Daniel Duarte da Conceição Miranda

Protective effects of mate tea (Ilex paraguariensis) on H2O2-induced DNA damage and DNA repair in mice

Yerba mate (Ilex paraguariensis) is rich in several bioactive compounds that can act as free radical scavengers. Since oxidative DNA damage is involved in various pathological states such as cancer, the aim of this study was to evaluate the antioxidant activity of mate tea as well as the ability to influence DNA repair in male Swiss mice. Forty animals were randomly assigned to four groups. The animals received three different doses of mate tea aqueous extract, 0.5, 1.0 or 2.0 g/kg, for 60 days. After intervention, the liver, kidney and bladder cells were isolated and the DNA damage induced by H(2)O(2) was investigated by the comet assay. The DNA repair process was also investigated for its potential to protect the cells from damage by the same methodology. The data presented here show that mate tea is not genotoxic in liver, kidney and bladder cells. The regular ingestion of mate tea increased the resistance of DNA to H(2)O(2)-induced DNA strand breaks and improved the DNA repair after H(2)O(2) challenge in liver cells, irrespective of the dose ingested. These results suggest that mate tea could protect against DNA damage and enhance the DNA repair activity. Protection may be afforded by the antioxidant activity of the mate teas bioactive compounds.

Analysis of Oxidative DNA Damage in Patients with Colorectal Cancer

PURPOSE The aim of this study was to measure the levels of oxidative DNA damage in cells isolated from the colon mucosa in patients with colorectal cancer and to compare normal and neoplastic tissues and make correlations with anatomopathologic variables. PATIENTS AND METHODS Thirty-three patients with colorectal adenocarcinoma were studied. The oxidative DNA damage was evaluated by means of the alkaline version of the comet assay. RESULTS For all the patients studied, it was found that the cells obtained from the neoplastic tissue presented oxidative DNA damage greater than in the cells from normal tissue. The cells isolated from the neoplastic mucosal tissue of the colon presented significantly greater mean extent of DNA strand breakage than the cells isolated from normal tissue. Additionally, the patients at earlier stages of the Dukes and TNM classifications presented higher levels of oxidative damage than those at more advanced stages. CONCLUSION Assessment of the levels of oxidative damage at the different stages of colorectal carcinogenesis is of great interest because it enables evaluation of the effectiveness of antioxidant substances that could be used as preventive measures against the initial oxidative aggressive action on the colonic mucosa.

The importance of oxygen free radicals in the etiopathogenesis of diversion colitis in rats.

PURPOSE Quantify the levels of oxidative DNA damage of epithelial colon cells comparing segments with and without fecal stream. METHODS Sixty Wistar rats were subjected to deviation of fecal stream by proximal colostomy and a distal mucosal fistula. Animals were divided into three experimental groups that were sacrificed 6, 12 and 24 weeks after surgery. In each experimental group, five animals underwent laparotomy without intestinal deviation (sham subgroup). The diagnosis of colitis was made by histopathological analysis and the inflammatory activity index by graduated scale. The neutrophil infiltration was determined by myeloperoxidase tissue levels and the intensity of oxidative DNA damage by comet assay. The Mann-Withney and Student t test were used to compare the results among experimental subgroups and the Kruskal-Wallis test for variance analysis, adopting a significance level of 5% (p<0.05). RESULTS Colon segments without fecal stream was shown higher histological inflammatory score of the colon wall after 12 and 24 weeks (p=0.001) that increased with the time of diversion (p=0.01). The activity of myeloperoxidase in segments without fecal stream decreased with the time (p=0.001). Oxidative DNA damage levels were significantly higher in the segments without fecal stream, (p=0.0001), independent of time of colon diversion, and increase with the time (p=0.0007). CONCLUSIONS Colon segments without fecal stream showed high levels of oxidative DNA damage related to histological alterations observed in diversion colitis. The levels of oxidative DNA damage in segments devoid of the fecal stream increase with the time of intestinal exclusion.

