Alteration in apoptosis and cell cycle by celecoxib and/or fish oil in 7,12-dimethyl benzene (α) anthracene-induced mammary carcinogenesis.

Cyclooxygenase (COX)-2 inhibition by nonsteroidal anti-inflammatory drugs is a useful approach for cancer prevention but has several side effects. A novel approach combining these chemopreventive agents at low doses with dietary elements has been suggested to augment their effects and reduce side effects. Dietary fats, particularly, n-3 polyunsaturated fatty acids (PUFA) also exert cancer chemopreventive effect mediated through COX-2 inhibition. Therefore, the present study was designed to investigate the effect of combined dosage of celecoxib and n-3 PUFA-rich fish oil in experimental mammary carcinogenesis. Female Wistar rats were distributed into control and DMBA-treated groups. The groups were further subdivided based on pretreatment with celecoxib and/or fish oil. The animals were maintained for 90 days before sacrifice. To analyze the role of redox signaling, the two mediators, reactive oxygen species and calcium, and their effects on c-myc expression were evaluated. The chemopreventive effect was assessed by measurement of cell proliferation, apoptosis, and p53 in isolated mammary epithelial cells. Increased redox signaling with enhanced c-myc, p53 expression, and augmented apoptotic and proliferative rate were observed in carcinogen-treated animals. Pretreatment of carcinogen-treated animals with celecoxib and/or fish oil altered redox signaling with reduced c-myc, p53 expression, apoptosis, and proliferation. However, a combination dosage of celecoxib and fish oil had a better chemopreventive effect. The results suggest that a combination of celecoxib and fish oil is more effective in the chemoprevention of experimental mammary carcinogenesis, and this effect can be attributed to the modification of redox signaling.

Evaluation of the role of oxidative stress in chemopreventive action of fish oil and celecoxib in the initiation phase of 7,12-dimethyl benz(α)anthracene-induced mammary carcinogenesis.

Cyclooxygenase-2 (COX-2) enzyme plays an important role in cancer development. COX-2 inhibition by non-steroidal anti-inflammatory drugs is a useful approach for cancer prevention, but its usage has been associated with side effects. n-3 polyunsaturated fatty acids also exhibit a chemopreventive effect mediated by COX-2 inhibition. Therefore, the present study was designed to evaluate the effect of combined dosage of celecoxib and fish oil in experimental mammary carcinogenesis. Female Wistar rats were distributed as control, 7,12-dimethyl benz(α)anthracene (DMBA) treated, celecoxib + fish oil (20 mg/kg b.w. + 0.5 ml), celecoxib + fish oil (30 mg/kg b.w. + 0.25 ml), and their corresponding controls treated with fish oil or celecoxib only. The treatment was given for 7 days, and on the 8th day animals of all the groups except the control group received DMBA orally and sacrificed after 90 days. The histopathology, DNA fragmentation, total sialic acid (TSA), lipid-associated sialic acid (LASA), and oxidative stress were measured in mammary tissue and liver mitochondrial fraction. The results showed ductal hyperplasia and an increase in TSA, LASA, lipid peroxidation, and nitrite levels with a decrease in the antioxidants on DMBA treatment. Pretreatment with celecoxib and fish oil in DMBA-treated animals led to normal histology, increase in DNA fragmentation, and decrease in TSA and LASA levels with reduced oxidative stress, and the effect was more pronounced than animals pretreated with either celecoxib/fish oil alone suggesting a synergistic effect of the two regimens. To conclude, a combination of celecoxib and fish oil is a better strategy for cancer chemoprevention than celecoxib/fish oil alone.