and the stimulatory effect of TPA is attenuated by aspirin. These pathways may play a role in modulation of prostanoid synthesis by trophoblasts. (J Clin Endocrinol Metab 82: 2289 -2293, 1997
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