Attenuation of colitis injury in rats using Garcinia cambogia extract

Inflammatory bowel disease (IBD), Crohns disease and ulcerative colitis are chronic enteropathies that probably result from a dysregulated mucosal immune response. These pathologies are characterized by oxidative and nitrosative stress, leukocyte infiltration and up‐regulation of pro‐inflammatory substances. Current IBD treatment presents limitations in both efficacy and safety that stimulated the search for new active compounds. Garcinia cambogia extract has attracted interest due to its pharmacological properties, including gastroprotective effects. In this study, the antiinflammatory activity of a garcinia extract was assessed in TNBS‐induced colitis rats. The results obtained revealed that garcinia administration to colitic rats significantly improved the macroscopic damage and caused substantial reductions in increases in MPO activity, COX‐2 and iNOS expression. In addition, garcinia extract treatment was able to reduce PGE2 and IL‐1β colonic levels. These antiinflammatory actions could be related to a reduction in DNA damage in isolated colonocytes, observed with the comet assay. Finally, garcinia extract caused neither mortality nor toxicity signals after oral administration. As such, the antiinflammatory effects provided by the Garcinia cambogia extract result in an improvement of several parameters analysed in experimental colitis and could provide a source for the search for new antiinflammatory compounds useful in IBD treatment. Copyright

Inflammatory alterations in excluded colon in rats: A comparison with chemically induced colitis

Abstract Diversion colitis occurs commonly in the large bowel remnant after diversion of the fecal stream. Several experimental models of colitis have been described, but none examine the inflammatory alterations that can occur in experimentally defunctioned colons. This characterization could be useful in understanding pathophysiological aspects of diversion colitis, and in developing future therapeutic strategies. Thus, we evaluated the temporal inflammatory alterations in the defunctioned colon of rats by analyzing the histological results, infiltrating neutrophils, pro-inflammatory markers such as cyclooxygenase (COX)-2 and inducible nitric oxide synthase (iNOS), and DNA damage in isolated colonocytes. We compared the obtained data with those from hapten-induced colitis. The experimental diversion of the colon fecal stream induces diversion colitis characterized by an early inflammatory process with increased neutrophil infiltrate, and COX-2 and iNOS expression that resembles, in some aspects, the inflammatory characteristics of chemically induced colitis. After acute inflammation resolution, there was an increase in COX-2 and iNOS expression and the presence of lymphoid follicular hyperplasia and ulcerations, suggesting that diversion colitis can be experimentally established and useful for studying different pathophysiological aspects of this condition.

Avaliação do dano oxidativo ao DNA de células normais e neoplásicas da mucosa cólica de doentes com câncer colorretal

Oxidative stress on mucosal cells of the colon, resulting from the action of free radicals present in the intestinal lumen, represents one of the initial phenomena in colorectal carcinogenesis, because it may induce gene mutations relating to cell cycle control. Quantification of the oxidative damage to the DNA in colorectal cancer patients has been little studied so far. OBJECTIVE: To measure the levels of oxidative damage to the DNA in cells isolated from the colon mucosa in colorectal patients, and to compare normal and neoplastic tissues and make correlations with anatomopathological variables. METHOD: Thirty colorectal adenocarcinoma patients (eighteen women) of mean age 60.6 ± 15.5 years who consecutively underwent operations performed by the same surgical team between 2005 and 2006 were studied. The oxidative damage to the DNA was evaluated by means of the alkaline version of the comet assay (single-cell gel electrophoresis), from fragments of normal and neoplastic colon tissue that were obtained immediately after removal of the surgical specimen. The extent of breakages of the DNA helices was assessed using an image intensification method, on 200 randomly chosen cells (100 from each tissue sample), by means of the Komet 5.5 program. The Tail Moment (T.M) measured in each cell quantitatively represented the extent of the oxidative damage to the DNA. The statistical analysis on the variables considered was performed by means of the Student t, chi-squared and Kruskal-Wallis tests, with a significance level of 5% (p<0.05). RESULTS: It was found that, for all the patients studied, the cells obtained from the neoplastic tissue presented oxidative damage to the DNA that was greater than in the cells from normal tissue. The cells isolated from the neoplastic mucosal tissue of the colon presented extension of DNA strand breakage significantly greater (T.M. = 2.532 ± 0.945) than did the cells isolated from normal tissue (T.M. = 1.056 ± 0.460) (p=0.00001; C.I. 95%: -1.7705 to -1.1808). It was found that the patients at earlier stages of the Dukes and TNM classifications presented higher levels of oxidative damage than did those at more advanced stages (p=0.04 and p=0.001, respectively). CONCLUSIONS: The cells obtained from normal tissue of colorectal cancer patients presented signs of oxidative damage to the cell DNA, although at significant lower levels than in the neoplastic cells.

