Suicidal oxidative stress induced by certain antioxidants

Well known antioxidants-coumarins (7,8-dihydroxy-4-methyl coumarin-DHMC and 7,8-diacetoxy-4-methyl coumarin-DAMC) and flavonoids (quercetin-Q and quercetin penta-acetate-QPA) were investigated for their pro-oxidant effects in two human tumor cell lines. The breast carcinoma cell line (MDA-MB-468) was found to be more sensitive to treatment by the drugs-DAMC, Q and QPA at 10 microM than the glioma cell line (U-87MG), while DHMC was non toxic in both cell lines at this concentration. In MDA-MB-468 distinct growth inhibition was observed by 48 hr post treatment. Paradoxically, an increase in the formazan production was revealed by MTT assay at this time indicating an increase in the production of free radicals. An increase in the levels of reactive oxygen species (ROS) was also confirmed by DCFH-DA assay. In cells treated with DAMC, Q and QPA an increase in the percentage of cells with the hypodiploid DNA content was suggestive of apoptotic cell death. Taken together, these results suggest that an increase in oxidative stress caused by the pro-oxidant action of these drugs is responsible for cell death.     

Chronic pancreatitis: role of oxidative stress and antioxidants

Abstract

Chronic pancreatitis (CP) is characterized by pain, and exocrine and endocrine insufficiency of pancreas. Several hypotheses have been put forward to explain the hitherto partially understood pathophysiology of CP. In the past decade, animal and clinical studies have suggested that an increased chronic oxidative stress (OS) plays a key role in pathophysiology of CP and perpetuates its clinical and histological symptoms (pain and fibrosis–necrosis, respectively). Mounting OS in pancreatic acinar cells is a result of overproduction of free radicals (FR) during xenobiotic metabolism. It has been shown that Phase I cytochrome P450 enzymes of xenobiotic pathway are induced when exposed to a xenobiotic overload including alcohol, tobacco, smoke and other dietary toxins, which exceeds the capacity of Phase II conjugation due to limited glutathione availability. Consequently, there is an overload of toxic metabolites as well as FR. Additionally, bioactivation of subsequently entering compounds may occur increasing their toxicity. Such an imbalance overwhelms the antioxidant capacity of the body resulting in undefended chronic OS that derails the normal physiology of pancreatic acinar cells since FR act as second messengers controlling the cellular signaling. OS hypothesis is further supported by the studies that demonstrated that antioxidant supplementation ameliorated pain. Moreover, animal studies have demonstrated a cessation of fibrotic cascade with antioxidant supplementation. In a recent large randomized controlled trial, it was demonstrated that antioxidant supplementation led to a significant reduction in pain, and also lowered the OS in patients with alcoholic or idiopathic CP.     

Chemiluminescence evaluation of oxidative damage to biomolecules induced by singlet oxygen and the protective effects of antioxidants

A chemiluminescence (CL) method was developed for the evaluation of oxidative damage to biomolecules induced by singlet oxygen ((1)O(2)) and for the evaluation of the protective effects of antioxidants. The (1)O(2) was generated from the reaction of H(2)O(2)+OCl(-). Results showed that the CL signal from the reaction of H(2)O(2)+OCl(-) was weak, however, it was enhanced dose-dependently with the addition of DNA and unsaturated fatty acid, respectively. Spectra analysis indicated that the enhanced CL could be ascribed to the decay of triplet-excited carbonyl compounds, which were generated from the reaction of (1)O(2) plus the biomolecules. On the other hand, the enhanced CL produced in the above systems could be effectively inhibited by lycopene, beta-carotene, VC, and VE, but could not be inhibited by mannitol, SOD, and NaN(3). The mechanism therein was discussed.     

