Green tea catechins enhance tumor development in the colon without effects in the lung or thyroid after pretreatment with 1,2-Dimethylhydrazine or 2,2'-dihydroxy-di-n-propylnitrosamine in male F344 rats

Modifying effects of green tea catechins (GTCs) on the post-initiation stage of colon, lung and thyroid carcinogenesis were examined in F344 male rats. Groups of 20 animals were given subcutaneous injections of 40 mg/kg body wt of 1,2-dimethylhydrazine twice a week for 2 weeks or oral administration of 0.1% 2,2'-dihydroxy-di-n-propylnitrosamine (DHPN) in the drinking water for 2 weeks for initiation. They then received diet containing 1 or 0.1% green tea catechin or basal diet alone for 33 weeks. Histopathological examination after final sacrifice showed that although total incidence and multiplicity of colon tumors were not significantly different from controls, values for colon adenomas were decreased while those for carcinomas and the average size of tumors were significantly increased in the 0.1% GTC group. A similar tendency was observed for the 1% GTC group. Incidences and/or multiplicity of lung hyperplasia and tumors, and thyroid lesions did not significantly vary among the DHPN-treated groups. These results indicate that GTCs do not inhibit, but rather may enhance colon carcinogenesis, while not influencing lung and thyroid carcinogenesis under the present experimental conditions.     

Post-initiation effects of chlorophyllin and indole-3-carbinol in rats given 1,2-dimethylhydrazine or 2-amino-3-methyl- imidazo

Chlorophyllin (CHL) is a water-soluble derivative of chlorophyll, the ubiquitous pigment in green and leafy vegetables, whereas indole-3-carbinol (I3C) is present in cruciferous vegetables such as cabbage, broccoli and cauliflower. In rats initiated with 1,2-dimethylhydrazine (DMH), CHL and I3C reportedly promoted or enhanced the incidence of colon tumors when they were administered after, or during and after the carcinogen exposure, respectively. The same compounds given post-initiation inhibited the formation of colonic aberrant crypts induced by heterocyclic amines, such as 2-amino-3-methylimidazo[4,5-f]quinoline (IQ), but tumor suppression was not examined in the latter studies. In the present investigation, male F344 rats were treated with IQ or DMH during the first 5 weeks of a 1 year study; IQ was given in the diet (0.03%), whereas DMH was administered once a week by s.c. injection (20 mg/kg body wt). Beginning 1 week after the last dose of IQ or DMH until sacrifice, rats received 0.001, 0.01 or 0.1% (w/v) CHL in the drinking water or 0.001, 0.01 or 0.1% I3C in the diet. Compared with controls given carcinogen alone, 0.1% I3C treatment suppressed the multiplicity of IQ-induced colon tumors, and CHL inhibited in a dose-related manner the incidence of IQ-induced liver tumors. However, 0.001% CHL increased significantly the multiplicity of DMH-induced colon tumors while having no effect on the colon tumors induced by IQ. These results indicate that both the choice of carcinogen as well as the dose of the tumor modulator can be important determinants of the events that occur during post-initiation exposure to CHL or I3C. Based on the present findings and data in the literature, it is possible for CHL and I3C to act as tumor promoters or anticarcinogens, depending upon the test species, initiating agent and exposure protocol.     

Effect of metabolic inhibitors, methylxanthines, antioxidants, alkali metals, and corn oil on 1,2-dimethylhydrazine carcinogenicity in rats.

