The relevance of monitoring of antibodies against the polycyclic aromatic hydrocarbon (PAH) and PAH-DNA adducts in serum in relation to lung cancer and chronic obstructive pulmonary disease (COPD).

Certain substances from the polycyclic aromatic hydrocarbons (PAHs) group are major inducers of respiratory tract carcinogenesis. The presented are the results of a serological epidemiological study aimed at monitoring the levels of anti-PAH antibodies and antibodies to PAH-DNA adducts in serum. The patients studied belonged both to the group of those with known lung disease (COPD and lung cancer), as well as to the healthy population of people who due to the work conditions or those at the place of residence can expect increased exposure to PAHs. In addition to the results proper that confirm increase of the genotoxic exposure risk to PAH in smoke-polluted places of residence and other PAH polluted environments. There has also been proved the relevance of still commonly used markers (DNA adducts), as well as the suitability of new markers, more favourable from the economic and practical viewpoints (anti-benzo(a)pyrene-7,8-dihydrodiol-9,10-epoxide-DNA [anti-BPDE-DNA], anti-Benzo(a)pyrene antibodies of the IgA class).

Reduction of DNA-damaging effects of anti-HIV drug 3'-azido-3'-dideoxythymidine on human cells by ursolic acid and lignin biopolymer.

In this study we verified our assumption that the genotoxicity of the effective anti-HIV drug 3'-azido-3'-dideoxythymidine (AZT) on human cells could be reduced by non-toxic concentrations of two antioxidants that occur frequently in nature (ursolic acid and lignin biopolymer). Cytotoxicity of these natural compounds, well-known by their antimutagenic effects, was evaluated by the trypan blue exclusion technique. Genotoxic activity of AZT was measured on the basis of AZT-induced single and double strand breaks to DNA in two histopathologically different types of human cells, hepatoma cells HepG2 and colonic cells Caco-2. Induction of DNA strand breaks was measured by the comet assay processed in parallel at pH > or = 13.0 (standard alkaline technique which enables to recognize single strand DNA breaks of different origin) and at pH = 9.0 (neutral technique which enables to recognize double strand DNA breaks). As the level of AZT-induced double strand DNA breaks was rather low, protective effects of the antioxidants tested were evaluated only against AZT-induced single strand DNA breaks by the standard alkaline comet assay. Our findings showed that 1 h pre-incubation of cells with ursolic acid or lignin preceding to 3 h treatment of cells with AZT (3 mg/ml) significantly decreased in both cell types the level of AZT-induced single strand DNA breaks. Pre-incubation of HepG2 or Caco-2 cells with a mixture of both natural antioxidants did not increase the effects of individual treatments. This study confirms that AZT is genotoxic toward both used cell types of human origin and that ursolic acid and biopolymer lignin can protect the cells studied against genotoxic effect of AZT.

Carboxymethyl chitin-glucan enriched diet exhibits protective effects against oxidative DNA damage induced in freshly isolated rat cells.

The connection between dietary intake of carboxymethyl chitin-glucan (CM-CG, approximately 200 mg/kg body weight, during 21 days) and the response of freshly isolated rat cells to genotoxic treatment with a combination of photosensitizer Methylene Blue and visible light (MB+VL) was evaluated in presented study. Blood lymphocytes, testicular cells, and hepatocytes were isolated from rats fed by a standard or CM-CG enriched diet and in ex vivo conditions challenged with oxidative agent. Induced DNA damage was assessed using a modified comet assay. When added to the diet, CM-CG itself did not induce any negative effect on the health condition of animals or on level of DNA breaks in rat cells. Moreover, the cells isolated from CM-CG fed animals were more resistant to oxidative stress induced by visible light-excited Methylene Blue. In conclusion, we have demonstrated that carboxymethyl chitin-glucan represents a natural fungal polysaccharide that is able to exert antimutagenic properties upon application in diet.

Diet containing fungal (1-->3)-beta-D-glucan derivative exhibits protective effects against DNA lesions induced in freshly isolated rat cells.