Plant polyphenol antioxidants and oxidative stress

In recent years there has been a remarkable increment in scientific articles dealing with oxidative stress. Several reasons justify this trend: knowledge about reactive oxygen and nitrogen species metabolism; definition of markers for oxidative damage; evidence linking chronic diseases and oxidative stress; identification of flavonoids and other dietary polyphenol antioxidants present in plant foods as bioactive molecules; and data supporting the idea that health benefits associated with fruits, vegetables and red wine in the diet are probably linked to the polyphenol antioxidants they contain. In this review we examine some of the evidence linking chronic diseases and oxidative stress, the distribution and basic structure of plant polyphenol antioxidants, some biological effects of polyphenols, and data related to their bioavailability and the metabolic changes they undergo in the intestinal lumen and after absorption into the organism. Finally, we consider some of the challenges that research in this area currently faces, with particular emphasis on the contributions made at the International Symposium "Biology and Pathology of Free Radicals: Plant and Wine Polyphenol Antioxidants" held July 29-30, 1999, at the Catholic University, Santiago, Chile and collected in this special issue of Biological Research.     

The role of antioxidants enzymes of E. coli ASU3, a tolerant strain to heavy metals toxicity, in combating oxidative stress of copper

The current study describes the isolation and characterization of E. coli from wastewater that collected from El-Malah canal in Assiut, Egypt. Twelve isolates were investigated for heavy metal resistance by which one of them showed multiple metal resistances. Furthermore, the bacterium was identified as E. coli ASU3 according to biochemical tests and then, preserved at Assuit University Mycological Centre with accession number AUMC B83. It exhibited high minimal inhibitory concentrations for metals and antibiotic resistance. The order of metals toxicity to the bacterium was Cr⁶⁺ > Cu²⁺ > Co²⁺ > Pb²⁺ > Ni²⁺ > Cr³⁺ > Cd²⁺ > Zn²⁺. Total protein content of E. coli ASU3 decreased with the increase of copper concentration. Under exposure of different concentrations of copper, the induction of antioxidant enzymes such as catalase, peroxidase and ascorbate peroxidase was increased and these antioxidant enzymes can contribute to combating oxidative stresses.     

Compensatory responses induced by oxidative stress in Alzheimer disease

Oxidative stress occurs early in the progression of Alzheimer disease, significantly before the development of the pathologic hallmarks, neurofibrillary tangles and senile plaques. In the first stage of development of the disease, amyloid-beta deposition and hyperphosphorylated tau function as compensatory responses and downstream adaptations to ensure that neuronal cells do not succumb to oxidative damage. These findings suggest that Alzheimer disease is associated with a novel balance in oxidant homeostasis.     

The role of oxidative stress in lung injury induced by cigarette smoke

Oxidative stress is a damaging process resulting from an imbalance between excessive generation of oxidant compounds and insufficient antioxidant defence mechanisms. Oxidative stress plays a crucial role in the initiation and progression of cigarette smoke-induced lung injury, deterioration in lung functions, and development of chronic obstructive pulmonary disease (COPD). In smokers and in patients with COPD, the increased oxidant burden derives from cigarette smoke per se, and from activated inflammatory cells releasing enhanced amounts of reactive oxygen and nitrogen species (ROS, RNS, respectively). Although mild oxidative stress resulting from cigarette smoking leads to the upregulation of the antioxidative enzymes synthesis in the lungs, high levels of ROS and RNS observed in patients with COPD overwhelm the antioxidant enzymes capacities, resulting in oxidant-mediated lung injury and cell death. In addition, depletion of antioxidative systems in the systemic circulation was consistently observed in such patients. The imbalance between the generation of ROS/RNS and antioxidant capacities — the state of “oxidative stress” — is one of the major pathophysiologic hallmarks in the development of COPD. Detrimental effects of oxidative stress include impairment of membrane functions, inactivation of membrane-bound receptors and enzymes, and increased tissue permeability. In addition, oxidative stress aggravates the inflammatory processes in the lungs, and contributes to the worsening of the protease-antiprotease imbalance. Several markers of oxidative stress, such as increases in lipid peroxidation products and reductions in glutathione peroxidase activity, have been shown to be related to the reductions in pulmonary functions. In the present article we review the current knowledge about the vicious cycle of cigarette smoking, oxidative stress, and inflammation in the pathogenesis of COPD.     