The effect of the oral administration of 10 compounds on 1,2-dimethylhydrazine (DMH) carcinogenesis was investigated in 180 male Wistar rats and 510 male BD6 rats. DMH, administered s.c. once per week for 20 consecutive weeks (20 mg/kg body wt/dose), produced intestinal (mainly colon) tumors of various histological type in 100% of both rat strains and, in addition, caused Zymbal gland carcinomas in 79.7% of Wistar rats. Pretreatment with disulfiram (DSF, 500 mg/kg), a known inhibitor of DMH metabolism, totally prevented intestinal and Zymbal gland tumors in Wistar rats. When DSF treatment started after the first DMH injection, the protective effect was not total, the incidence and multiplicity of both types of tumors being comparable to those observed following a single injection of the carcinogen alone. This confirms the involvement of DSF in the initiation stage only of DMH carcinogenesis. A complete prevention of intestinal tumors in BD6 rats was also produced not only by the DSF metabolite carbon disulfide (250 mg/kg) but also by the hepatotoxic agent carbon tetrachloride (1.5 ml/kg), which suggests that the block of DMH metabolism in rat liver is not an exclusive property of thiono-sulfur compounds. Butylated hydroxytoluene (BHT) decreased the multiplicity of intestinal tumors, but not to a significant extent. BHT and the aforementioned metabolic inhibitors were administered by gavage in corn oil, which per se did not significantly decrease intestinal or Zymbal gland tumors. All remaining modulators were administered with drinking water. Two additional antioxidants triggered opposite effects on the multiplicity of intestinal tumors. In fact, sodium selenite (10 mg/l) significantly decreased the number of tumors, whereas ascorbic acid (10 g/l), irrespective of its combination with CaCl2, produced a marked enhancement. The alkali metal salts CaCl2 and KCl (both at 5 g/l) as well as the methylxanthines caffeine and theophylline (both at 600 mg/l) were devoid of significant effects. Neither treatment with DMH alone nor its association with test modulators was accompanied by significant changes in body weight gain or survival of animals. On the whole, depending on the mechanisms involved, the comparative study of test compounds led to a broad array of effects on DMH carcinogenesis, ranging from complete inhibition to significant enhancement. The resulting picture can be visualized at a glance in Figure 1 of this article.     

Post-initiation effects of a super critical extract of propolis in a rat two-stage carcinogenesis model in female F344 rats

Post-initiation modifying effects of dietary administration of a super critical extract of propolis on major organs were examined using a two-stage carcinogenesis model. Groups of 21 or 22 F344 female rats were treated sequentially with 2,2'-dihydroxy-di-n-propylnitrosamine (DHPN, i.g.), 7,12-dimethylbenz[a]anthracene (DMBA, i.g.), 1,2-dimethylhydrazine (DMH, s.c.) and N-butyl-N-(4-hydroxybutyl)nitrosamine (BBN, in drinking water) during the first 3 weeks for initiation, and then administered diet containing 0.1 or 0.01% propolis for 33 weeks. Further groups were treated with the carcinogens alone, 0.1% propolis alone or basal diet alone. All surviving animals were killed at week 36, and major organs were examined histopathologically for development of preneoplastic and neoplastic lesions. The incidence and multiplicity of mammary carcinomas were significantly decreased by the 0.1 and 0.01% propolis treatments. In the urinary bladder, the incidence of PN hyperplasia but not tumors was, in contrast, significantly increased by 0.1% propolis. Similarly, the number and area of glutathione S-transferase placental form (GST-P)-positive liver foci were significantly elevated with this high dose. The results indicate that a low dose of a super critical extract of propolis may find application as a potent chemopreventor of mammary carcinogenesis.     

A new medium-term rat colon bioassay applying neoplastic lesions as endpoints for detection of carcinogenesis modifiers-validation with known modifiers

We have established a medium-term colorectal carcinogenesis rat model initiated with 1,2-dimethylhydrazine (DMH) followed by dextran sodium sulfate (DSS) treatment, featuring induction of neoplastic lesions within 10 weeks. In the present study, we examined its ability to detect modification of colon lesion development with 10- or 20-week experimental periods. F344 male rats were given three subcutaneous injections of DMH (40 mg/kg b.w.) in a week followed by free access to drinking water containing 1% DSS for a week. One week after this regimen, basal diet alone, basal diet containing 0.04% nimesulide or 2% lactoferrin as known inhibitors, 0.3% deoxycholic acid (DCA) as a promoter or 1.5% 1-hydroxyanthraquinone (1-HA) as a carcinogen were supplied. At week 10, the incidence and multiplicity of combined adenomas and adenocarcinomas were significantly (P < 0.05 or 0.01) decreased by nimesulide and lactoferrin, and values for adenomas were significantly (P < 0.01) increased in the 1-HA group. There was no clear change in the DCA group. At week 20, multiplicity and volume of the tumors were significantly (P < 0.01 or 0.05) decreased by nimesulide, but no effect was now evident with lactoferrin. Multiplicity and volume of tumors were significantly (P < 0.01) increased in 1-HA group and a similar tendency was apparent (P = 0.08) with DCA. It is concluded that this system offers a useful tool for detection of colorectal carcinogenesis modifiers within 10-20 weeks, pending further studies for verification employing other model chemicals.     

