Influence of dietary components associated with high or low risk of colon cancer on apoptosis in the rat colon.

Although there is much epidemiological evidence for an interaction between diet and colorectal cancer risk, the mechanisms by which diet might protect against colorectal cancer are still unclear. Here we report the significant up-regulation of carcinogen-induced apoptosis in the colon of rats fed a diet containing low-risk factors for colon cancer, namely low fat content, high calcium and high non-digestible carbohydrate. The dose-dependent induction of apoptosis in colonic crypts by the carcinogen 1,2-dimethylhydrazine (DMH) was significantly greater in rats receiving the low-risk compared with a high-risk (high fat, low calcium, low non-digestible carbohydrate) diet (P<0.001). There were also significant interactions of colon region with DMH dose and region by diet, with the greatest increases in apoptosis occurring in the mid and distal regions of the colon compared with the proximal region. Since we have previously shown the low-risk diet to be non-toxic, these new results suggest a diet-induced up-regulation of apoptosis, which may represent a mechanism of protection against the early stages of carcinogenesis in the colon.

Effects of iron salts and haemosiderin from a thalassaemia patient on oxygen radical damage as measured in the comet assay.

Thalassaemia is a group of genetic diseases where haemoglobin synthesis is impaired. This chronic anaemia leads to increased dietary iron absorption, which develops into iron overload pathology. Treatment through regular transfusions increases oxygen capacity but also provides iron through the red cells' haemoglobin. An essential treatment, in parallel with transfusions, is the use of chelating agents to remove the excess iron deposited in tissues. These deposits are found in the liver, spleen, heart, and pancreas and are associated with cardiac failure and diabetes. The deposits in these tissues of patients have been isolated as haemosiderin. Thalassaemia patients are particularly at risk of free radical induced damage. Thus, the present study has investigated, as a model system, human cells in vitro in the Comet assay in the presence of free radicals. This assay measures DNA damage, particularly DNA strand breakage. The effects of iron overload on cells oxidatively stressed with hydrogen peroxide (H(2)O(2)) have been determined as well as the effect of the chelating agent, deferoxamine. Iron overload was simulated with ferric (FeCl(3)) and ferrous chloride (FeCl(2)), ferrous sulphate (FeSO(4)) and haemosiderins. Both human lymphocytes from a male and a female donor and human adenocarcinoma colonic cells showed an increase in DNA damage in the Comet assay after treatment with H(2)O(2). Ferric chloride produced an increase in DNA damage in human colonic cells, but little or no damage in human lymphocytes. Ferrous chloride also produced weak DNA damage in human lymphocytes, but ferrous sulphate produced a dose-related response. Deferoxamine produced no DNA damage. When H(2)O(2) was combined with FeCl(3), FeCl(2), or FeSO(4), the DNA damage produced was as least as great as or slightly greater than with H(2)O(2) alone. When deferoxamine was combined with H(2)O(2) and FeSO(4) there was a consistent decrease in response. There was little or no decrease in response when deferoxamine was combined with H(2)O(2) and FeCl(3) or FeCl(2), but at high (100-300microm) doses there were changes in the appearance of cellular DNA from Comet tails to dense centres surrounded by a diffuse area. This was probably as a consequence of chelation processes. Haemosiderin produced no damage. The three fractions of haemosiderin examined were of three different densities and from a Thai patient where the oxyhydroxide phase is the ferrihydrite. The colour change was similar to that for FeCl(3), but the level of the ferric ion in the haemosiderin was possibly too low in the sample to produce a response. The next stage is to examine peripheral lymphocytes from thalassaemic patients, with and without chelation therapy, whose cells may be more sensitive to simulated iron overload and to lower levels of haemosiderin. Teratogenesis Carcinog. Mutagen. 20:11-26, 2000.

The effect of potassium diazoacetate on human peripheral lymphocytes, human adenocarcinoma Colon caco-2 cells, and rat primary colon cells in the comet assay.

