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.
The results of the present study suggest that RSV-induced production of NO participates in complex host responses and may mediate important aspects of the clinical disease.
Tumor expansion is dependent on angiogenesis, which is regulated by peptide growth factors of which vascular endothelial growth factor (VEGF) is one of the most selective and potent. VEGF expression is regulated by steroid hormones in a number of systems, including T47-D human breast cancer cells in which VEGF protein levels are elevated by progestins. In the present study, we investigated the effect of progestins on VEGF mRNA levels in human breast cancer cells. For these experiments, T47-D cells were exposed to progestins, RNA was prepared for measurement of VEGF transcript levels by Northern blot analysis and VEGF protein in the cell culture media was measured by enzyme-linked immunosorbent assay. Basal expression of VEGF mRNA is low in these cells, and is rapidly induced following exposure to progestins, reaching a maximum induction of 2-to 5-fold between 3 and 6 hr after hormone addition. This induction was inhibited by the antiprogestin RU-486 indicating that it is progesterone receptor (PR) dependent. Transcripts for VEGF 165 and VEGF 121 were the two major spliced forms of VEGF mRNA that were detected by reverse transcription-polymerase chain reaction in basal and progestin-stimulated T47-D cells. Maximum induction of VEGF mRNA was achieved with 10 ؊8 M progesterone, and induction was hormone specific, as estrogens, glucocorticoids, and androgens were without effect. Actinomycin D completely abolished the induction of VEGF transcript levels by progestins, suggesting that this response involves de novo mRNA synthesis, but puromycin did not inhibit induction, suggesting that this effect does not require protein synthesis. This report demonstrates that progestins stimulate VEGF mRNA levels and raises the possibility that anti-progestins may be useful to inhibit proliferation and metastasis in some human breast cancers by blocking VEGF production.
Estrogens have previously been shown to induce c-jun mRNA levels in target cells during hormone induced proliferation, and this appears to be a primary hormonal response involving transcriptional activation. In this report we have now identified an estrogen dependent enhancer within the coding sequence of c-jun. This element has the sequence GCAGAnnnTGACC which is identical to the consensus estrogen response element GGTCAnnnTGACC in the second half site, but varies considerably in the first half site. Synthetic oligodeoxynucleotides containing this jun sequence bind the estrogen receptor in cell-free studies using a competitive band shift assay with the consensus element. The jun element also confers hormone inducibility to reporter plasmids in yeast and mammalian based transcriptional systems. Structure-function studies illustrate that the TGACC half-site and its immediate flanking dinucleotides, but not the GCAGA half-site, are required for estrogen receptor binding. In contrast, both the GCAGA and TGACC half-sites are obligatory for hormone-inducible transcriptional activation. These results suggest a model in which the estrogen receptor functions as a heterodimer to regulate transcription of the c-jun protooncogene. Coupled with reports of estrogen response elements in c-fos and estrogenic induction of c-fos and c-jun in vivo, these findings also support a role for AP-1 components as early response genes in estrogen-induced proliferation.
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