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Endometrial prostaglandins (PGs) play a role in menstruation in primates and in luteolysis in nonprimates. Their biosynthesis is regulated by estrogen (E) and progesterone (P) in a manner not fully understood. The purpose of this thesis research was to (1) study the effects of E and P, both in vivo and in vitro, on basal endometrial PG output in vitro during the course of the artificial menstrual cycle in the rhesus monkey, and (2) further to examine the cellular mechanisms of P action in vivo on PG output using an ovine model system. To carry out the first objective, ovariectomized rhesus monkeys (n=39) were maintained on either a standard or manipulated artificial menstrual cycle (SAMC and MAMC, respectively) and endometrial biopsies were obtained at precise times in separate cycles on: cycle day 9 (mid-proliferative), 13 (mid-cycle E peak), 14 (one day post E peak), and 23 (mid-secretory). PGF2α was the most abundant PG produced in vitro by endometrial organ cultures, the levels of which changed most dramatically throughout the SAMC. Within the first 24 hours of organ culture, PGF2α accumulation was low on day 9 and rose significantly (p |
