Anna Lewinska

TOTAL ANTI-OXIDANT CAPACITY OF CELL CULTURE MEDIA

1 The composition of synthetic cell culture media is important for the behaviour of cultured cells in vitro and may affect the results of many in vitro experiments. The total anti‐oxidant capacity (TAC) of an extracellular medium may be an important factor in cell redox homeostasis. 2 In the present study, the TAC of cell culture media used for the cultivation of mammalian, yeast and bacterial cells (RPMI1640, Iscoves modified Dulbeccos medium, Dulbeccos modified Eagles medium, minimum essential medium Eagles 1959 with Earles salts, Parker medium 199 with Hanks salts, bacterial Luria‐Bertani medium, yeast extract‐peptone‐glucose and yeast nitrogen base media) was estimated using the 2,2′‐azinobis(3‐ethylbenzthiazoline‐6‐sulphonic acid) (ABTS·+) decolourization assay and the ferric ion reducing anti‐oxidant power assay. 3  We found that components of the media such as cysteine, tyrosine, tryptophan and Phenol Red are important contributors to the TAC of cell culture media.

Nanodiamond-mediated impairment of nucleolar activity is accompanied by oxidative stress and DNMT2 upregulation in human cervical carcinoma cells

Because applications of nanomaterials in nanomedicine and nanotechnology are rapidly increasing, nanodiamond (ND) health risk assessment is urgently needed. In the present study, we used HeLa cell model to evaluate nanodiamond biocompatibility. We found ND-mediated cytotoxicity, proliferation inhibition and oxidative stress. Conversely, ND-associated genotoxicity was limited to higher concentrations used. Nanodiamond was also recognized as a hypermethylating agent. ND-associated redox imbalance contributed to nucleolar stress: size and number of nucleoli were affected, and release of nucleolar protein RRN3 occurred. Surprisingly, we did not observe stress-induced RNA depletion. In contrast, RNA was stabilized: total RNA level and integrity (28S/18S rRNA ratio) were unaffected. After nanodiamond treatment, upregulation of DNA methyltransferase 2 (DNMT2) was shown. Perhaps, DNMT2, as a part of the regulatory loop of metabolic pathways through RNA methylation, may contribute to RNA stabilization and confer stress resistance after nanodiamond treatment. In conclusion, using HeLa cell model, we showed that ND biocompatibility is limited and special care should be taken when introducing ND-based biomaterials to biological systems.

Diosmin induces genotoxicity and apoptosis in DU145 prostate cancer cell line

Plant-derived dietary polyphenolic compounds, such as flavonoids, with cancer cell-specific pro-apoptotic activity and chemopreventive potential are thought to be promising anticancer agents. In the present study, we were interested in determining if flavonoid-induced genotoxicity may also provoke cancer cell death. Cyto- and genotoxicity of three selected flavonoid glycosides (naringin, diosmin and hesperidin) in DU145 prostate cancer cell line were investigated. Flavonoid glycosides decreased cancer cell number and proliferative activity in a different manner. Flavonoid glycosides induced oxidative stress: intracellular total ROS and superoxide production were augmented after flavonoid treatment. Flavonoid glycosides stimulated DNA double strand breaks (DSBs) and micronuclei production. Diosmin was found the most potent genotoxic agent in DU145 cells, which, in turn, resulted in its pro-apoptotic activity. The more robust recruitment of 53BP1 was correlated with lower DNA and chromosomal damage after naringin and hesperidin treatment compared with diosmin treatment. Flavonoid glycosides were also found to be DNA hypomethylating agents with an ability to modulate cancer cell epigenome leading to changes in the gene expression patterns. Taken together, diosmin, a dietary flavonoid glycoside, was found active against DU145 cells by promoting genotoxic events and a concomitant apoptotic cell death. Thus, a comprehensive analysis of biological activity of diosmin against cancer cells both in vitro and in vivo deserves further investigation.

