Osteoblastic MG-63 cell differentiation, contraction, and mRNA expression in stress-relaxed 3D collagen I gels

The present study was designed to evaluate the apoptotic efficacy of selenium (Se) under glutathione-deprived conditions. Testicular cells were used as a model to assess the above. For the study, cells were maintained for 4 h under various treatments; control (media only), selenium (0.5 microM and 1.5 microM), BSO (20 nM), selenium + BSO (0.5 microM Se + 20 nM BSO and 1.5 microM Se + 20 nM BSO). The treated cells were harvested for various estimations viz. viability, GSH, GSSG, redox ratio, ROS generation and integrity of DNA. mRNA was extracted for RT-PCR analysis of JNK, p38, caspase 3 and Bcl-2. It was observed that the cell viability decreased concomitant with the decrease in GSH levels, increase in GSSG levels and increase in the generation of ROS in the combined treatment group in comparison to control and individual treatments. Also, there was an increase in the mRNA expression of JNK and p38 MAPK along with an increase in caspase 3 expression and decrease in Bcl-2 expression. The integrity of DNA was also found to be altered in the combined treatment. Thus, the results presented in this work agree with those earlier reports in a notion that sodium selenite causes apoptosis and the toxicity of selenite is mediated by increase of intracellular ROS. Also, reduction in endogenous GSH along with selenite treatment is associated with increased apoptosis, increased expression of p38 and JNK MAPK, decreased Bcl-2 expression, and increase in caspase-3 expression. Our data indicates that GSH participates in apoptosis in testicular cells and that depletion of this molecule may be critical in predisposing these cells to apoptotic cell death.     

氧化应激与cfos和cjun转录和AP－1激活

激活剂蛋白－１（ａｃｔｉｖａｔｏｒ ｐｒｏｔｅｉｎ－１,ＡＰ－１）是近年来受到关注的与氧化应激基因表达调控有关的转录因子,文章就氧化应激与ｃｆｏｓ和ｃｊｕｎ基因表达,ＡＰ－１的激活,ＡＰ－１对氧化应激反应的调控,ＡＰ－１与亲电子反应元件等有关内容作了简要的综述。     

氧化应激与cfos和cjun转录和AP－1激活

激活剂蛋白-1(activator protein-1,AP-1)是近年来受到关注的与氧化应激基因表达调控有关的转录因子.文章就氧化应激与cfos和cjun基因表达,AP-1的激活,AP-1对氧化应激反应的调控,AP-1与亲电子反应元件等有关内容作了简要的综述．     

Dual role of glutathione in selenite-induced oxidative stress and apoptosis in human hepatoma cells

It is well known that glutathione, the major intracellular antioxidant, is closely involved in the metabolism and bioactivity of selenium. In the present study, glutathione was demonstrated to play a dual role on selenite (Se)-induced oxidative stress and apoptosis in human hepatoma HepG(2) cells. The experiment was carried out in two different modes to modulate intracellular reduced glutathione (GSH) content. In Mode A (pretreatment), cells were pretreated with N-acetylcysteine (NAC), buthionine sulfoximine (BSO), or GSH prior to Se exposure. In Mode B (simultaneous treatment), cells were treated with Se and NAC, BSO, or GSH simultaneously. It was found that Se-induced oxidative stress and apoptosis are closely related to the intracellular level of GSH. Both the increase and depletion of GSH content significantly enhanced Se-induced oxidative stress and apoptosis in HepG(2) cells. Results from this study clearly demonstrated that GSH has a dual role in the effects of Se on cancer cells: (i) GSH acts as a pro-oxidant, facilitating Se-induced oxidative stress, and (ii) GSH acts as an antioxidant, protecting against Se-induced oxidative stress and apoptosis. Understanding such a unique association between GSH and Se may help to explain the controversy in the literature over the complex relationship between selenium and glutathione, and ultimately the capability of selenium to prevent cancer.     

The responses of HT22 cells to the blockade of mitochondrial complexes and potential protective effect of selenium supplementation

Mitochondria are the major reactive oxygen species (ROS)--generating sites in mammalian cells. Blockade of complexes in the electron transport chain (ETC) increases the leakage of single electrons to O(2) and therefore increases ROS levels. Complexes I and III have been reported to be the major ROS-generating sites in mitochondria. In this study, using mouse hippocampal HT22 cells as in vitro model, we monitored the change of intracellular ROS level in response to the blockade of ETC at different complex, and measured changes of gene expression of antioxidant enzymes and phase II enzymes, also evaluated potential protective effect of selenium (Se) supplementation to the cells under this oxidative stress. In summary, our results showed that complex I was the major ROS-generating site in HT22 cells. Complex I blockade upregulated the mRNA levels of glutamylcysteine synthetase heavy and light chains, glutathione-S-transferases omega1 and alpha 2, hemoxygenase 1, thioredoxin reductase 1, and selenoprotein H. Unexpectedly, the expression of the enzymes that directly scavenge ROS decreased, including superoxide dismutases 1 and 2, glutathione peroxidase 1, and catalase. Se supplementation increased glutathione levels and glutathione peroxidase activity, indicating a potential protective role in oxidative stress caused by ETC blockade.     