Carcinogenicity of 1,2-DimethyIhydrazine in Colorectal Tissue Heterotopically Transplanted into the Glandular Stomach of Rats

The present study was designed to examine the effect of the intestinal carcinogen 1,2-dimethyl-hydrazine (DMH) on grafted colorectal mucosa implanted into the glandular stomach of rats. Four groups were studied: Group 1 received the operation and DMH, Group 2 received the operation alone, Group 3 received DMH alone and Group 4 (controls) received only a sham operation. For Groups 1 and 2, about 8-mm diameter segments of colorectal tissue obtained from various sites in the large intestine of 8-week-old male F344 rats were isologously implanted into the fundic region of the stomachs of age-matched rats. DMH was injected at a dose of 20 mg/kg body weight i.m. per week for 20 weeks beginning 4 weeks after the operation. The animals were then observed for 8 months after the initial DMH treatment. In Group 1, adenocarcinomas developed in 41 of 60 successful implants (68%). Furthermore, poorly differentiated type tumors were observed in the grafts obtained from the rectum. This finding was contrary to that for intrinsic rectal tumors, all of which were well differentiated. The histochemical staining of mucin in the tissues from different sites of the large intestine revealed that sulfomucin, which normally exists essentially only in the intrinsic descending colon or rectum, was present in the grafts from the proximal ascending or ascending colon. No gastric tumors were observed in the control rats, which received either DMH or sham operations alone. Tumors in the intrinsic large intestine were observed only in rats that received DMH. These results indicate that colorectal mucosa implanted into the glandular stomach, like the intrinsic large intestine, is still sensitive to tumorigenesis caused by DMH.     

Carcinogenicity of 1,2-dimethylhydrazine in colorectal tissue heterotopically transplanted into the glandular stomach of rats.

The present study was designed to examine the effect of the intestinal carcinogen 1,2-dimethylhydrazine (DMH) on grafted colorectal mucosa implanted into the glandular stomach of rats. Four groups were studied: Group 1 received the operation and DMH, Group 2 received the operation alone, Group 3 received DMH alone and Group 4 (controls) received only a sham operation. For Groups 1 and 2, about 8-mm diameter segments of colorectal tissue obtained from various sites in the large intestine of 8-week-old male F344 rats were isologously implanted into the fundic region of the stomachs of age-matched rats. DMH was injected at a dose of 20 mg/kg body weight i.m. per week for 20 weeks beginning 4 weeks after the operation. The animals were then observed for 8 months after the initial DMH treatment. In Group 1, adenocarcinomas developed in 41 of 60 successful implants (68%). Furthermore, poorly differentiated type tumors were observed in the grafts obtained from the rectum. This finding was contrary to that for intrinsic rectal tumors, all of which were well differentiated. The histochemical staining of mucin in the tissues from different sites of the large intestine revealed that sulfomucin, which normally exists essentially only in the intrinsic descending colon or rectum, was present in the grafts from the proximal ascending or ascending colon. No gastric tumors were observed in the control rats, which received either DMH or sham operations alone. Tumors in the intrinsic large intestine were observed only in rats that received DMH. These results indicate that colorectal mucosa implanted into the glandular stomach, like the intrinsic large intestine, is still sensitive to tumorigenesis caused by DMH.     

The effect of 1,2-dimethylhydrazine (DMH) carcinogenesis on peripheral T cell subsets in the Wistar Furth rat

1,2-dimethylhydrazine (DMH)-induced colon cancer in Wistar/Furth (W/Fu) rats is analogous in many ways to human colorectal cancer. As part of our attempt to understand the immunobiology of these tumors, we have utilized the recently available monoclonal antibodies W3/25 and OX8 to monitor helper (Th) and suppressor (Ts) lymphocyte subpopulations. Normal untreated male W/Fu rats of less than 1 year of age were phenotyped (n = 43). The mean percentage of Th and Ts was 42 +/- 1 (mean +/- SEM) and 33 +/- 1, respectively. The mean Th/Ts ratio was 1.3 +/- 0.1. A Th/Ts equal to or greater than 1 is considered "normal" in the W/Fu rat. The DMH-treated rats (20 mg/kg/wk) were evaluated in initial experiments at various intervals after treatment. Rats studied 24 hours after a single DMH injection had no alterations in T cell subsets. Rats studied 28, 32, and 65 weeks after the start of 16 weekly DMH injections were found to have a decrease in the percentage of Th and a relative increase in Ts, with Th/Ts ratios of 0.6 +/- 0.2, 0.7 +/- 0.1, and 0.7 +/- 0.1, respectively (each P less than 0.01). In a separate experiment in which rats were studied after 4, 8, and 16 weeks of DMH injections, no alterations in T cell subsets were noted. Rats (n = 5) studied at 20 weeks after the start of DMH were found to have 41 +/- 3% Th and 36 +/- 2% Ts and a Th/Ts ratio of 1.2 +/- 0.1. Three of five rats were found to have adenocarcinomas. Four of five rats had Th/Ts less than 1. One rat with Th/Ts equal to 0.9 had metastatic disease. Rats studied at 25 weeks (n = 8) were found to have more advanced carcinomas (4/8) that were causing obstruction or bleeding in the animal. There was a significant decrease in Th and Ts in this group, with 24 +/- 3% and 26 +/- 3% respectively (P less than 0.001). The Th/Ts ratio for this group was 0.9 +/- 0.1 (P less than 0.01). In other experiments, rats were treated with DMH or placebo over a 16-week period and serially bled during and after treatment. No effect of DMH treatment on T cell subsets was noted. Repeated bleeding alone was noted to cause persistent alterations of T cell subpopulation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effects of green tea catechins in a rat multi-organ carcinogenesis model