Yeast flavohemoglobin protects against nitrosative stress and controls ferric reductase activity

Abstract The role of Saccharomyces cerevisiae flavohemoglobin (Yhb1) is controversial and far from understood. This study compares the effects of nitrosative and oxidative challenge on the yeast mutant lacking the YHB1 gene. Growth of the mutant was impaired by nitrosoglutathione and peroxynitrite, whereas increased sensitivity to reactive oxygen species was not observed. Increased levels of intracellular NO• after incubation with NO• donors were found in the mutants cells as compared to the wild-type cells. Deletion of the YHB1 gene was found to augment the reduction of Fe3+ by yeast cells which suggests that flavohemoglobin participates in regulation of the activity of plasma membrane ferric reductase(s).

Curcumin-mediated decrease in the expression of nucleolar organizer regions in cervical cancer (HeLa) cells

Curcumin, the major yellow-orange pigment of turmeric derived from the rhizome of Curcuma longa, is a highly pleiotropic molecule with the potential to modulate inflammation, oxidative stress, cell survival, cell secretion, homeostasis and proliferation. Curcumin, at relatively high concentrations, was repeatedly reported to be a potent inducer of apoptosis in cancer cells and thus considered a promising anticancer agent. In the present paper, the effects of low concentrations of curcumin on human cervical cancer (HeLa) cells were studied. We found curcumin-mediated decrease in the cell number and viability, and increase in apoptotic events and superoxide level. In contrast to previously shown curcumin cytotoxicity toward different cervical cancer lines, we observed toxic effects when even as low as 1 μM concentration of curcumin was used. Curcumin was not genotoxic to HeLa cells. Because argyrophilic nucleolar protein (AgNOR protein) expression is elevated in malignant cells compared to normal cells reflecting the rapidity of cancer cell proliferation, we evaluated curcumin-associated changes in size (area) and number of silver deposits. We showed curcumin-induced decrease in AgNOR protein pools, which may be mediated by global DNA hypermethylation observed after low concentration curcumin treatment. In summary, we have shown for the first time that curcumin at low micromolar range may be effective against HeLa cells, which may have implications for curcumin-based treatment of cervical cancer in humans.

Cadmium-induced changes in genomic DNA-methylation status increase aneuploidy events in a pig Robertsonian translocation model.

Although cadmium is a well-established human carcinogen, the mechanisms by which it induces cancer are poorly understood. It is suggested that cadmium-mediated carcinogenesis may include the modulation of gene expression and signal-transduction pathways, interference with antioxidant enzymes, inhibition of DNA repair and DNA methylation, and induction of apoptosis. Nevertheless, no predominant mechanism playing a role in metal-induced carcinogenesis has been reported. In the present study, we used a pig Robertsonian translocation model, which is a cross between a wild boar and domestic pig resulting in Robertsonian translocation (37,XX,der15;17 or 37,XY,der15;17), to determine the role of cadmium sulfate in the modulation of genomic DNA-methylation status and the induction of aneuploidy. We found a cadmium-mediated increase in aneuploidy within chromosome group A and C, but not within chromosome group D containing the translocated chromosome der15,17 which indicates that translocated chromosome is not more prone to chromosomal aberrations than are other chromosomes. We suggest that cadmium-induced aneuploidy (up to 5-μM concentration) may be mediated by global DNA hypermethylation as monitored with HPLC and 5-mdC immunostaining. In addition, the cyto- and genotoxic potential of cadmium was evaluated. Cadmium sulfate was able to induce apoptosis, inhibit cell-proliferative status and expression of nucleolar organizer regions (NORs), and increase oxidative DNA damage (8-oxoG content).

A role for yeast glutaredoxin genes in selenite-mediated oxidative stress

Since the double Deltagrx1Deltagrx2 mutant is hypersensitive to selenite we decided to evaluate mechanisms underlying this phenomenon and establish the roles of other components of yeast glutaredoxin system, in particular glutaredoxin 5 in the selenite resistance. We found elevation in the intracellular and mitochondrial superoxide production in the Deltagrx1Deltagrx2 and Deltagrx5 mutants after Se(IV) treatment. The last effect was more pronounced for cells lacking the mitochondrial Grx5 protein. We also recorded selenite-induced increase in the peroxide production in all strains tested. Nonfermentable carbon sources, glycerol and ethanol, augmented selenite toxicity. Hypo- and anoxia protected against the harmful effects of Se(VI). Augmentation of the intracellular levels of two endogenous antioxidants, erythroascorbic acid and glutathione confers resistance to selenite. We recorded a strain-unspecific, selenite-mediated decrease in the level of acid-soluble thiols. Collectively, our data demonstrate that hypersensitivity to the Deltagrx1Deltagrx2 and Deltagrx5 disruptants to selenite is mediated by altered intracellular redox equilibrium.

