Chemopreventive Effect Of Celecoxib Research Articles

Microbes Contribute to Chemopreventive Efficacy, Intestinal Tumorigenesis, and the Metabolome.

This study demonstrates novel mechanisms by which chemopreventive agents exert their effects and gut microbiota impact intestinal tumor development. These findings have the potential to lead to improved cancer prevention strategies by modulating microbes and their metabolites.

Fish oil augments celecoxib mediated alteration in apoptotic pathway in the initiation phase of 7,12-dimethylbenz(α)anthracene-induced mammary carcinogenesis.

Resistance in apoptosis by disruption in signaling pathways is a common trait in malignancy. Celecoxib, a specific COX-2 inhibitor, has been reported to exert chemopreventive effect by inducing apoptosis. However, high doses or chronic usage of celecoxib for longer periods have various side effects. n-3 PUFA rich fish oil also abrogates COX-2 expression in tumors and thereby, has chemopreventive action. Combinatorial strategy using these two has been reported to be beneficial in mammary carcinoma. The present study was designed to understand the role of intrinsic and extrinsic apoptotic pathways in chemopreventive effect of celecoxib and fish oil in the initial phases of mammary carcinogenesis. Female Wistar rats were distributed into control and DMBA treated groups and further subdivided based on pretreatment with celecoxib and/or fish oil. The animals were subsequently maintained for 90 days and then sacrificed. The proteins involved in intrinsic and extrinsic pathways were assessed in isolated mammary epithelial cells using flowcytometry. An increase in Bax, Bcl-2, Fas, FasL and caspase 8 levels was observed in DMBA treated animals. Celecoxib and/or fish oil further upregulate Bax, Fas, Fas L and caspase-8 while Bcl-2 levels were decreased. However maximal effect was observed with combinatorial dose of celecoxib and fish oil regimen. Administration of a combinatorial therapy of fish oil and celecoxib in mammary carcinoma exert better chemopreventive effect by modulation of both intrinsic and extrinsic apoptotic pathways.

Resveratrol enhances the chemopreventive effect of celecoxib in chemically induced breast cancer in rats

Resveratrol enhances the chemopreventive effect of celecoxib in chemically induced breast cancer in rats

Celecoxib activates Stat5 and restores or increases the expression of growth hormone-regulated genes in hepatocarcinogenesis

We have previously evaluated the chemopreventive effect of celecoxib on preneoplastic lesions in rat liver. However, though the effects of celecoxib have been tested in a variety of carcinomas, there has not been a study on the modulation of gene expression in response to this drug. Here, we evaluated the effect of celecoxib on the gene expression profile associated with hepatocarcinogenesis. Male Sprague-Dawley rats underwent the modified resistant hepatocyte model and were fed a diet containing 1500 ppm of celecoxib. Gene expression profiles were evaluated using DNA microarrays and further validations were performed using quantitative PCR, western blotting and immunohistochemical staining. Celecoxib modulated the expression of 46 genes, and those regulated by growth hormone were selected for further analysis. Celecoxib significantly upregulated the expression of the Cyp2b1/2, Cyp3a1, and alpha2-urinary globulin (alpha2uG) genes and restored the expression of Cyp2b3 to normal. The protein expression of Cyp2b1/2 was increased, but the expressions of Cyp3a1 and alpha2uG were only restored to normal levels. The increased Cyp2b1/2 expression in response to celecoxib was mainly confined to preneoplastic lesions. A search for the upstream mediator of these genetic alterations found that carcinogenesis inactivated by 87% the signal transducer and activator of transcription 5 (Stat5), a transcription factor that is activated by growth hormone signaling, but celecoxib treatment restored its activation. In conclusion, these results suggest that celecoxib exerts anticancer effects on altered hepatic cells by restoring mRNA and the protein expression levels of specific genes, in part through the reactivation of Stat5.

Chemopreventive effects of celecoxib are limited to hormonally responsive mammary carcinomas in the neu-induced retroviral rat model