The effects of dietary administration of green tea catechins(GTC) were examined using a multi-organ carcinogenesis model.Groups of 15 F344 male rats were initially treated with a singlei.p. administration of 100 mg/kg body wt N-diethyl-nitrosamine,4 i.p. administrations of 20 mg/kg body wt N-methylnitrosourea,4 s.c. doses of 40 mg/kg body wt 1, 2-dimethylhydrazine, togetherwith 0.05% N-butyl-N-(4-hydroxybutyl)nitrosamine for 2 weeksand then 0.1% 2, 2'-dihydroxy-di-n-propylnitrosamine for 2 weeks,both in the drinking water, for a total initiation period of4 weeks. GTC in the diet, at doses of 1.0 or 0.1%, was administeredfrom 1 day before and during carcinogen exposure, after carcinogenexposure or both during and after carcinogen exposure. Furthergroups of animals were treated with carcinogen, 1% GTC or basaldiet alone as controls. All animals were killed at the end ofweek 36, and all major organs examined histopathologically.The numbers of small intestinal tumors (adenomas and carcinomas)per rat were significantly reduced in the groups treated with1% GTC during (0.13 ± 0.35) and after carcinogen exposure(0.31 ± 0.48) and in those receiving 1% and 0.1% GTCboth during and after carcinogen exposure (0.14 ± 0.36,0.46 ± 0.97 respectively) as compared with the carcinogenalone group (1.07 ± 1.21). On the other hand, numbersof glutathione S-transferase placental form positive liver fociper cm2 were slightly but significantly increased in the groupstreated with 1 and 0.1% GTC during carcinogen exposure, 1% GTCafter carcinogen exposure and 1% GTC both during and after carcinogenexposure. The results indicated that while GTC inhibits smallintestinal carcinogenesis it slightly enhances hepatocarcinogenesisin a dose dependent manner when applied both during and aftercarcinogen exposure.     

Chemoprevention of 2-amino-1-methyl-6-phenylimidazo- [4,5-b]pyridine-induced colon carcinogenesis by 1-O-hexyl-2,3,5-trimethylhydroquinone after initiation with 1,2-dimethylhydrazine in F344 rats

The aim of this study is to investigate the chemopreventive effects of the synthetic phenolic antioxidant 1-O-hexyl-2,3, 5-trimethylhydroquinone (HTHQ) on 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP)-associated colon carcinogenesis in rats after initiation with 1,2-dimethylhydrazine (DMH) in male F344 rats. Groups of 20-22, 6-week-old male F344 rats were given four subcutaneous injections of 40 mg/kg body wt of DMH during the initial 4 weeks. They were then maintained on powdered basal diet containing 0.03% PhIP alone, PhIP together with 0.5 or 0.125% HTHQ, 0.5 or 0.125% HTHQ alone or basal diet for 32 weeks. A small number (1.1 +/- 1.1/rat) of colon tumors were induced by DMH treatment alone. After initiation with DMH, the number of colon tumors was greatly increased to 8.3 +/- 5.6 by the administration of PhIP. Additional treatment with HTHQ dose-dependently decreased the multiplicity of colon adenocarcinomas to 4.9 +/- 2.8 and 2.6 +/- 1.4 with 0.125 and 0.5%, respectively. This treatment similarly reduced atypical hyperplasias of the ventral prostate. Furthermore, HTHQ significantly reduced the multiplicity of duodenal adenocarcinomas induced by DMH + PhIP or DMH alone. Immunohistochemically, HTHQ was revealed to suppress PhIP-DNA adduct formation in the epithelial cells of the colon and prostate in a separate 2 weeks experiment. The present results clearly showed that HTHQ has chemopreventive potential for PhIP-associated colon and prostate carcinogenesis. The observed inhibition may largely be due to interference with PhIP-DNA adduct formation. In addition, HTHQ has been demonstrated to inhibit duodenal carcinogenesis in the post-initiation stage.     