Differential response to paraquat induced oxidative stress in two rice cultivars on antioxidants and chlorophyll a fluorescence

The responses of antioxidative system and photosystem II photochemistry of rice (Oryza sativa L.) to paraquat induced oxidative stress were investigated in a chilling-tolerant cultivar Xiangnuo no. 1, and a chilling-susceptible cultivar, IR-50. Electrolyte leakage and malondialdehyde (MDA) content of Xiangnuo no. 1 were little affected by paraquat, but they increased in IR-50. After paraquat treatment, superoxide dismutase (SOD) activity remained high in Xiangnuo no. 1, while it declined in IR-50. Activities of catalase (CAT), ascorbate peroxidase (APX) and glutathione reductase (GR) declined with oxidative stress in both cultivars, but Xiangnuo no. 1 had higher GR activity than IR-50. Under paraquat induced oxidative stress, ascorbic acid (AsA) and reduced glutathione (GSH) concentrations remained high in Xiangnuo no. 1, but decreased in IR-50. The results indicated that higher activities of SOD and GR and higher contents of AsA and GSH in Xiangnuo no. 1 under paraquat induced oxidative stress were associated with its tolerance to paraquat, while paraquat induced damage to IR-50 was related to decreased activities of SOD, APX and GR and contents of AsA and GSH. F _v/F _m, Φ _PSII, and qP remained high in Xiangnuo no. 1, while they decreased greatly in IR-50 under paraquat induced oxidative stress.     

The systemic response of antioxidant enzymes to the oxidative stress induced by irradiation at low doses

As a result of total chronic gamma irradiation of mice (137Cs, 0.6 cGy/day, 9 days) the functioning of superoxide generation and utilisation systems in liver were disturbed. The regulatory links between the activities of superoxide dismutase and glutathione peroxidase are found to be maintained. Postradiation effects were more expressed for a total dose of 1.2 cGy than for a dose of 5.4 cGy, providing support for the hypothesis of delayed reparation as a reason of harmful action of low-dose irradiation.     

UVB induced oxidative stress in human keratinocytes and protective effect of antioxidant agents

This study aims at exploring the oxidative stress in keratinocytes induced by UVB irradiation and the protective effect of nutritional antioxidants. Cultured Colo-16 cells were exposed to UVB in vitro followed by measurement of reactive oxygen species (ROS), endogenous antioxidant enzyme activity, as well as cell death in the presence or absence of supplementation with vitamin C, vitamin E, or Ginsenoside Panoxatriol. Intracellular ROS content was found significantly reduced 1 h after exposure, but increased at later time points. After exposure to 150–600 J m⁻² UVB, reduction of ROS content was accompanied by increased activity of catalase and CuZn-superoxide dismutase at early time points. Vitamins C and E, and Ginsenoside Panoxatriol counteracted the increase of ROS in the Colo-16 cells induced by acute UVB irradiation. At the same time, Ginsenoside Panoxatriol protected the activity of CuZn-superoxide dismutase, while vitamin E showed only a moderate protective role. Vitamins C and E, and Ginsenoside Panoxatriol in combination protected the Colo-16 cells from UVB-induced apoptosis, but not necrosis. These findings suggest that vitamins C and E as well as Ginsenoside Panoxatriol are promising protective agents against UVB-induced damage in skin cells.     

