Chemoprevention Of Mammary Carcinogenesis Research Articles

Chemoprevention of mammary carcinogenesis by sustained systemic delivery of ellagic acid

Many chemopreventives that show efficacy in vitro show little/no response or require bolus doses in animal models and clinical trials because of limited bioavailability. Ellagic acid has been tested in various animal models with mixed results. We report the efficacy of ellagic acid delivered by a subcutaneous implant compared with a dietary route against estrogen-induced mammary tumors. Ellagic acid delayed the first tumor appearance by 2 and 3 weeks by implant and diet routes, respectively. The tumor incidence was 75% and 69% by the implant and dietary routes when the control group had 100% palpable tumors by 26 weeks. Ellagic acid also significantly reduced the tumor burden by both implant (855±242 mm; P=0.0375) and dietary (599±169 mm; P=0.0133) routes compared with control (1522±299 mm). Similar reductions were observed in tumor multiplicity (4.8±0.5; P=0.0042 and 4.5±0.4; P=0.0031 tumors/rat with implant and diet, respectively, vs. 8.9±1.2 in control). The total amount of ellagic acid administered by implant was 5.92±3.48 whereas it was 800±40 mg/rat through diet. Thus, over 130-fold dose reduction produced similar biological responses when delivered by implant. The anticarcinogenicity effects corroborated the observed reduction in levels of pituitary prolactin. This novel approach opens new avenues to test agents individually or as mixtures for their chemopreventive potential that are discontinued, either due to lack of bioavailability or toxicity potentially associated with high doses or due to lack of availability of sufficient quantities.

Chemoprevention of mammary carcinogenesis in female rats by rofecoxib

Epidemiological and experimental studies indicate that non-steroidal anti-inflammatory drugs play role in the prevention of human neoplasia including mammary gland cancer. In this study, tumour suppressive effects of a selective inhibitor of cyclooxygenase-2 (COX-2) rofecoxib in the prevention of N-methyl- N-nitrosourea (NMU)-induced mammary carcinogenesis in female Sprague–Dawley rats were evaluated. Rofecoxib was dietary administered in two concentrations—0.01 mg/1 g (ROFE 0.001%), or 0.05 mg/1 g (ROFE 0.005%). Rofecoxib decreased the incidence by 40% (ROFE 0.001%) and by 42.5% (ROFE 0.005%) ( P=0.043) when compared to the control group. Similarly, tumour frequency and tumour volume decreased depending on an increasing rofecoxib dose by 18.5 or 40% (tumour frequency) and by 35 or 43% (tumour volume). Rofecoxib shifted the rate of fibroadenomas from 15% (control group) to 32% (ROFE 0.001%), or 38% (ROFE 0.005%), respectively. The present study points to pronounced dose-dependent tumour suppressive effects of rofecoxib in mammary carcinogenesis.

Chemoprevention of mammary carcinogenesis in a transgenic mouse model by alpha-difluoromethylornithine (DFMO) in the diet is associated with decreased cyclin D1 activity.

Mechanisms underlying the chemopreventive effect of difluoromethylornithine (DFMO) on the development of mammary cancer were investigated utilizing the whey acidic protein promoter-T antigen transgenic mouse model of breast cancer progression. Mice were exposed to four different doses of DFMO in the diet (3.5, 4.9, 7.0 and 10 g/kg diet). Tumor latency was increased in a dose-dependent manner. DFMO at the highest dose significantly delayed tumor onset (131 days as compared to 109 days in control unexposed mice, P=0.018). Analyses of preneoplastic mammary tissue collected 1 month after DFMO treatment demonstrated that DFMO (10 g/kg diet) significantly increased the ratio of apoptotic to proliferative indices (P=0.013) and significantly reduced the percentage of cells demonstrating nuclear localized cyclin D1 (P=0.013). Nuclear localizations of p27, p21 and Stat5a were not affected. Inhibitory effects of DFMO on cell growth and survival were lost as the cells progressed to cancer. In conclusion, the chemopreventive effects of DFMO on mammary cancer progression were mediated by changes in both apoptosis and cell proliferation in preneoplastic cells. Alterations in cyclin D1 activity in preneoplastic cells could represent an early biomarker of chemopreventive action and are consistent with a mechanistic role for cyclin D1 in progression of mammary cancer.