In previous studies, N-(N'-acetyl-L-propyl)-N-nitrosoglycine (APNG) has been shown to be a potent mutagen in a variety of genotoxicity assays and a carcinogen in a limited cancer study. APNG decomposes to a carboxymethyldiazonium ion, which can also be generated from potassium diazoacetate (KDA). KDA is particularly interesting because it is a stable nitrosated derivative of glycine, one of the most common dietary amino acids. KDA has been shown to produce more O6 carboxymethyl- and O6 methyl-adducts than APNG, so it was anticipated that it might also be a potent genotoxic agent. Thus in the present study KDA has been investigated in the single cell gel electrophoresis (Comet) assay, which primarily measures DNA strand breakage. Since KDA has been shown to be formed in the gut, the genotoxic effects of KDA were investigated in vitro in human adenocarcinoma colon Caco-2 cells, and in rat primary colon cells and compared to responses from human peripheral lymphocytes. KDA induced DNA damage in the three cell types, confirming that KDA is genotoxic in a range of mammalian cells.

Aflatoxin exposure and DNA damage in the comet assay in individuals from the Gambia, West Africa.

The single cell gel electrophoresis assay (Comet assay) was used to measure DNA damage in peripheral lymphocytes from a group of individuals from The Gambia in order to determine whether such damage could be associated with increased exposure to aflatoxin in this population. Responses obtained were correlated to responses previously obtained [1] in a cross-sectional study in the same individuals of various cytogenetic alterations [chromosomal aberrations, micronuclei (crest positive and negative staining), and sister chromatid exchanges], and aflatoxin-albumin adducts. Analysis of variance methods were used to assess the effects of smoking, GSTM1 genotype, sex, age, and smoking status. A comparison was also made between The Gambian individuals and a group of healthy, non-smoking volunteers in the United Kingdom where aflatoxin exposure would be expected to be low. From the earlier study [1], it was determined that the levels of the sister chromatid exchanges and micronuclei were higher in The Gambian group than in a European group where aflatoxin exposure was lower, but that there were no correlations between the adduct levels and the cytogenetic abnormalities at the individual level. In the present study, DNA damage as measured in the Comet assay was not significantly higher than in the healthy United Kingdom volunteers. In addition, there were no associations between cytogenetic damage, GSTM1 genotype, age, sex, lifestyle factors (smoking and aflatoxin exposure), and Comet response at the individual level. Comet response was higher in females than males in The Gambia if one outlier was excluded from analysis and not taking into account other sources of variability. It would appear that DNA damage as measured in the Comet assay in peripheral blood lymphocytes is not a sensitive genotoxic marker of aflatoxin exposure in this population.

Influence of diets containing high and low risk factors for colon cancer on early stages of carcinogenesis in human flora-associated (HFA) rats.

Germ-free rats colonised with a human intestinal flora were fed diets containing high risk (HR) or low risk (LR) factors for colorectal cancer, and putative biomarkers were evaluated in the colonic mucosa; (i) proliferation, (ii) 1,2-dimethylhydrazine (DMH)-induced aberrant crypt foci and (iii) DMH-induced DNA damage. The HR diet was high in fat (45% of calories) and low in calcium and fibre, reflecting levels characteristic of typical western diets. The LR diet was low in fat (<5% of calories), and high in calcium and fibre. The nutrient/energy ratio of the two diets were similar. Mucosal crypt cell proliferation, assessed after microdissection, was higher on the LR diet (mean number of mitoses per crypt was 2.65 on the LR diet, and 1.62 on the HR diet; P < 0.05). Aberrant crypt foci (ACF) were assessed in the mucosa 12 weeks after DMH treatment. On the HR diet there were significantly more small ACF with 1 and 2 crypts per focus, but fewer ACF with 3, 5 and 7 or more crypts per focus. There was no significant difference in total ACF or the total number of crypts. The effect of diet on DNA damage in the colon was assessed in vivo by the comet assay. Animals were fed a HR or LR diet for 12 weeks before treatment with DMH or saline. For carcinogen-treated animals, DNA damage was significantly higher in colon cells from animals on the HR diet. On the LR diet both DNA damage and the induction of small ACF were reduced despite an increase in cell proliferation. The increase in large ACF on the LR diet may be attributable to elevated crypt cell proliferation possibly increasing crypt fission rates.