High temperature-induced oxidative stress in Lens culinaris,role of antioxidants and amelioration of stress by chemical pre-treatments

Abstract

Six varieties of lentil (Lens culinaris Medik.) – Asha, Subrata, IPL 406, IPL 81, Lv and Sehore – were exposed to temperatures ranging from 30–50°C which resulted in retarded germination and seedling growth at higher temperatures. Tolerance index and membrane stability tests revealed Sehore and Lv to be susceptible to elevated temperatures while IPL 406, IPL 81, Asha and Subrata were tolerant. Catalase, ascorbate peroxidase and superoxide dismutase showed an initial increase before declining at 50°C, while peroxidase and glutathione reductase activities declined at all temperatures. Lipid peroxidation significantly increased in all varieties. In the tolerant varieties, there was an initial decrease in accumulation of H₂O₂ followed by an increase from 40°C onwards; however, in the susceptible varieties, accumulation was enhanced at all high temperatures. Ascorbate and glutathione also showed initial increase followed by a decline. Total antioxidant activity was at a maximum at 35–40°C in the tolerant varieties and at 30°C in the susceptible ones. Oxidative stress induced by high temperature was ameliorated by treatment with salicylic acid, abscisic acid or CaCl₂, of which salicylic acid was the most effective.     

The contribution of DNA repair and antioxidants in determining cell type-specific resistance to oxidative stress

The aims of this study were; (i) to elucidate the mechanisms involved in determining cell type-specific responses to oxidative stress and (ii) to test the hypothesis that cell types which are subjected to high oxidative burdens in vivo, have greater oxidative stress resistance. Cultures of the retinal pigment epithelium (RPE), corneal fibroblasts, alveolar type II epithelium and skin epidermal cells were studied. Cellular sensitivity to H2O2 was determined by the MTT assay. Cellular antioxidant status (CuZnSOD, MnSOD, GPX, CAT) was analyzed with enzymatic assays and the susceptibility and repair capacities of nuclear and mitochondrial genomes were assessed by QPCR. Cell type-specific responses to H2O2 were observed. The RPE had the greatest resistance to oxidative stress (P>0.05; compared to all other cell types) followed by the corneal fibroblasts (P < 0.05; compared to skin and lung cells). The oxidative tolerance of the RPE coincided with greater CuZnSOD, GPX and CAT enzymatic activity (P < 0.05; compared to other cells). The RPE and corneal fibroblasts both had up-regulated nDNA repair post-treatment (P < 0.05; compared to all other cells). In summary, variations in the synergistic interplay between enzymatic antioxidants and nDNA repair have important roles in influencing cell type-specific vulnerability to oxidative stress. Furthermore, cells located in highly oxidizing microenvironments appear to have more efficient oxidative defence and repair mechanisms.     

DNA damage responses to oxidative stress

The DNA damage response is a hierarchical process. DNA damage is detected by sensor proteins such as the MRN complex that transmit the information to transducer proteins such as ATM and ATR, which control the damage response through the phosphorylation of effector proteins. The extent of the DNA damage determines cell fate: cell cycle arrest and DNA repair or the activation of apoptotic pathways. In aerobic cells, reactive oxygen species (ROS) are generated as a by-product of normal mitochondrial activity. If not properly controlled, ROS can cause severe damage to cellular macromolecules, especially the DNA. We describe here some of the cellular responses to alterations in the cellular redox state during hypoxia or oxidative stress. Oxidative damage in DNA is repaired primarily via the base excision repair (BER) pathway which appears to be the simplest of the three excision repair pathways. To allow time for DNA repair, the cells activate their cell cycle checkpoints, leading to cell cycle arrest and preventing the replication of damage and defective DNA.     

Heme oxygenase exerts a protective role against oxidative stress in soybean leaves

We have previously demonstrated that the induction of heme oxygenase-1 (EC 1.14.99.3) plays a protective role for mammalian cells against oxidative stress. Here, we investigated for the first time the possible role of heme oxygenase-1 as an antioxidant defense in leaves of soybean plants. Treatment with 200 microM Cd during 48 h caused a 70% increase in thiobarbituric acid reactive substances, whereas GSH decreased 67%, guaiacol peroxidase and total superoxide dismutase also inhibited 49% and 46%, respectively. Two hundred micromolar of Cd produced the overexpression of heme oxygenase-1, as well as a 4.5-fold enhancement of its activity. Administration of biliverdin partially prevented the effects caused by Cd. Pretreatment with Zn protoporphyrin IX, a potent inhibitor of heme oxygenase, expectedly decreased heme oxygenase-1 activity to half. When the inhibitor was given before Cd, it completely prevented the enzyme induction increasing the levels of oxidative stress parameters. Collectively, these results indicated that although plant heme oxygenases share little homology to heme oxygenases from non-plant species, they also play an important protective role against oxidative cell damage.     