Chemoprevention of colon carcinogenesis by dietary organoselenium, benzylselenocyanate, in F344 rats

The effect of feeding benzylselenocyanate (BSC) and its sulfur analogue, benzylthiocyanate (BTC), 2 wk before, during, and until 1 wk after carcinogen administration (initiation phase) on intestinal carcinogenesis induced by azoxymethane (CAS:25843-45-2) was studied in male F344 rats. Weanling rats were raised on a semipurified diet (AIN-76A diet; control diet). Beginning at 5 wk of age, groups of animals consuming the control diet were fed one of the diets containing 25 ppm BSC or BTC. An additional group was continued on the control diet. At 7 wk of age, all animals in 3 groups, except the vehicle-treated controls, were administered s.c. injections of azoxymethane (15 mg/kg body weight, once weekly for 2 wk). Animals were continued on the control diet and BSC and BTC diets until 1 wk after carcinogen treatment, when those groups receiving BSC and BTC diets were fed the control diet until termination of the experiment. Tissue and blood plasma glutathione peroxidase activity was measured in vehicle-treated animals fed the control diet and BSC and BTC diets for 5 wk. The results indicate that body weights were comparable among the various dietary groups. BSC in the diet significantly inhibited the incidence (percentage of animals with tumors) and multiplicity (tumors/animal) of adenocarcinomas in the colon and multiplicity of adenocarcinomas in the small intestine compared to those fed the control diet. BTC in the diet had no effect on colon and small intestinal tumors. Selenium-dependent glutathione peroxidase activity was significantly increased in kidneys and colon and small intestinal mucosae of animals fed the BSC diet compared to animals fed the BTC and control diets.     

Melatonin and colon carcinogenesis: I. Inhibitory effect of melatonin on development of intestinal tumors induced by 1,2-dimethylhydrazine in rats

The effect of pineal indole hormone melatonin on colon carcinogenesis was firstly studied in rats. Two-month-old outbred female LIO rats were weekly exposed to 15 (experiment 1, groups 1 and 2) or to five (experiment 2, groups 1 and 2) s.c. injections of 1,2-dimethylhydrazine (DMH) at a single dose of 21 mg/kg of body weight. From the day of the first injection of the carcinogen DMH, the rats from groups 2 (experiments 1 and 2) were given melatonin five days a week during the night-time (from 18:00 h to 8:00 h), dissolved in tap water at 20 mg/l. The experiment was finalized in 6 months after the first injection of DMH. In both experiments the majority of tumors were localized in the descending colon. Tumors of the small intestines developed only in rats from experiment 1. Total incidence of colon tumors as well as tumors in different parts of the colon and the mean number of tumors per rat were much higher in rats from both groups in experiment 1 than that in rats from experiment 2. In experiment 1 melatonin failed to influence the total incidence of colon tumors. However, incidence of carcinomas in the ascending colon was significantly reduced (P < 0.01). The multiplicity of total colon tumors per rat, as well as the mean number of tumors, ascending and descending colon per rat, was also decreased under the influence of melatonin (group 2 vs group 1, P < 0.01). In the same experiment, melatonin slightly decreased the depth of tumor invasion and increased number of highly differentiated colon carcinomas induced by DMH. The percentage of small tumours in the descending colon among rats from group 2 was higher than that of group 1. Treatment with melatonin was also followed by a decrease in the multiplicity of DMH- induced tumors of the duodenum (group 2 vs group 1, P < 0.05) and by a decrease in the incidence of jejunum and ileum tumors (group 2 vs group 1, P < 0.05). In experiment 2, the inhibitory effect of melatonin on DMH-induced colon carcinogenesis was much more expressed than that in experiment 1. Thus, in group 1 the incidence of total colon tumors, ascending and descending colon tumors, was significantly decreased in comparison with group 2; also melatonin reduced the number of tumors per rat in the ascending and descending colon. The number of colon tumors that invaded only mucosa was significantly higher in group 2 than in group 1, P < 0.05. The ratio of highly differentiated tumors was increased (P < 0.05) and the ratio of low-differentiated tumors was decreased (P < 0.05) in rats exposed to melatonin (group 4) as compared with group 3. The number of large size tumors in the ascending and descending colon was decreased whereas the number of small size tumors (<10 mm2) was increased in those parts of the colon that were under the influence of melatonin in experiment 2. Thus, our results demonstrate the inhibitory effect of melatonin on intestinal carcinogenesis induced by DMH in rats.      