Establishment and characterisation of new cell lines from human breast tumours initially established as tumour xenografts in NMRI nude mice.

Human breast cancer cell lines are required as models for use in the understanding of breast carcinoma, and for improving the ability of cell screens to detect appropriate anti-cancer agents. Four human breast cancer cell lines (MT-1, MaTu. MT-3 and MC4000) were established from human tumour xenografts grown in nude mice. All the lines were shown to be of human origin by karyotype analysis, were epithelial in morphology by both light and electron microscopy, were positive for cytokeratin 18, and were free from mycoplasma, bacterial, yeast and fungal contamination. All of the new lines were shown to be ER and PgR negative, while using the same procedures (i.e. radioligand binding and immunohistochemical staining) the positive control cell line MCF-7 was shown to be positive. MaTu had been previously reported as ER and PgR positive in vivo and it may be that this characteristic had been lost due to in vitro selection pressures. The growth rates of all the new breast cancer cell lines were similar and within the limits required for incorporation into a panel for screening anti-cancer drugs by a microtetrazolium based, colorimetric growth inhibition assay. Three of the lines (MT-1. MaTu and MC4000) were also able to grow into macroscopic colonies for use in a non-agar clonogenic assay. In addition, both MT-1 and MaTu formed spheroids and were clonogenic in soft-agar. The new lines demonstrated a wide range of sensitivities to anticancer agents commonly used in the treatment of breast cancer, and together with their corresponding xenografts are providing additional systems for the evaluation of new compounds.

Effects of high- and low-risk diets on gut microflora-associated biomarkers of colon cancer in human flora-associated rats.

Formulated diets associated with a high risk (HR) or low risk (LR) for colon cancer were used to assess the effect of diet on putative metabolic biomarkers in human flora-associated rats: The HR diet was high in fat and sucrose and low in calcium and fiber; the LR diet was low in fat and high in starch, calcium, and fiber. The nutrient-to-energy ratio and energy intake were the same for both diets. Body and liver weights were significantly higher in animals fed the HR diet, possibly due to greater energy availability from fat. Cecal weights were significantly higher in animals fed the LR diet, presumably due to a bulking effect of the fiber and increased bacterial biomass. The HR diet significantly altered cecal bacterial enzyme activity: beta-glucuronidase activity increased 2.5-fold, and beta-glucosidase activity was halved. Ammonia production and the bacterial metabolism of 2-amino-3-methyl-7H-imidazo[4,5-f] quinoline (IQ) to 7-hydroxy-IQ (7OHIQ) were significantly higher in animals fed the HR diet. The HR diet, which contained factors common to diets consumed throughout the Western world, increased beta-glucuronidase activity, elevated cecal ammonia concentrations, and enhanced the genotoxic risk from 7OHIQ formation, three putative metabolic biomarkers of colorectal cancer. The significance of the reduction in beta-glucosidase is unclear.

Genotoxic activity in human faecal water and the role of bile acids: a study using the alkaline comet assay.

Human faecal waters from 35 healthy non-smoking volunteers (23 from England and 12 from Sweden) consuming their habitual diet were screened for genotoxicity by the single-cell gel electrophoresis (comet) assay using a human colon adenocarcinoma cell line (CACO-2) as the target. Hydrogen peroxide induced DNA damage was categorized as low, intermediate or high for tail moments greater than 5, 17 and 32, respectively: 11 samples were highly genotoxic, four were intermediate, one was low and 19 showed no activity. Endonuclease III treatment significantly increased DNA damage for all except the non-genotoxic faecal waters, suggesting that faecal water genotoxicity may be due, at least in part, to oxidative damage. Faecal water cytotoxicity has previously been attributed to the bile and fatty acid content. In the comet assay no DNA damage was induced by deoxycholate or lithocholate at normal physiological concentrations, suggesting that the genotoxicity of faecal water was due to other substances. Both bile acids induced DNA damage above 300 microM, levels often found in patients with colonic polyps and there was a significant increase in genotoxicity after endonuclease III treatment indicative of oxidative DNA damage.