Immunoregulatory and antioxidant performance of alpha-tocopherol and selenium on human lymphocytes

The role of α-tocopherol (α-toco) and selenium (Se) on human lymphocyte oxidative stress and T-cells proliferation were studied by flow cytometry. We measured the hydrogen peroxide and glutathione levels in cultured human T-lymphocytes and the proliferation of their subsets: T-helper/inducer, T-suppressor/cytotoxic, and natural killer and interleukin-2 receptors upon stimulation by the mitogens phytohemaglutinin (PHA) and lipopolysaccharide (LPS). The results indicate that early stimulation by mitogens is affected by the glutathione and hydrogen peroxide status of the T-lymphocytes. The addition of 100 μM or 500 μM α-toco or 0.5 μM Se alone shows weak antioxidant and immunostimulant properties. When combined, an enhanced antioxidant and immunoregulatory effect was observed. The present findings indicate that α-toco and Se have interactive effects as oxygen radical scavengers, thus promoting human lymphocyte response to antigens. This suggests that micronutrient status is an important factor in considering when interpreting the results of in vitro assays of lymphocyte function.     

Optimization of selenium status by a single intraperitoneal injection of Se in Se-deficient rat: possible application to burned patient treatment

In order to investigate the efficiency of a single selenium (Se) administration in restoring selenium status, Se and antioxidant enzymes were studied in an animal model of Se depletion. In Se-depleted animals receiving or not a single parenteral administration of Se, plasma, red blood cell (RBC), and tissue Se levels were measured concurrently with glutathione peroxidase (GPx) and superoxide dismutase (SOD) activities. The oxidative stress was assessed by thiobarbituric acid-reactive species (TBARs), total thiol groups, glutathione, and tocopherol measurements. Our study showed that Se depletion with alterations in the antioxidant defense system (Se and GPx activity decreases) led to an increase of lipid peroxidation, a decrease of the plasma vitamin E level, and SOD activation. Sodium selenite injection resulted after 24 h in an optimal plasma Se level and a reactivation of GPx activity. In liver, brain, and kidney, Se levels in injected animals were higher than those in reference animals. However, this single administration of Se failed to decrease free radical damage induced by Se depletion. Therefore, in burned patients who exhibit an altered Se status despite a daily usually restricted Se supplementation, the early administration of a consistent Se amount to improve the GPx activity should be of great interest in preventing the impairment of the antioxidant status.     

Effects of long-term selenium deficiency on glutathione peroxidase and thioredoxin reductase activities and expressions in rat aorta

The objective of this work was to determine whether long-term selenium (Se) deficiency might affect the antioxidant capacity of rat aorta, and the activities and expressions of glutathione peroxidase (GPx) and thioredoxin reductase (TR) in rat arterial walls. Weanling male Wister rats were fed Se-deficient or Se-adequate diets for 12 months. For the Se supplementation, sodium selenite was supplemented in drinking water (1 microg Se/ml) for 1 month. The aorta isolated from these groups were used to determine activities and mRNA levels. In comparison with the control, the activity and expression of GPx, superoxide dismutase activity and the total antioxidant capacity were significantly decreased in Se-deficient rats arterial walls. Following Se supplementation, they were restored to different extents. The content of malondialdehyde was increased markedly in Se-deficient rats. There seems an inverse relationship between the dietary Se and the activity and expression of TR. A positive relationship exists between dietary Se and the antioxidant capacity of rat arterial walls. The activities and expressions of GPx and TR in arterial walls were regulated by selenium by different mechanisms. Regulation of the expression of TR was mediated by reactive oxygen species, but of GPx by selenium status. The thioredoxin system may be the major cellular redox signaling system in rat arteries, rather than the glutathione system.     