Promotional effect of sodium barbiturate on intestinal tumors induced in rats by dimethylhydrazine.

Noninbred Sprague-Dawley rats were administered 1,2-dimethylhydrazine hydrochloride (DMH) by gavage or methylazoxymethanol acetate by sc inoculation. Thereafter, one group was given water to which 0.1% sodium barbiturate was added, and the other was given drug-free water. They were examined 20 weeks after onset of the experiments. A direct relationship was noted between dosage of DMH and numbers of intestinal tumors induced in the rats. The rats provided with sodium barbiturate-supplemented water developed more intestinal tumors than did those that drank drug-free water.     

Inhibitory effect of peptide Epitalon on colon carcinogenesis induced by 1,2-dimethylhydrazine in rats

The effect of synthetic pineal peptide Epitalon (Ala-Glu-Asp-Gly) on colon carcinogenesis was firstly studied in rats. Eighty 2-month-old outbred male LIO rats were subdivided into four groups and were weekly exposed to five subcutaneous injections of 1,2-dimethylhydrazine (DMH) at a single dose of 21 mg/kg body weight. Additionally, 5 days a week, some of the rats were given subcutaneous injections of saline at a dose of 0.1 ml during the whole experiment (group 1, control) or Epitalon at a single dose of 1 microg during the whole experiment (group 2), Epitalon after termination of carcinogen injections (group 3) or during the period of DMH exposure (group 4). Colon carcinomas developed in 90-100% of DMH-treated rats. The number of total colon tumors per rat was 4.1; 2.7; 3.7; 2.9 in groups 1, 2, 3, 4, respectively (the difference in groups 2 and 4 compared with group 1 is significant). In rats from group 2, colon tumors were smaller than in control animals. In group 2, the incidence, as well the multiplicity of tumors in ascending and descending colon, were significantly decreased in comparison with group 1. In group 4, the mean number of tumors per rat was significantly decreased, too. A trend to decrease the number of tumors in the rectum in rats from groups 2, 3 and 4, treated with Epitalon was found. Epitalon inhibited also the development of tumors in jejunum and ileum. Thus, our results demonstrated an inhibitory effect of Epitalon on chemically induced bowel carcinogenesis in rats.     

A fish oil derived concentrate enriched in eicosapentaenoic and docosahexaenoic acid as ethyl ester suppresses the formation and growth of intestinal polyps in the Min mouse

We examined whether the n-3 polyunsaturated fatty acid ethyl ester enriched fish oil K85 (54.4% of eicosapentaenoic acid and 30.3% of docosahexaenoic acid as ethyl esters) could inhibit the intestinal tumorigenesis in Min mice, a murine model of familial adenomatous polyposis (FAP). Min mice that are heterozygous for a nonsense mutation in the Apc gene, develop spontaneously multiple intestinal neoplasms, primarily in the small intestine. K85 was dissolved in corn oil (vehicle) and mixed into the AIN-76A diet. The total oil content (K85 + corn oil) was 12% in all diets. The various experimental diets contained 0 (vehicle control), 0.4, 1.25 or 2.5% of K85. In the small intestine, the mean number of tumors/mouse was 105 +/- 18 (SEM) in control males and 70 +/- 11 in control females. Dietary K85 treatment reduced the number of small intestinal tumors: in males, the maximum reduction was 66% (P = 0.002) with 0.4% of K85; and in females, the maximum reduction was 48% (P = 0.043) with 2.5% of K85, but the inhibition was only slightly increased from 0.4% to 2.5% of K85. The mean tumor diameter was 1.33 +/- 0.08 mm in control males and 1.06 +/- 0.08 in control females, and the diameter ranged from <0.1 mm (monocryptal adenomas) to 4 mm. The small intestinal tumor diameter was reduced by K85 in a dose-dependent manner: in males, with a maximum reduction of 26% (r = -0.64, P = 0.004); and in females, with a maximum reduction of 38% (r = -0.61, P < 0.004). In the large intestine, the mean number of tumors/mouse was 1.0 +/- 0.5 in males and 0.8 +/- 0.2 in females. Although K85 treatment tended to reduce the number and diameter of the large intestinal tumors, these effects did not reach statistical significance. Aberrant crypt foci not elevated from the flat mucosa (ACF(Min)) occurring in the colon of Min mice were also scored. The mean number of ACF(Min)/colon (3.8 +/- 0.9) and the crypt multiplicity (1.49 +/- 0.28) in females were reduced by 73% (P = 0.03) and 60% (P = 0.048) with 2.5% of K85, respectively, whereas no significant effect could be observed in the males.      