Dietary effect of water-soluble derivative - carboxymethyl chitin-glucan (CM-CG) on the level of DNA lesions induced by hydrogen peroxide (H2O2) was examined in ex vivo experiments. Lymphocytes, testicular cells, alveolar macrophages and epithelial II cells were isolated from Sprague Dawley rats fed a common or CM-CG enriched diet (200 mg/kg of body weight) during 21 days. Freshly isolated cells were in in vitro conditions exposed to H2O2 and the levels of DNA breaks were evaluated by single cell gel electrophoresis. A dose-dependent increase of DNA breaks was observed after treatment with hydrogen peroxide in all studied cell types. The levels of DNA breaks in cells isolated from CM-CG supplemented animals were lower compared to the levels of DNA breaks in cells isolated from animals fed a common diet. Intake of CM-CG enriched diet did not increase the level of DNA damage in different kinds of freshly isolated rat cells and equipped the cells with resistance to the treatment with hydrogen peroxide.

Repair of oxidative DNA lesions in blood lymphocytes isolated from Sprague-Dawley rats; the influence of dietary intake of lignin.

Living organisms possess a variety of self-protective mechanisms which decrease the free radical attack on DNA and so reduce the risk of cancer. Protection of DNA by endogenous antioxidant systems may be significantly increased by numerous exogenously administered antioxidants. Many of them represent important dietary factors. Biopolymer lignin with its phenolic structure can be included into this group of micronutrients. The aim of the present work was to investigate: 1. the effect of biopolymer lignin, given to Sprague-Dawley (SD) rats in diet, on the level of oxidative DNA lesions induced by oxidative stress in freshly isolated peripheral blood lymphocytes in vitro and 2. the influence of lignin on kinetics of rejoining of DNA strand breaks induced in lymphocytes under these conditions. As model oxidative agents were used H2O2 and visible light in the presence of the photosensitizer Methylene Blue. We found out that dietary intake of lignin caused a significant decrease of H2O2-induced DNA strand breaks and visible light-induced oxidative DNA lesions in freshly isolated rat lymphocytes, but it did not influence the kinetics of rejoining of DNA strand breaks.

Oxidative/antioxidative effects of different lignin preparations on DNA in hamster V79 cells.

Endogenous oxidative damage to DNA is thought to be an important etiologic factor in the development of chronic diseases such as cancer. Many products of the vegetable kingdom have been suggested to limit oxidative damage to DNA in humans. To this group belong lignins, polyphenols present in all plants (including edible plants). The aim of this study was to examine oxidative/antioxidative effects of different lignin preparations on mammalian DNA. In addition to a water-soluble sulfur-free lignin 1 which was obtained by fractionation of hardwood hydrolysate, we investigated lignin 2 (obtained by oxidation of lignin 1), lignin 3 (prepared by the extraction of lignin 2 with a mixture ethanol-water 3:1), lignin 4 (Na-salt of lignin 3) and lignin 5 (prepared by extraction of lignin 2 with diethylether). Our results showed that only the original lignin 1 did not increase substantially the level of DNA damage. Lignins 2, 3, 4 and 5 increased both the level of frank DNA strand breaks + alkali-labile sites and the level of FPG-sensitive sites representing oxidative damage to DNA. Lignin 1 was further tested for its antioxidative activity against DNA base modifications generated by visible light+photosensitizer. Obtained results confirmed the oxygen species-scavenging activity of lignin 1.

Detection of lignin biopolymer- and vitamin E-stimulated reduction of DNA strand breaks in H2O2- and MNNG-treated mammalian cells by the comet assay.

In this study the possible protective effects of water-soluble sulfur-free lignin biopolymer and vitamin E (alpha-tocopherol) on DNA in human VH10 cells and hamster V79 cells exposed to H2O2 and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) were investigated. The level of DNA damage (DNA strand breaks) was measured using single-cell gel electrophoresis, i.e., comet assay. Lignin biopolymer and vitamin E exhibited a protective effect against the overall DNA damage induced after H2O2 treatment. If H2O2-treated human cells were incubated for 90 minutes to ligate frank breaks of DNA, two lesion-specific enzymes, endonuclease III and formamidopyrimidine DNA glycosylase (FPG), significantly increased the level of DNA strand breaks originating from oxidized pyrimidines and purines. Preincubation of cells with lignin or vitamin E reduced mainly the level of oxidized pyrimidines. Reduction of oxidized purines was less evident. In addition, lignin biopolymer exhibited a protective effect against MNNG-induced DNA damage, whereas vitamin E exhibited a protective effect only against H2O2-induced DNA damage. These findings suggest that the antioxidant nature of lignin biopolymer enables a reduction of the level of frank breaks and of oxidized DNA bases in H2O2-treated cells, and its adsorptive capacity enables binding of nitroso compounds and reduction of alkylation in MNNG-treated cells.