Adenovirus-mediated transfer of COX-1 to angioplasty-injured carotid arteries was efficacious in augmenting PGI2 synthesis and was associated with an inhibition of thrombosis when a relatively high titer of adenovirus was instilled.
Acute administration of 17 beta-estradiol to immature female rats elicits a rapid and striking increase in the size of the uterus. This increase in size to caused by both hypertrophy and hyperplasia in the epithelial, stromal, and myometrial cells in the uterus. Previous studies have shown that induction of mRNA for the epidermal growth factor receptor, the cellular homolog of the erb-B oncogene, occurs early during estrogen-stimulated uterine growth. We report here that estradiol causes a very rapid induction of the mRNA for the cellular oncogene c-fos in immature rat uterus. Steady state levels of c-fos mRNA reach a maximum 3 h after 17 beta-estradiol administration and slowly return to low basal levels in 15 h. Dexamethasone, progesterone, and 5 alpha-dihydrotestosterone had no effect on uterine c-fos mRNA expression. The induction of c-fos mRNA by estrogen was unaffected by the protein synthesis inhibitor puromycin but completely abolished by the RNA synthesis inhibitor actinomycin D.
Previous studies have demonstrated that 17 beta-estradiol (E2) causes a 3-fold increase in epidermal growth factor (EGF) receptors in uterine membranes. We now report that the increase in uterine EGF receptor levels is due to an increase in the steady-state levels of EGF receptor mRNA. After a single E2 injection, EGF receptor mRNA levels, as determined by RNA blots, increase 3- to 4-fold between 1 and 3 h, remain elevated at 6 h, and decline between 12 and 18 h. The effect is specific for E2 since the nonestrogenic hormones progesterone, dexamethasone, 5 alpha-dihydrotestosterone, and the inactive stereoisomer of E2, 17 alpha-estradiol, are without effect. E2-Mediated increases in EGF receptor mRNA levels are blocked by actinomycin D but not by puromycin. Taken together, these results indicate that E2 regulates the level of EGF receptor by increasing the steady-state concentration of EGF receptor mRNA in vivo.
To determine whether estrogen regulates retinoic acid (RA) production and signaling in the human endometrium as it does in the rodent uterus, we investigated the effects of estrogens on the expression of RA-metabolizing enzymes, retinoid receptors, and biomarker genes in the post- and premenopausal human endometrium. Real-time quantitative PCR revealed that retinaldehyde dehydrogenase (RALDH) 2, a critical enzyme in RA biosynthesis, was induced 4-fold by estrogen replacement therapy with either Premarin or a mixture of estrone and equilin sulfates for 3 months. Estrogen replacement therapy also increased the expression of the RA receptor RAR alpha 1.9-fold. In parallel, there was a marked increase in the expression of two RA-regulated genes, cellular retinoic acid-binding protein II and tissue transglutaminase. In the premenopausal endometrium, the levels of RALDH1, RALDH2, RAR alpha, and cellular retinoic acid-binding protein II were increased in the estrogen-dominated proliferative phase, and the transcripts for the RA catabolic enzyme retinoic acid 4-hydroxylase (CYP26A1) and tissue transglutaminase were significantly increased in the secretory phase. Our results suggest that estrogen coordinately up-regulates RA production and signaling in the human endometrium. This coordinate mechanism may play a role in the antiproliferative effects that counterbalance the estrogen-induced endometrial proliferation.
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