IntroductionWhile current breast cancer chemoprevention strategies using selective estrogen response modulators and aromatase inhibitors are quite successful, their effects are limited to hormonally responsive breast cancer. Hormonally nonresponsive breast cancer (including estrogen receptor-negative cancer) is associated with poor prognosis for patients, and few chemoprevention agents exist for this type of cancer. The cyclooxygenase-2 inhibitor celecoxib (Celebrex®) is a nonsteroidal anti-inflammatory drug and as such is a potential candidate for the prevention of hormonally nonresponsive breast cancer.MethodsThe chemopreventive effects of celecoxib were evaluated in the neu-induced retroviral rat mammary carcinogenesis model, to assess the efficacy of celecoxib on hormonally responsive and hormonally nonresponsive mammary carcinomas.ResultsDietary celecoxib at 1,200 mg/kg diet was highly efficacious in the prevention of hormonally responsive mammary carcinomas in intact rats, decreasing tumor multiplicity by 56% (P < 0.0001) and by 74% (P = 0.0002) in two independent experiments. No significant effect was found, however, on hormonally nonresponsive mammary carcinomas of ovariectomized rats. Treatment with a combination diet, consisting of tamoxifen at 2 mg/kg diet and celecoxib at 1,200 mg/kg diet, reduced tumor multiplicity by 72% (P = 0.0002) in intact rats. This reduction was not statistically different from that observed with celecoxib alone. Furthermore, long-term treatment with celecoxib was not associated with reductions in tumor volume in either intact rats or ovariectomized rats. In contrast, tamoxifen treatment and the combination regimen caused significant reductions in tumor volumes in intact rats (P = 0.01 and P = 0.004, respectively). Consistent with these data, decreases in proliferation and increases in apoptosis were detected in tamoxifen-treated and combination diet-treated tumors. No such modulations were observed in celecoxib-treated tumors.ConclusionThe chemopreventive effects of celecoxib appear to be limited to modulations in multiplicity of hormonally responsive mammary carcinomas. The fact that no synergistic or additive effects were observed in combination diet-treated rats raises the question of whether celecoxib is suitable for the prevention of hormonally nonresponsive breast cancer or for use in combination therapy with selective estrogen response modulators or aromatase inhibitors.

Chemopreventive effect of celecoxib in gastric cancer

COX (cyclooxygenase) is one of the key enzymes involved in the synthesis of a variety of prostaglandins (PGs), some of which have been strongly linked to inflammation. One of its two well-known isoforms, COX-2, is an inducible enzyme whose induction and expression is dynamically regulated by growth factors, mitogens, and tumor promoters. Several animal and clinical studies have reported the chemopreventive effect of celecoxib, a selective COX-2 inhibitor; and in particular, a few studies have shown that celecoxib prevents the development of gastric cancer. Administration of celecoxib also showed increases in cardiovascular risk and disruption of renal physiology. Therefore, studies hoping to clarify how selective COX-2 inhibitors modulate gastric cancer must keep in mind that coxibs have also been linked to serious cardiovascular events and disruption of renal physiology.

Chemopreventive Effect of Celecoxib in Oral Precancers and Cancers

Oral cancer has become an important health care problem in many countries. Because this disease develops slowly, early detection and intervention can greatly affect ultimate outcome. Celecoxib is a cyclooxygenase-2 inhibitor with significantly less toxicity. This study investigated the possibility of using it for chemoprevention of oral cancer at the early stages. Randomized animal study. Dysplastic lesions were induced in the buccal pouches of 47 hamsters by a 5 week painting of 9,10-dimethl-1,2-benzanthrancene (DMBA). Basal diets or diets containing 500 or 1,500 ppm of Celecoxib were orally given for 7 weeks. The T50 (50% incidence; i.e., the time to appearance of tumors in 50% of the hamsters) was observed, and volume of tumors was measured on day 1, 9, 19, 28, 35, and 48 with the Celecoxib treatment. The T50 was 9, 19, and 28 days with the treatment in the control group, in the 500 ppm group, and in the 1,500 ppm group, respectively. It indicated that the Celecoxib treatment could delay progression of early lesion. The tumor measurement showed that this treatment was also effective in delaying tumor growth in both treatment groups. There was a difference in the treatment efficacy between the 500 ppm and 1,500 ppm of Celecoxib, indicating a dose-dependent efficacy. Celecoxib is effective in delaying onset of early lesions induced by DMBA and in slowing growth of the tumors in hamster cheek pouches during the postinitiation stage. Its treatment efficacy appears to be dose dependent.

Proteomic Profiling Identifies Cyclooxygenase-2-Independent Global Proteomic Changes by Celecoxib in Colorectal Cancer Cells

Celecoxib, a selective inhibitor of the enzyme cyclooxygenase-2 (COX-2), has been shown to be a promising chemoprevention agent. The chemopreventive efficacy of celecoxib is believed to be a consequence of its COX-2-dependent and COX-2-independent effects on a variety of cellular processes including proliferation, apoptosis, angiogenesis, and immunosurveillance. In an attempt to identify proteomic markers modulated by celecoxib that are independent of its inhibitory effect on COX-2, the colorectal cancer cell line HCT-116, a nonexpresser of COX-2, was treated with celecoxib. We used the powerful, state-of-the-art two-dimensional difference gel electrophoresis technology coupled with mass spectrometric sequencing to compare global proteomic profiles of HCT-116 cells before and after treatment with celecoxib. Among the differentially expressed proteins identified following celecoxib treatment were proteins involved in diverse cellular functions including glycolysis, protein biosynthesis, DNA synthesis, mRNA processing, protein folding, phosphorylation, redox regulation, and molecular chaperon activities. Our study presents a comprehensive analysis of large-scale celecoxib-modulated proteomic alterations, at least some of which may be mechanistically related to the COX-2-independent chemopreventive effect of celecoxib.