Chemoprevention of colon carcinogenesis by dietary administration of piroxicam, alpha-difluoromethylornithine, 16 alpha-fluoro-5-androsten-17-one, and ellagic acid individually and in combination.

The chemopreventive action of 40 and 80% maximum tolerated dose (MTD) levels of piroxicam, D,L-alpha-difluoromethylornithine (DMFO), 16 alpha-fluoro-5-androsten-17-one (DHEA analogue 8354), and ellagic acid (EA) administered in diet individually and in combination before and during initiation and postinitiation phases of azoxymethane-induced neoplasia of the intestine was studied in male F344 rats. The MTD levels of piroxicam, DFMO, DHEA analogue, and EA were determined in male F344 rats and found to be 500, 5,000, 500, and 10,000 ppm, respectively, in modified AIN-76A diet. When these agents were fed in combination, the MTD levels were: piroxicam plus DFMO, 250 and 2500 ppm; piroxicam plus DHEA analogue, 250 and 250 ppm; piroxicam plus EA, 250 and 5000 ppm; piroxicam plus DFMO plus DHEA analogue, 250, 2500, and 250 ppm; and piroxicam plus DFMO plus EA, 250, 2500, and 5000 ppm. From these MTD values, 40 and 80% MTD levels were calculated and tested for their efficacy. At 5 weeks of age, animals were fed the modified AIN-76A (control) diet and experimental diets containing 40 and 80% MTD levels of piroxicam, DFMO, DHEA analogue, and EA individually and in combination. At 7 weeks of age, all animals except the vehicle-treated groups were administrated s.c. injections of azoxymethane (15 mg/kg body weight/week for 2 weeks). Animals intended for vehicle treatment received s.c. injections of an equal volume of normal saline. Fifty-two weeks after azoxymethane and saline treatment all the animals were necropsied, and colon and small intestinal tumor incidence (percentage of animals with tumors) and multiplicity (tumors/animal) were compared among various dietary groups. The results indicate that 40 and 80% MTD levels of dietary piroxicam and DFMO significantly (P less than 0.001) inhibited colon and small intestinal tumor incidence and multiplicity. DHEA analogue at 40% MTD level significantly decreased the small intestinal and colon tumor incidences (P less than 0.05), whereas 80% MTD of DHEA analogue inhibited only small intestinal tumor incidence. EA at 40 and 80% MTDs had no significant effect on colon tumor incidence (P greater than 0.05), but 80% MTD of EA showed a significant inhibitory effect on the incidence of small intestinal adenocarcinomas (P less than 0.01). In the combination study, 40 and 80% MTD levels of piroxicam plus DFMO significantly (P less than 0.001) inhibited colon adenocarcinoma incidence (8.3%) and multiplicity (0.08 +/- 0.04) (SE) when compared to colon adenocarcinoma incidence (72.2%) and multiplicity (1.14 +/- 0.18) in control diet-fed animals.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effect of polyphenon-60 on the development of renal cell tumors in rats treated with N-ethyl-N hydroxyethylnitrosamine

Green tea consumed as a beverage in Asia contains polyphenols, which contain about a 15% mixture of catechins. The present paper reports the effect of polyphenon-60 (60% pure catechin) on the development of renal cell neoplasms in Wistar rats pretreated with N-ethyl-N-hydroxyethylnitrosamine (EHEN): 0.1% polyphenon-60 in block diet was given over a period of 30 weeks while EHEN was given in drinking water for 2 weeks. The results appears to show a tendency for green tea catechins (GTC) to decrease the incidence of renal cell tumors greater than 3 mm in diameter in Wistar rats but not tumors that are less than 3 mm in diameter. Polyphenon-60 did not affect EHEN initiation in the kidneys of rats. It is postulated that free radicals induced by EHEN may be suppressed by GTC, resulting in a lowering of the tendency for tumor growth.     