Overexpression of Endogenous Anti-Oxidants with Selenium Supplementation Protects Trophoblast Cells from Reactive Oxygen Species-Induced Apoptosis in a Bcl-2-Dependent Manner

The human placenta provides life support for the developing foetus, and a healthy placenta is a prerequisite to a healthy start to life. Placental tissue is subject to oxidative stress which can lead to pathological conditions of pregnancy such as preeclampsia, preterm labour and intrauterine growth restriction. Up-regulation of endogenous anti-oxidants may alleviate placental oxidative stress and provide a therapy for these complications of pregnancy. In this study, selenium supplementation, as inorganic sodium selenite (NaSel) or organic selenomethionine (SeMet), was used to increase the protein production and cellular activity of the important redox active proteins glutathione peroxidase (GPx) and thioredoxin reductase (Thx-Red). Placental trophoblast cell lines, BeWo, JEG-3 and Swan-71, were cultured in various concentrations of NaSel or SeMet for 24 h and cell extracts prepared for western blots and enzyme assays. Rotenone and antimycin were used to stimulate mitochondrial reactive oxygen species (ROS) production and induce apoptosis. Trophoblast cells supplemented with 100 nM NaSel and 500 nM SeMet exhibited significantly enhanced expression and activity of both GPx and Thx-Red. Antimycin and rotenone were found to generate ROS when measured by 2′,7′-dichlorofluorescein diacetate (DCFDA) assay, and selenium supplementation was shown to reduce ROS production in a dose-dependent manner. Rotenone, 100 μM treatment for 4 h, caused trophoblast cell apoptosis as evidenced by increased Annexin V binding and decreased expression of Bcl-2. In both assays of apoptosis, selenium supplementation was able to prevent apoptosis, preserve Bcl-2 expression and protect trophoblast cells from mitochondrial oxidative stress. This data suggests that selenoproteins such as GPx and Thx-Red have an important role in protecting trophoblast cells from mitochondrial oxidative stress and that selenium supplementation may be important in treating some placental pathologies.     

The influence of dietary selenium and vitamin E on glutathione peroxidase and glutathione in the rat

The effect of dietary selenium (Se) and vitamin E supplementation on tissue reduced glutathione (GSH) and glutathione peroxidase activity has been studied in the rat. Increasing Se intake by 0.4 ppm gave significantly higher enzyme levels in all tissues studied, an effect not influenced by vitamin E intake. Further increasing Se to 4 ppm gave higher enzyme levels in red blood cells only, while in liver was there was a significant decrease in enzyme activity probably reflecting Se hepatotoxicity. In the absence of Se supplements increasing dietary vitamin E to 100 mg/kg diet significantly increased enzyme activity but this effect was modified by simultaneous Se supplementation.Se intake had no effect on GSH levels. Rats on high vitamin E intake 500 mg/kg had a significantly higher tissue GSH level. Dietary Se had a sparing effect on vitamin E, rats supplemented with Se having significantly raised plasma vitamin E levels.These results confirm the role of selenium in glutathione peroxidase and also show that vitamin E influences the activity of the enzyme.     

Selenium supplementation sensitizes renca cells to tert-butylhydroperoxide induced loss of viability

Mouse renal carcinoma (renca) cells growing exponentially in foetal bovine serum (1%) supplemented with selenium (1 microM, sodium selenite) were exposed to oxidative insult. It was found that glutathione peroxidase activity increased (44%), while the activities of catalase, glutathione disulfide reductase, and level of total glutathione did not change due to selenium supplementation. Selenium supplementation made renca cells susceptible to tert-butylhydroperoxide induced cell death, while it did not affect the viability when the cells were exposed to hydrogen peroxide. It suggested that the contribution of glutathione peroxidase in antioxidant defense mechanism of renca cells was possibly not crucial and the function of catalase might be important especially against hydrogen peroxide.     

Influence of selenium on heat shock protein 70 expression in heat stressed turkey embryos (Meleagris gallopavo)

Heat shock protein 70 (hsp70) family of proteins, which functions as molecular chaperones, has been associated with tolerance to stressors in avian species. Selenium (Se) is an essential trace mineral incorporated into the seleno-enzymes such as glutathione peroxidase (GSHpx). GSHpx reduces oxidized glutathione (GSSG) to reduced glutathione (GSH) in the GSH/GSSG antioxidant system and protects cells from oxidative damage. This study was conducted to examine if the relationship between dietary supplementation of selenium to turkey (Meleagris gallopavo) hens and the embryonic expression of hsp70 and GSHpx activity in heat stressed embryos. Livers of embryos developing in eggs from turkey hens fed diets with or without supplemental Se were analyzed for hsp70 concentration and GSHpx activity before and after recovery from a heating episode. Before heat stress, hsp70 concentrations were equivalent in each treatment, but GSHpx activity was maximized in the SE treatment group. After recovery from the heating episode, hsp70 concentrations were significantly higher (P<0.05) in the non-Se-supplemented groups, but in the Se-supplemented groups the hsp70 concentrations were not different from pre-stress concentrations. In the pre-stress Se-supplemented group, liver GSHpx activity was significantly higher than GSHpx activity in the non-Se-supplemented embryo livers, and in the livers from embryos recovering from heat stress, GSHpx activity in the non-Se-supplemented group was lower than the pre-stress activity and significantly lower than the GSHpx activity in liver from Se-supplemented embryos recovering from heat distress. Se supplementation to the dams resulted in a significant increase in their embryos and that condition would facilitate a decreased incidence of oxidative damage to cells. A more reduced redox status in embryos from Se-supplemented dams decreased the need for cellular protection attributed to stress induced hsp70 and presumably allows heat distressed embryos to resume normal growth and development than embryos from dams with inadequate selenium nutrition.     