The effects of oxidative DNA damage and mutations in the p53 protein on cells of the colonic mucosa with and without the fecal stream: an experimental study in rats

Abstract Objective. The aim of this study was to investigate the levels of oxidative DNA damage and p53 mutations in an experimental model of diversion colitis. Material and methods. Sixty rats were divided into three groups with 20 animals in accordance with the sacrifice was carried out 6, 12 and 18 weeks. For each group, 15 animals were subjected to diversion of the fecal stream through colostomy in the left proximal colon and distal mucous fistula (experimental group), and five to a laparotomy without deviation of the fecal stream (control group). The presence of colitis was evaluated by inflammatory grading scale. Mutations in the p53 protein were evaluated by immunohistochemistry with primary antibody with cross-reactivity for rats. The oxidative DNA damage was measured using the comet assay. To statistical analysis were used the Students t, Mann-Whitney and Kruskal-Wallis test adopting a significance level of 5% (p < 0.05). Results. Colon segments without fecal stream showed greater degree of inflammation when compared to animals with preserved fecal stream (p = 0.01). The levels of oxidative stress were significantly higher in segments without fecal stream (p < 0.0001) and increased with the time of fecal diversion (p = 0.007). The levels of oxidative DNA damage are directly related to tissue degree of inflammation. There were no mutations in the p53 protein in the segments without fecal stream regardless of time of exclusion considered. Conclusion. Despite higher levels of oxidative damage to nuclear DNA on segments without fecal stream that developed colitis mutations in the p53 protein were not detected.

Avaliação da expressão tecidual do gene de reparo MLH1 e dos níveis de dano oxidativo ao DNA em doentes com câncer colorretal

The oxidative DNA damage caused by oxygen free radicals is one of the most important mechanisms responsible for the initial steps of colorectal carcinogenesis. The oxidative stress can cause errors in the pairing of nitrogenous bases that form the DNA, allowing mutations in controlling genes of the cell cycle. The cells have a defense system represented by the DNA mismatch repair genes that correct the errors of matching prevent the development of DNA mutations. Few studies have evaluated the relationship between oxidative DNA damage and the tissue expression of mismatch repair genes. AIM: The aim of the present study was evaluate the levels of oxidative DNA and the tissue expression of MLH1 mismatch repair gene in the cells of normal and neoplastic colonic mucosa of patients with colorectal cancer. MATERIAL AND METHODS: Were studied 44 patients with diagnosis of colorectal adenocarcinoma. Were excluded patients with hereditary colorectal cancer, with colorectal cancer associate with inflammatory bowel diseases and those undergoing neoadjuvant radioquimiotherapy. To evaluate the levels of oxidative DNA damage was used the single cell gel electrophoresis (comet assay) evaluating 100 cells obtained from normal and neoplastic tissues. For the evaluation of the tissue expression of MLH1 gene was employed the technique of polymerase chain reaction in real time (RT-PCR) with primer specifically designed for MLH1 gene. The comparison among the levels of DNA oxidative stress and expression of MLH1 mismatch repair gene in normal and neoplastic tissues was done by Student t test adopting a significance level of 5% (p< 0.05). RESULTS: The levels of oxidative DNA damage in tumor tissue were significantly higher when compared to the level of the normal tissue (p = 0.0001). The tissue expression of MLH1 mismatch repair gene in tumor tissue was significantly lower when compared to normal tissue (p=0.02). CONCLUSION: The mismatch repair gene MLH1 are less expressed in tumor tissue and inversely related to levels of oxidative DNA damage.