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  • Title: Requirement for prostaglandin F2 alpha in 17 beta-estradiol stimulation of DNA synthesis in rabbit endometrial cultures.
    Author: Orlicky DJ, Lieberman R, Williams C, Gerschenson LE.
    Journal: J Cell Physiol; 1987 Feb; 130(2):292-300. PubMed ID: 3469206.
    Abstract:
    We have hypothesized that two of the endogenously synthesized endometrial prostaglandins (PGs), prostaglandin F2 alpha (PGF2 alpha), and prostaglandin E1 (PGE1), play a regulatory role in growth control of the rabbit endometrium. PGF2 alpha increases DNA synthesis and PGE1 inhibits that effect. Primary cultures of rabbit endometrial cells were used to examine the possible role of these PGs in the mechanism of action of 17 beta-estradiol on DNA synthesis. Towards this end, binding, second messenger and DNA synthesis experiments were performed. 17 beta-estradiol stimulation resulted in a time dependent (optimal: approximately 6 h) and 17 beta-estradiol concentration dependent (optimal: approximately 10(-7) M 17 beta-estradiol in phenol red-containing medium) increase in [3H]PGF2 alpha binding. Scatchard type analysis of the binding data revealed an increase in receptor number while the receptor affinity for [3H]PGF2 alpha remained the same as in the control treated cultures. This 17 beta-estradiol stimulated increase in PGF2 alpha receptor allowed a suboptimal concentration of PGF2 alpha (10(-9) M) to increase intracellular levels of inositol polyphosphates, while by itself this concentration of PGF2 alpha caused no significant change in intracellular inositol polyphosphate levels. 17 beta-estradiol, alone among the several studied steroid hormones, could increase [3H]PGF2 alpha binding. Proliferation studies revealed that, in these primary cultures of rabbit endometrium, 17 beta-estradiol could increase DNA synthesis but not in the presence of indomethacin, unless PGF2 alpha was added to the medium at a concentration (10(-10) M) near or above what is normally accumulated in the medium by these cultures. In the absence of 17 beta-estradiol stimulation, addition of these same low concentrations of PGF2 alpha had no effect on DNA synthesis. Apparently, through its effect on the PGF2 alpha receptor, 17 beta-estradiol enhances the PGF2 alpha stimulated DNA synthesis response approximately 100 fold. The DNA synthesis induced by 17 beta-estradiol can be inhibited by PGE1, as can PGF2 alpha-induced DNA synthesis. We propose that 17 beta-estradiol may be mediating its mitogenic effect through an alteration of the prostaglandin agonist:antagonist control of proliferation in rabbit endometrial cultures. In addition we suggest that, if 17 beta-estradiol acts to increase PGF2 alpha, receptors as part of its mode of action, this may be of importance in other tissues possessing both prostaglandin and 17 beta-estradiol receptors.
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