Curcumin induces senescence of primary human cells building the vasculature in a DNA damage and ATM-independent manner

Curcumin is considered not only as a supplement of the diet but also as a drug in many types of diseases and even as a potential anti-aging compound. It can reduce inflammation that increases with age and accompanies almost all age-related diseases. It has been suggested that curcumin can play a beneficial role in the cardiovascular system. However, there are also data showing that curcumin can induce senescence in cancer cells, which is a beneficial effect in cancer therapy but an undesirable one in the case of normal cells. It is believed that cellular senescence accompanies age-related changes in the cardiovascular system. The aim of this study was to check if curcumin, in a certain range of concentrations, can induce senescence in cells building the vasculature. We have found that human vascular smooth muscle and endothelial cells derived from aorta are very sensitive to curcumin treatment and can senesce upon treatment with cytostatic doses. We observed characteristic senescence markers but the number of DNA damage foci decreased. Surprisingly, in vascular smooth muscle cell (VSMC) activation of DNA damage response pathway downstream of ataxia-telangiectasia mutated (ATM) was observed. ATM silencing and the supplementation of antioxidants, N-acetyl-L-cysteine (NAC) or trolox, did not reduce the number of senescent cells. Thus, we have shown that curcumin can induce senescence of cells building the vasculature, which is DNA damage and ATM independent and is not induced by increased reactive oxygen species (ROS) level. We postulate that an increase in the bioavailability of curcumin should be introduced very carefully considering senescence induction as a side effect.

Evaluation of the cyto- and genotoxic activity of yerba mate (Ilex paraguariensis) in human lymphocytes in vitro.

Despite its antioxidant capacity and well-known health benefits, yerba mate tea (Ilex paraguariensis) has been shown to possess some genotoxic and mutagenic activities and to increase incidence of some types of cancer. The aim of this study was to estimate the cyto- and genotoxicity of mate tea in human peripheral lymphocytes in vitro. We found that yerba mate extract induced a concentration-dependent, statistically significant increase in the level of apoptotic and necrotic cells and a decrease in the nuclear division index (NDI). Mate-exposed lymphocytes had a reduced transcriptional rDNA activity, which may be due to the stress conditions, and showed an elevated production of micronuclei. The FISH technique revealed the appearance of an acrocentric signal in mate-induced micronuclei, which suggests that under these conditions yerba mate extract may display aneugenic activity. Since caffeine is one of the most abundant compounds found in the dry mass of mate, we conducted additional experiments with caffeine alone. We showed that caffeine used at the same concentrations manifests a more potent cyto- and genotoxic effect that may account, at least in part, for the disadvantageous effects observed for yerba mate extract.

Limited Effectiveness of Antioxidants in the Protection of Yeast Defective in Antioxidant Proteins

Efficacy of several antioxidants in the protection of the yeast Saccharomyces cerevisiae mutants deficient in CuZnSOD and deficient in glutaredoxin 5 to growth restriction induced by oxidants was studied. Ascorbate and glutathione protected the Δsod1 and Δgrx5 mutants against the effects of t-butyl hydroperoxide and cumene hydroperoxide, Δsod1 mutants against oxytetracycline and Δgrx5 mutants against menadione and 2,2′-azobis-(2-amidinopropane). However, Tempol, Trolox and melatonin were much less effective, showing prooxidative effects and, at high concentrations, hampering the growth of the mutants in the absence of exogenous oxidants. These results point to a complication of cellular effects of antioxidants by their prooxidative effects and to the usefulness of cellular tests to evaluate the biological effectiveness of antioxidants.