β淀粉样蛋白与氧应激的相互作用及PACAP-27对氧应激损伤的保护作用

目的 :探讨 β淀粉样蛋白 (Aβ)与氧应激损伤的相互关系及脑下垂体腺苷环化酶激活多肽 2 7(PACAP 2 7)对抗氧应激致神经瘤细胞损伤的作用机理。方法 :体外培养第 15 0代Neuro 2a细胞 ,MTT法检测细胞存活率 ,Heochest332 5 8特异细胞核染色观察凋亡小体 ,提取基因组DNA鉴定细胞死亡方式及基因组内小片段含量。结果 :过氧化氢 (H2 O2 )处理接种 2 4h的Neuro 2a细胞 2 4h后 ,浓度相关地使细胞存活率下降 ,10mol·L-1时有明显的凋亡特征出现 ;与 2 5mol·L-1的Aβ2 5-35共同处理 2 4h可以使H2 O2 损伤神经元的ED50 降低至 1/10 ;PACAP 2 7( 0 .1(mol·L-1,1d加药 1次 ,共 2次 )对H2 O2 所致的细胞损伤有显著的保护作用 ,可以提高细胞的存活率 ,降低基因组小片段DNA的含量 ;PACAP受体拮抗剂PACAP 6 2 7( 10 0mol·L-1,与PACAP同时加药 )不能拮抗PACAP 2 7的保护作用。结论 :氧应激与Aβ在神经毒性方面有协同作用 ;PACAP参与对抗H2 O2 的神经毒性时 ,不通过受体激活。     

Membrane ion transport systems during oxidative stress in rodent brain: protective effect of stobadine and other antioxidants

The effect of oxidative stress in vitro induced by radical generating systems (RGS) (Fe2+-EDTA and Fe2+-EDTA plus H2O2) on synaptosomal and microsomal ion transport systems as well as on the membrane fluidity was investigated. Oxidative insult reduced Na+, K+-ATPase activity by 50.7% and Na+-dependent Ca2+ uptake measured in choline media by 46.7%. Membrane fluidity was also significantly reduced as observed with the fluorescent probe. Stobadine (ST) prevented the decrease in membrane fluidity and Na+-dependent Ca2+ uptake, however Na+, K+-ATPase activity was only partially protected, indicating a more complex mechanism of inhibition. Incubation of microsomes with RGS led to the loss of ability of membranes to sequester Ca2+, as well as to the decrease of Ca2+-ATPase activity and to the increase of Ca2+ permeability to 125.1%. The relative potency of the two RGS to decrease membrane fluidity correlated well with the system's potencies to induce lipid peroxidation. The extent of protection against depression of Ca2+ uptake values and Ca2+-ATPase activity by membrane soluble antioxidants (U-74500A, U-83836E, t-butylated hydroxytoluene-BHT and ST) was dependent on the experimental conditions and on the dose and nature of antioxidant used. ST seems to be at least as affective as BHT and 21-aminosteroids, and more potent than tocopherol acetate. Water soluble glutathione had no significant effect on the RGS induced inhibition of Ca2+-ATPase activity. Combination of ST with glutathione enhanced ST antioxidant efficacy, so drug combination might be beneficial therapeutically.     

The role of CRH in behavioral responses to stress

Corticotropin-releasing hormone (CRH) and urocortin in the central nervous system affect behavior and can enhance behavioral responses to stressors. The action of CRH-related peptides is mediated through multiple receptors that differ markedly in their pharmacological profiles and anatomical distribution. Comparative pharmacology of CRH receptor agonists suggests that CRH, urocortin, sauvagine and urotensin consistently mimic, and CRH receptor antagonists consistently lessen, functional consequences of stressor exposure. Recently, important advances have been made in understanding the CRH system and its role in behavioral responses to stress by the development of specific CRH receptor antagonists, application of antisense oligonucleotides and development of transgenic mice lacking peptides and functional receptors. This review summarizes recent findings with respect to components of the CRH system and their role in stress-induced behavioral responses.     