Chemoprevention of mammary carcinogenesis by 1α-hydroxyvitamin D 5, a synthetic analog of Vitamin D

Numerous analogs of Vitamin D have been synthesized in recent years with the hope of generating a compound that retains the anticarcinogenic activity of Vitamin D without causing any toxicity. We synthesized such an analog, 1α-hydroxy-24-ethylcholecalciferol [1α-hydroxyvitamin D 5 or 1α(OH)D 5], and showed that it was tolerated by rats and mice at a much higher dose than 1α,25 dihydroxy cholecalciferol [1α,25(OH) 2D 3]. This property makes it a prime candidate for chemoprevention studies. In the mouse mammary gland organ culture (MMOC), 1α(OH)D 5 inhibited carcinogen-induced development of both mammary alveolar and ductal lesions. In vivo carcinogenesis study showed statistically significant reduction of tumor incidence and multiplicity in N-methyl- N-nitrosourea (MNU)-treated rats that were fed 25–50 μg 1α(OH)D 5/kg diet. There were no adverse effects on plasma calcium concentrations. In order to determine if the effect of 1α(OH)D 5 would be selective in suppressing proliferation of transformed cells, its effects on cell growth and proliferation were compared between BT474 (cancer) and MCF12F (non-tumorigenic) human breast epithelial cells. Results showed that 1α(OH)D 5 induced apoptosis and cell cycle G1 phase arrest in BT474 breast cancer cells without having any effects on proliferation of the MCF12F cells. In addition, in MMOC it had no growth inhibitory effects on normal epithelial cell proliferation in the absence of carcinogen. Similarly, non-tumorigenic human breast epithelial cells in explant culture did not respond to 1α(OH)D 5, whereas treatment with 1α(OH)D 5 induced cell death in the explants of cancer tissue. These results collectively indicate that 1α(OH)D 5 selectively induced apoptosis only in transformed cells but not in normal breast epithelial cells. Interestingly, the growth inhibitory effects of 1α(OH)D 5 were observed in Vitamin D receptor positive (VDR +) breast cancer cells, but not in highly metastatic VDR − breast cancer cells, such as MDA-MB-435 and MDA-MB-231, suggesting that 1α(OH)D 5 action may be mediated, in part, by VDR.

Retinyl Acetate and Melatonin in Chemoprevention of Mammary Carcinogenesis in Female Rats: Metabolic Changes

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Chemoprevention of mammary carcinogenesis in the rat: combined use of raloxifene and 9-cis-retinoic acid.

It is imperative to develop new agents for the prevention of breast cancer, considering the incidence of this disease and its associated morbidity and mortality (/). Tamoxifen, a nonsteroidal estrogen response modifier, is the hormonal therapy of choice for the treatment of breast cancer and for prevention of the recurrence of disease (2,3). The rationale for clinical use of tamoxifen in chemoprevention is that, in eight randomized controlled trials, it reduced by one third the incidence of contralateral tumors in women with breast cancer (4J>). Although tamoxifen is well tolerated and generally free of serious side effects (6), its long-term administration has been shown to increase the risk of endometrial cancer (7). In animals, tamoxifen reduced the incidence of breast cancer induced by chemical carcinogens (8,9), but it also induced highly stable DNA adducts in two rodent species (10) and, at very high doses, induced liver tumors in rats (/ /) . One strategy for lessening these deleterious effects of tamoxifen is to use it at reduced concentrations in conjunction with another chemopreventive agent such as a vitamin D analogue (12) or 9c/s-retinoic acid (9cRA) (13). Another strategy is to use other estrogen response modifiers that are not uterotrophic. In the present study, the combination of 9cRA and raloxifene (LY156758) (formerly called keoxifene), which has a high binding affinity for the estrogen receptor and a low level of estrogenic activity and does not promote growth of uterine epithelium (14-16), was evaluated for its chemopreventive activity in the well-accepted rat model of breast cancer induced by the carcinogen nitrosomethylurea (NMU) (17). A previous study showed that raloxifene alone, given by injection in peanut oil, had some preventive activity in this model, although it was less potent than tamoxifen (8). Three hundred virgin female SpragueDawley rats were obtained from Taconic Farms, Germantown, NY, and 264 rats were used in two separate experiments (84 rats in experiment 1 and 180 rats in experiment 2) with identical design. At 55 days of age, the rats were anesthetized by metofane inhalation and were given a single intravenous injection of NMU (50 mg/kg body weight) as previously described (12). One week later, the animals were randomly assigned to one of six experimental groups (Table 1). Raloxifene was provided by Eli Lilly and Co. (Indianapolis, IN), and 9cRA was obtained from Kuraray Company (Osaka, Japan). Raloxifene (Ral Hi = 60 mg raloxifene per kilogram diet; Ral Lo = 20 mg raloxifene per kilogram diet) and/or 9cRA (60 mg/kg diet) were blended into the diets as described previously (12) and were fed ad libitum alone or in combination for the duration of the experiment. Rats were observed for gross evidence of toxicity, weighed, and palpated for tumor formation twice per week. They were killed by carbon dioxide inhalation, and tumors were confirmed and weighed at autopsy. National Institutes of Health guidelines for proper and humane use of animals were observed. The following statistical procedures were used to compare the differences between treatment groups: 1) the Fisher exact test (18) for comparing incidence rates, 2) a nonparametric test proposed by Mantel (79) for comparing average numbers of tumors per animal, and 3) the Wilcoxon rank test (18) for comparing tumor burdens. All P values are two-sided. At both high and low doses, raloxifene alone and, most notably, in combination with 9cRA was found to be an effective agent for prevention of mammary tumors (Fig. 1, Table I). If one combines the data from both experiments, 52 of 54 control animals given vehicle alone had mammary tumors (96% tumor incidence) at autopsy, with an average of 3.2 tumors and an average tumor burden of 12.6 g. Rats treated with Ral Hi or with Ral Lo had significant decreases in the incidence and weight of breast tumors, as measured by multiple parameters: 55% (/> <.0001), respectively. Rats treated with 9cRA alone had 79% tumor incidence (P = .02), with an average of two tumors per rat (P .0005) and an average tumor burden of 8.8 g (P = .007). Treatment with the combination of Ral Hi + 9cRA or Ral Lo + 9cRA showed that the addition of 9cRA to either raloxifene treatment markedly decreased the tumor incidence, the number of tumors, and the average tumor burden; P values for these parameters for the combination treatment were all <.0001 when treated animals were compared with untreated (vehicle) control animals. The addition of 9cRA to a raloxifene regimen pro-