Cyclooxygenase (COX)-2 inhibitor celecoxib abrogates activation of cigarette smoke-induced nuclear factor (NF)-kappaB by suppressing activation of IkappaBalpha kinase in human non-small cell lung carcinoma: correlation with suppression of cyclin D1, COX-2, and matrix metalloproteinase-9.

Cigarette smoke (CS) has been linked to cardiovascular, pulmonary, and malignant diseases. CS-associated malignancies including cancers of the larynx, oral cavity, and pharynx, esophagus, pancreas, kidney, bladder, and lung; all are known to overexpress the nuclear factor-kappaB (NF-kappaB)-regulated gene products cyclin D1, cyclooxygenase (COX)-2, and matrix metalloprotease-9. Whether the COX-2 inhibitor, celecoxib, approved for the treatment of colon carcinogenesis and rheumatoid arthritis, affects CS-induced NF-kappaB activation is not known, although the role of NF-kappaB in regulation of apoptosis, angiogenesis, carcinogenesis, and inflammation is established. In our study, in which we examined DNA binding of NF-kappaB in human lung adenocarcinoma H1299 cells, we found that cigarette smoke condensate (CSC)-induced NF-kappaB activation was persistent up to 24 h, and celecoxib suppressed CSC-induced NF-kappaB activation. Celecoxib was effective even when administered 12 h after CSC treatment. This effect, however, was not cell type-specific. The activation of inhibitory subunit of NF-kappaB kinase (IkappaB), as examined by immunocomplex kinase assay, IkappaB phosphorylation, and IkappaB degradation was also inhibited. Celecoxib also abrogated CSC-induced p65 phosphorylation and nuclear translocation and NF-kappaB-dependent reporter gene expression. CSC-induced NF-kappaB reporter activity induced by NF-kappaB inducing kinase and IkappaB alpha kinase but not that activated by p65 was also blocked by celecoxib. CSC induced the expression of NF-kappaB-regulated proteins, COX-2, cyclin D1, and matrix metalloproteinase-9, and celecoxib abolished the induction of all three. The COX-2 promoter that is regulated by NF-kappaB was activated by CSC, and celecoxib suppressed its activation. Overall, our results suggest that chemopreventive effects of celecoxib may in part be mediated through suppression of NF-kappaB and NF-kappaB-regulated gene expression, which may contribute to its ability to suppress inflammation, proliferation, and angiogenesis.

Suppression of occurrence and advancement of beta-catenin-accumulated crypts, possible premalignant lesions of colon cancer, by selective cyclooxygenase-2 inhibitor, celecoxib.

Suppression of occurrence and advancement of premalignant lesions is important for cancer prevention. Our previous studies clarified that β‐catenin‐accumulated crypts, independent of aberrant crypt foci (ACF), are probably direct precursors of colon cancers in rats. Here we investigated the effects of a selective cyclooxygenase‐2 inhibitor, celecoxib, on the development of β‐catenin‐accumulated crypts in comparison with those on ACF. Male F344 rats were divided into 4 groups. Groups 1‐3 were administered azoxymethane (AOM) s.c. at a dose of 15 mg/kg body weight, once weekly for 3 weeks to induce β‐catenin‐accumulated crypts. Groups 2 and 3 also received experimental diet containing celecoxib (500 and 1500 ppm, respectively) for 8 weeks, starting a week before the first dosing of AOM. At termination, the frequency and crypt multiplicity (number of crypts/lesion) of β‐catenin‐accumulated crypts of groups 2 and 3 were significantly less than that of group 1. Furthermore, numbers of silver‐stained nucleolar organizer regions (AgNORs)/nucleus in β‐catenin‐accumulated crypts were also decreased by exposure to celecoxib. In this study, celecoxib had greater effects on the frequency and growth of β‐catenin‐accumulated crypts than on those of ACF. These findings represent additional evidence that β‐catenin‐accumulated crypts are premalignant lesions of colon cancer. The results also suggest that β‐catenin‐accumulated crypts could be a novel target for evaluation of possible chemopreventive agents against colon carcino‐genesis, and indicate that possible chemopreventive effects of celecoxib on the initial stage of colon carcinogenesis may be related to modulation of cell proliferation activity in such early lesions.