Quercetin plays protective role in oxidative induced apoptotic events during chronic chlorpyrifos exposure to rats

Chlorpyrifos (CPF), an organophosphate insecticide has a wider application throughout the world to protect agricultural crops and vegetables from insects. Polyphenolic compounds are considered as beneficial against toxicities induced by organophosphates. The present study was conducted to understand the neuroprotective role of quercetin in chlorpyrifos‐induced apoptotic events in rats. Twenty‐four male Sprague Dawley rats weighing 170 to 200 g were divided into four groups viz: Control, chlorpyrifos treated (13.5 mg/kg body wt. alternate day), quercetin treated (50 mg/kg body wt. every day) and combined chlorpyrifos + quercetin treated. All the treatments were carried out for a total duration of 60 days. Protein carbonyl content and acetylcholinesterase activity were estimated in serum along with cerebrum and cerebellum to ascertain neurotoxicity. Further, for appraisal of neurodegeneration as a consequence of apoptosis, protein expressions of Bcl‐2, Bax, cytochrome c, caspase‐8, and caspase‐9 were assessed. The results showed that protein carbonyl contents were markedly increased in both serum and brain tissues (cerebrum and cerebellum) of chlorpyrifos‐treated rats when compared with control group and were appreciably improved upon simultaneous supplementation with quercetin. Further, chlorpyrifos treatment revealed a significant decrease in the enzyme activity of acetylcholinesterase in serum as well as in cerebrum and cerebellum, which however was increased upon concomitant treatment with quercetin. In chlorpyrifos‐treated animals, we have observed a significant decrease in the protein expression level of Bcl‐2, but a remarkable increase in the expression levels of Bax, cytochrome c, caspase‐8, and caspase‐9 in both cerebrum and cerebellum. Interestingly, when chlorpyrifos‐treated animals were supplemented with quercetin, a significant increase in the expression of Bcl‐2 and an appreciable decline in the expression levels of Bax, cytochrome c, caspase‐8, and caspase‐9 was observed. In conclusion, the present study advocates that quercetin may prove to be a useful candidate in containing the oxidative‐induced apoptotic events during chlorpyrifos exposure.     

The role of oxidative stress in glaucoma

DNA damage is related to a variety of degenerative diseases such as cancer, atherosclerosis and neurodegenerative diseases, depending on the tissue affected. Increasing evidence indicates that reactive oxygen species (ROS) play a key role in the pathogenesis of primary open angle glaucoma (POAG), the main cause of irreversible blindness worldwide. Oxidative DNA damage is significantly increased in the ocular epithelium regulating aqueous humor outflow, i.e., the trabecular meshwork (TM), of glaucomatous patients compared to controls. The pathogenic role of ROS in glaucoma is supported by various experimental findings, including (a) resistance to aqueous humor outflow is increased by hydrogen peroxide by inducing TM degeneration; (b) TM possesses remarkable antioxidant activities, mainly related to superoxide dismutase-catalase and glutathione pathways that are altered in glaucoma patients; and (c) intraocular-pressure increase and severity of visual-field defects in glaucoma patients parallel the amount of oxidative DNA damage affecting TM. Vascular alterations, which are often associated with glaucoma, could contribute to the generation of oxidative damage. Oxidative stress, occurring not only in TM but also in retinal cells, appears to be involved in the neuronal cell death affecting the optic nerve in POAG. The highlighting of the pathogenic role of ROS in POAG has implications for the prevention of this disease as indicated by the growing number of studies using genetic analyses to identify susceptible individuals and of clinical trials testing the efficacy of antioxidant drugs for POAG management.