Estradiol metabolism: An endocrine biomarker for chemoprevention of human mammary carcinogenesis

A relationship between altered metabolism of estradiol (E2) and personal or familial risk for breast cancer suggests that endocrine changes associated with ovarian function may influence initiation or promotion of carcinogenesis. Evidence for a direct effect of E2 on non-involved mammary tissue (target for carcinogenesis) is equivocal. Explant cultures of human mammary terminal duct lobular units (TDLU) from breast cancer patients are utilized to examine whether (i) E2 metabolism in TDLU is altered in response to the chemical carcinogen benzo(a)pyrene [B(a)P], and (ii) perturbed E2 metabolism is modulated by naturally occurring polyunsaturated fatty acids (PUFA) and indole-3-carbinol (I3C). Treatment of TDLU with 40 nM B(a)P resulted in a > 95% decrease in C2/C16α-hydroxylation ratio of E2 relative to that detected in solvent controls. This metabolic alteration was due to a specific increase in E2 C16α-hydroxylation. Exposure of TDLU prior to and during B(a)P treatment with omega-6 PUFA decreased C2/C16α-hydroxylation ratio by 38% (p < 0.001). Treatment with omega-3 PUFA and I3C increased the ratio by 318% and 376% respectively (p < 0.001), due to a specific increase in E2 C2-hydroxylation. Thus, carcinogen-induced perturbation of E2 metabolism in TDLU and its modulation by dietary modulators of rodent mammary tumorigenesis provide evidence for this endocrine biomarker as a clinically relevant endpoint for chemoprevention of mammary carcinogenesis.

Chemoprevention of mammary carcinogenesis by hydroxylated derivatives of d-limonene.

The monoterpene d-limonene has been shown to an effective, non-toxic chemopreventive agent in mammary and other rodent tumor models. The studies reported here investigated structure-activity relationships among limonene and three hydroxylated derivatives in the prevention of dimethylbenz[a]anthracene (DMBA)-induced mammary cancer. Rats were fed control or 1% limonene, carveol, uroterpenol or sobrerol diets from 2 weeks before to one week after carcinogen administration. Carveol, uroterpenol and sobrerol significantly prolonged tumor latency and decreased tumor yield. Sobrerol was the most potent of the monoterpenes tested, decreasing tumor yield to half that of the control, a level previously achieved with 5% limonene diets. Excretion of radioactivity from [3H]DMBA was doubled in rats fed 5% limonene and nearly tripled in rats fed 1% sobrerol. Sobrerol is thus 5-fold more potent than limonene in both enhancing carcinogen excretion and in preventing tumor formation. These data demonstrate that hydroxylation of monoterpenes affects chemopreventive potential, with 2 hydroxyl groups greater than 1 greater than 0. Sobrerol, carveol and uroterpenol are novel cancer chemopreventive agents with little or no toxicity.