Chemoprevention of 2-amino-1-methyl-6-phenylimidazo[4, 5-b]-pyridine (PhIP)-induced mammary gland carcinogenesis by antioxidants in F344 female rats

Chemopreventive effects of the antioxidants 1-O-hexyl-2, 3,5-trimethylhydroquinone (HTHQ), 3-0-ethylascorbic acid (EAsA),3-O-dodecylcarbomethylascorbic acid (DAsA), green tea catechins(GTC) and ellagic acid on 2-amino- 1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP)-induced mammary carcinogenesis were examinedin female F344 rats. Groups of 20–21 6-week-old rats weremaintained on a powdered diet containing 0.02% PhIP alone, PhIPtogether with 0.5% HTHQ, 1% EAsA, 1% DAsA, 1% GTC or 0.1% ellagicacid, these antioxidants alone or basal diet alone without supplementfor 52 weeks. The survival rates of PhIP plus antioxidant groupsat the end of the experiment were higher than that of the PhIPalone group. Sequential observation of palpable mammary tumorsdemonstrated only one tumor by week 52 in the PhIP plus HTHQgroup, whereas 40% of the rats receiving PhIP alone had tumorsby this time point. The final incidence of mammary adenocarcinomaswas significantly decreased in the PhIP plus HTHQ group (4.8%,P<0.01) as compared to the PhIP alone value (40%). Althoughstatistically not significant, incidences of adenocarcinomasin the other antioxidant-treated groups (23.8–28.6%) werealso lower than in the PhIP alone group. Furthermore, the incidenceof large intestinal tumors in the PhIP plus HTHQ group (0%)showed a tendency to decrease relative to the PhIP alone group(16.7%). These results indicate that antioxidants, particularlyHTHQ, exert a potent chemopreventive action against PhIP-inducedcarcinogenesis.     

Prevention of 1,2-dimethylhydrazine-induced colon tumorigenesis y HMG-CoA reductase inhibitors, pravastatin and simvastatin, in ICR mice

3-Hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors,pravastatin (Pr) and simvastatin (Si), suppressed 1,2-dimethylhydrazine(DMH)-induced colon cancer development in female ICR mice. Allmice received an i.p. injection of 10 mg DMH/kg body wt onceweekly for 15 weeks. Pr was administered at 0.01, 0.005 and0.001% levels in drinking water, and Si at 0.01 and 0.002% levelsin the diet. All animals had access to Pr or Si throughout theexperiments which were terminated at weeks 25 or 30. Histologicallymost of the tumors were well-differentiated adenocarcinomas.The incidence of colon tumors examined at weeks 25 or 30 wasreduced by 67% in the 0.01% Pr group, by 30% in the 0.005% Prand .01% Si groups, and by 24% in the 0.001% Pr and .002% Sigroups, compared with their respective controls. However, thedifferences did not reach statistical significance. The numberof tumors per mouse was significantly reduced in all groupsadministered Pr and Si except the .001% Pr group as comparedto their respective controls. The results from those three independentexperiments seem to suggest that HMG-CoA reductase inhibitorsmay prevent colon tumorigenesis in laboratory animal model.     

Modification by five antioxidants of 1,2-dimethylhydrazine-initiated colon carcinogenesis in F344 rats

The effects of antioxidants given in the post initiation phaseof colon tumor development were investigated in male F344 ratstreated with 1 ,2-dimethylhydrazine (DMH). Animals (20/group)were given s.c. injections of DMH at a dose of 20 mg/kg oncea week for four consecutive weeks. One week after the last injection,rats were fed diet containing 5% sodium L-asorbate (SA), 0.5%butylated hydroxyanisole (BHA), 0.8% ethoxyquin (EQ), 1.0% propylgallate or 0.5% butylated hydroxytoluene (BHT) for 36 weeks.A control group was fed the basal diet not containing antioxidants.The experiment was terminated 40 weeks after the first injectionof DMH and all intestinal tumors were confirmed histologically.SA significantly increased the incidence of adenomas and thenumber of tumors per rat of the colon (especially of the distalcolon). Although EQ and BHT did not affect the number of ratswith colon tumors, the number of tumors per rat occurring inthe distal colon was significantly increased by EQ while beingdecreased by BHT. No modification of tumor development was observedwith BHA or PG. Thus, modification of tumor development by SA,EQ and BHT was apparent, mainly in the distal colon.