Oncogenes enhance the expression of cyclooxygenase (Cox)-2, but interactions between tumor suppressor genes and Cox-2 have not been studied. In the present work, we have compared the levels of Cox-2 and the production of prostaglandin E 2 in mouse embryo fibroblasts that do not express any p53 ((10)1) versus the same cell line ((10.1)Val5) engineered to overexpress wildtype (wt) p53 at 32°C or mutant p53 at 39°C. Cells expressing wt p53 showed about a 10-fold decrease in synthesis of prostaglandin E 2 compared with those expressing mutant p53. Levels of Cox-2 protein and mRNA were markedly suppressed by wt p53 but not by mutant p53. Nuclear run-offs revealed decreased rates of Cox-2 transcription in cells expressing wt p53. The activity of the Cox-2 promoter was reduced by 85% in cells expressing wt p53 but was reduced only by 30% in cells expressing mutant p53 compared with cells null for p53. The effect of p53 on the suppression of Cox-2 promoter activity was localized to the first 40 base pairs 5 from the transcription start site. Electrophoretic mobility shift assay revealed that p53 competed with TATA-binding protein for binding to mouse Cox-2 or human Cox-2 promoter extending from ؊50 to ؉52 base pairs. The results of this study suggest that interactions between p53 and Cox-2 could be important for understanding why levels of Cox-2 are undetectable in normal cells and increased in many tumors.
We investigated whether curcumin, a chemopreventive agent, inhibited chenodeoxycholate (CD)- or phorbol ester (PMA)-mediated induction of cyclooxygenase-2 (COX-2) in several gastrointestinal cell lines (SK-GT-4, SCC450, IEC-18 and HCA-7). Treatment with curcumin suppressed CD- and PMA-mediated induction of COX-2 protein and synthesis of prostaglandin E2. Curcumin also suppressed the induction of COX-2 mRNA by CD and PMA. Nuclear run-offs revealed increased rates of COX-2 transcription after treatment with CD or PMA and these effects were inhibited by curcumin. Treatment with CD or PMA increased binding of AP-1 to DNA. This effect was also blocked by curcumin. In addition to the above effects on gene expression, we found that curcumin directly inhibited the activity of COX-2. These data provide new insights into the anticancer properties of curcumin.
Macrophage expression of cyclooxygenase-2 (COX-2), the inducible isoform of COX, is up-regulated by proinflammatory stimuli both in vivo and in vitro. Here we investigated the mechanisms regulating COX-2 gene expression in macrophage/monocytic cells. Lipopolysaccharide (LPS) is known to induce de novo COX-2 mRNA expression in these cells. Transient cotransfections with a COX-2 promoter-luciferase construct and different expression vectors showed that LPS up-regulates COX-2 transcription through both mitogen-activated protein kinase (MAPK) and protein kinase C (PKC) pathways. Cotransfections with expression vectors for dominant negative mutants of MAPK and PKC isoforms did not suppress the effects of LPS on COX-2. Electrophoretic mobility shift assays and transient transfection experiments with deleted and mutated variants of a COX-2 promoter-luciferase construct showed that NFB, NF-IL6, and CRE promoter sites mediate gene transcription independently in response to LPS treatment. In these experiments, isolated NFB, NF-IL6, and CRE promoter sites were less effective than the intact promoter in mediating COX-2 transcription. Cotransfections with mutated COX-2 promoter-luciferase constructs and expression vectors showed that each one of these promoter elements can be activated by LPS through both MAPK and PKC pathways to induce gene expression. In summary, there is redundancy in the signaling pathways and promoter elements regulating COX-2 transcription in endotoxin-treated cells of macrophage/ monocytic lineage.
Cyclooxygenase (COX) catalyzes the formation of prostaglandins (PG) from arachidonic acid. A large body of evidence has accumulated to suggest that COX-2, the inducible form of COX, is important in carcinogenesis. In this study, we determined whether (1) COX-2 was overexpressed in squamous cell carcinoma of the head and neck (HNSCC) and whether (2) retinoids, a class of chemopreventive agents, blocked epidermal growth factor (EGF)-mediated activation of COX-2 expression. Levels of COX-2 mRNA were determined in 15 cases of HNSCC and 10 cases of normal oral mucosa. Nearly a 100-fold increase in amounts of COX-2 mRNA was detected in HNSCC. By immunoblot analysis, COX-2 protein was detected in 6 of 6 cases of HNSCC but was undetectable in normal mucosa. Because retinoids protect against oral cavity cancer, we investigated whether retinoids could suppress EGF-mediated induction of COX-2 in cultured oral squamous carcinoma cells. Treatment with EGF led to increased levels of COX-2 mRNA, COX-2 protein, and synthesis of PG. These effects were suppressed by a variety of retinoids. Based on the results of this study, it will be important to establish whether newly developed selective COX-2 inhibitors are useful in preventing or treating HNSCC. Moreover, the anticancer properties of retinoids may be due, in part, to inhibition of COX-2 expression. Combining a retinoid with a selective COX-2 inhibitor may be more effective than either agent alone in preventing cancer of the upper aerodigestive tract.
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