50-Hz extremely low frequency electromagnetic fields enhance cell proliferation and DNA damage: possible involvement of a redox mechanism

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Loss of nuclear p27kip1 and α-dystroglycan is a frequent event and is a strong predictor of poor outcome in renal cell carcinoma

Expression levels of p27kip1, a negative regulator of the G1 phase of the cell cycle, and 8-hydroxydeoxyguanosine (8-OHdG), a marker of oxidative DNA damage, were assessed by immunostaining in a series of renal cell carcinomas (RCCs) and their prognostic significance was evaluated. Expression of p27kip1 as well as of the α-subunit of the dystroglycan (DG) complex, previously reported to be altered in RCC, was also evaluated by western blot analysis. Nuclear expression of p27kip1 was reduced in a significant fraction of tumors and low p27kip1 staining correlated with higher tumor grade (P < 0.01). Recurrence and death from clear cell RCCs were significantly more frequent in p27kip1-low expressing tumors and Kaplan–Meier curves showed a significant separation between high vs low expressor groups for both disease-free (P = 0.011) and overall (P = 0.002) survival. Low nuclear expression of p27kip1 as well as loss of α-DG were confirmed to be independent prognostic parameters at a multivariate analysis and the simultaneous loss of both molecules defined a "high-risk" group of patients with increased risk of recurrence (RR = 28.7; P = 0.01) and death (RR = 12.9; P = 0.03). No significant correlation with clinical or pathological parameters was found for 8-OHdG staining. Western blot analyses suggested a post-translational mechanism for the loss of α-DG expression and demonstrated that cytoplasmic dislocation of the protein contributes to the loss of active nuclear p27kip1. Loss of nuclear p27kip1 is a frequent event in human RCCs and is a powerful predictor of poor outcome which, in combination with low DG expression, could help to identify high-risk patients with clear cell RCC. (Cancer Sci 2010; 00: 000–000

Insights into the mechanisms involved in magnesium-dependent inhibition of primary tumor growth

International audienceWe have previously shown that a low Magnesium (Mg)-containing diet reversibly inhibits the growth of primary tumors that develop after the injection of Lewis lung carcinoma (LLC) cells in mice. Here we investigate some of the mechanisms responsible for the Mg-dependent regulation of tumor development by studying cell cycle regulation, tumor angiogenesis, and gene expression under Mg deficiency. The inhibition of LLC tumor growth in Mg-deficient mice is due to a direct effect of low Mg on LLC cell proliferation and to an impairment of the angiogenic switch. We also observed an increase of nitric oxide synthesis and oxidative DNA damage. Complementary DNA arrays reveal that Mg deficiency modulates tumor expression of genes involved in the control of cell cycle, stress response, proteolysis, and adhesion. Our results suggest that Mg has multiple and complex roles in tumor development

Effect of beta-carotene-rich tomato lycopene beta-cyclase ( tlcy-b) on cell growth inhibition in HT-29 colon adenocarcinoma cells.

Lycopene beta-cyclase (tlcy-b) tomatoes, obtained by modulating carotenogenesis via genetic engineering, contain a large amount of beta-carotene, as clearly visible by their intense orange colour. In the present study we have subjected tlcy-b tomatoes to an in vitro simulated digestion and analysed the effects of digestate on cell proliferation. To this aim we used HT-29 human colon adenocarcinoma cells, grown in monolayers, as a model. Digested tomatoes were diluted (20 ml, 50 ml and 100 ml/l) in culture medium and added to the cells for different incubation times (24 h, 48 h and 72 h). Inhibition of cell growth by tomato digestate was dose-dependent and resulted from an arrest of cell cycle progression at the G0/G1 and G2/M phase and by apoptosis induction. A down-regulation of cyclin D1, Bcl-2 and Bcl-xl expression was observed. We also found that heat treatment of samples before digestion enhanced beta-carotene release and therefore cell growth inhibition. To induce with purified beta-carotene solubilised in tetrahydrofuran the same cell growth inhibition obtained with the tomato digestate, a higher amount of the carotenoid was necessary, suggesting that beta-carotene micellarised during digestion is utilised more efficiently by the cells, but also that other tomato molecules, reasonably made available during digestion, may be present and cooperate with beta-carotene in promoting cell growth arrest

A proteomic approach to characterizing ciglitazone-induced cancer cell differentiation in Hep-G2 cell line

Drug induced cell differentiation represents a promising experimental model for proteomic analysis of cancer cells. In fact, by modulating and monitoring neoplastic cell differentiation it could be possible to identify cytodifferentiation related protein expression changes that can be subsequently utilized in vivo as potential cancer biomarkers. One main advantage of this approach is the significant reduction of biological variability normally observed in clinical biomarker research, with important implications also in prognosis and therapy. At this regard, a new class of differentiating agents is emerging, the so called PPAR-ligands. which however are characterized by a debated mechanism of action that has not been yet studied through a proteomic approach. To this aim, we investigated ciglitazone-induced differentiation of a human hepatocarcinoma HepG2 cell line, by monitoring biochemical and cellular parameters of cytodifferentiation and modifications of cellular protein profiles through 2-DE and MALDI-TOF analysis. Independent of the hypothesized mechanism of action of this intriguing PPAR gamma agonist, results indicated that ciglitazone is a strong differentiating agent for the HepG2 cell line and that this process is associated with modifications of protein expression related to cell antioxidant systems, the cell cycle apparatus, signal transduction pathways, cellular stress and invasiveness. At last, considering these and other published data, a proteomic profile related to the cancer aggressiveness is beginning to emerg

Polycyclic aromatic hydrocarbon-DNA adducts in cervical smears of smokers and nonsmokers

The aim of this study was to detect polycyclic aromatic hydrocarbon-DNA (PAH-DNA) adducts in single cervical cells collected during a routine Papanicolaou smear and to relate this carcinogen exposure dose marker to smoking habit. An immunohistochemical assay, using a polyclonal antiserum raised against benzo[a]pyrene diol epoxide-DNA adducts, was performed to evaluate PAH-DNA adducts in cervical cells collected from 16 volunteers who smoked at least 20 cigarettes/day and 16 nonsmokers. The mean adduct level, determined as relative staining intensity by an optical density image analyzer, was significantly higher in smokers compared to nonsmokers (AOD x 1000 +/- SD = 98 +/- 32 and 73 +/- 25, respectively) (P = 0.04). These results demonstrate that this immunohistochemical assay, much simpler than other methodologies used to evaluate PAH-DNA adducts in cervical tissue, is sufficiently sensitive for quantitative adduct evaluation in single epithelial cervical cells, as already verified for other exfoliated material. This work thus confirms that tobacco smoke is a risk factor for genotoxic damage generation in cervical cells and indicates a procedure likely adaptable to a large population screening. Copyright 1999 Academic Press