Inhibitory effect of selenium on Cryptosporidium parvum infection in vitro and in vivo

The anticryptosporidial effect of sodium selenite (selenium) was evaluated in a bovine fallopian tube epithelial (BFTE) cell culture system and an immunosuppressed C57BL/6N adult mouse model. Parasite numbers in cell culture were significantly reduced (p<0.01) following treatment with selenium (Se) at concentrations of 6, 9, and 12 μM at 48 h postinoculation (PI) and at 1.5, 3, and 6 μM at 96 h PI. Parasite reduction was greater than 50% at 48 h PI when 9 and 12 μM Se was used, and at 96 h PI when 6 μM Se was used. Such Se-induced reduction of Cryptosporidium parvum infection was significantly (p<0,0001) blocked when using free-radical scavengers such as mannitol (20 mM). A combined solution of mannitol (20 mM) and reduced glutathione (0.5 mM) enhanced the blockage to almost 100%. Adult C57BL/6N mice were immunosuppressed with dexamethasone phosphate administered ad libitum (16 μg/mL) in drinking water and inoculated with 10⁵ oocysts/mouse. Significantly fewer (p<0.001) oocysts were shed in the feces of mice treated with Se administered ad libitum (12 μM) in drinking water than in untreated mice. The survival time of mice was also significantly increased (p<0.001) following Se treatment. Collectively, these results indicate that Se plays an important role in cryptosporidiosis, and oxidative stress caused by Se is probably a major mechanism in inhibition of C. parvum infection.     

Upregulation of AP1 by tertiary butyl hydroperoxide induced oxidative stress and subsequent effect on spermatogenesis in mice testis

Oxidative stress is detrimental to sperm function and a significant factor in the etiology of male infertility. Present study evaluates the effect of ter butyl hydroperoxide (TBHP)-induced oxidative stress on the spermatogenic process and cell number in the seminiferous tubules. Intraperitoneal injection of TBHP (84 μmol TBHP/100 g body weight) for 2 weeks to male Balb/c mice resulted in enhanced lipid peroxidation (P < 0.0001) decrease in reduced glutathione (P < 0.0001) and increase in the oxidized glutathione levels (P = 0.007) in the testis. Status of spermatogenesis after the treatment was assessed by the quantitative methods of germ cell evaluation in the seminiferous tubules. A significant decrease in the number of young spermatids (P = 0.0003) and pachytene cells (P = 0.022) was observed. A marked reduction was also seen in the mature spermatid number (P < 0.0001). An increase in testicular mRNA levels of redox-regulated cjun (P = 0.008) and cfos (P = 0.0006) subunits of activator protein 1 (AP1) was observed after TBHP treatment. Evaluation of AP1 regulated antioxidant enzymes in the testis revealed an increase in γ-glutamyl cysteine synthetase (GCS) mRNA expression (P = 0.001). These results suggest a potential role of AP1 in oxidative stress-mediated meiotic and post meiotic changes in the spermatogenic process and regulation of cell number in male reproductive system.     

Selective induction of IL-6 by aluminum-induced oxidative stress can be prevented by selenium

In this study the acute toxic effects of aluminum (Al) on mice have been investigated, including the interactions of Al and selenium (Se). Focus was put on the systemic effects of (co)exposure to Al and Se as a reflection of the redox status in the liver, kidney and brain.Short-term exposure (16 h) to Al resulted in an increase in the systemic inflammation parameters IL-6 and PAI-1, whereas serum levels of TNF-α remained unaffected. The different response pattern of IL-6 and TNF-α probably indicates an increased intracellular oxidative stress and altered redox status in the liver, because the selective increase in IL-6 serves as a protective intrahepatocellular process driven by oxidative stress. The intracellular glutathione concentration GSH_tot decreased significantly upon Al exposure. Both the increase in IL-6 and decrease in glutathione status could be prevented by co-exposure to Se, but not the increase in PAI-1. The redox status of the kidney and brain was not markedly affected.Therefore it was concluded that short-term exposure to Al causes adverse effects on the intracellular oxidative stress processes in the liver, as reflected by the selective increase in the IL-6 concentration. This process can be restored by co-administration of the trace element Se as a part of the glutathione redox system.