Your search keyword '"oxidative stre"' showing total 890 results

851. Recent advances in the therapy of amyotrophic lateral sclerosis: focus on excitotoxicity

Author

Brighina, L., Gessica Sala, Ceresa, C., Tremolizzo, L., Ferrarese, C., Brighina, L, Sala, G, Ceresa, C, Tremolizzo, L, and Ferrarese, C

Subjects

oxidative stre, therapy, Clinical Trials as Topic, Neurology, Research Design, Amyotrophic Lateral Sclerosis, Neurotoxins, Humans, clinical trial, Nerve Growth Factors, ALS, excitotoxicity, riluzole

Published

2002

852. Impact of high-fat diet and antioxidant supplement on mitochondrial functions and gene transcripts in rat muscle

Author

Jill M. Schimke, J. Unnikrishnan, K. Sreekumaran Nair, Aizhong Fu, Kevin R. Short, Jonas Nygren, Raghavakaimal Sreekumar, Rocco Barazzoni, Sreekumar, R., Unnikrishnan, J., Fu, A., Nygren, J., Short, K. R., Schimke, J., Barazzoni, Rocco, and Nair, K. S.

Subjects

Male, medicine.medical_specialty, Antioxidant, Rodent, Physiology, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Gene Expression, Citrate (si)-Synthase, Biology, medicine.disease_cause, Ion Channels, Nutrition, Oxidative stress, Antioxidants, Mitochondrial Proteins, Rats, Sprague-Dawley, Selenium, Adenosine Triphosphate, Physiology (medical), Internal medicine, biology.animal, Gene expression, medicine, Animals, Uncoupling Protein 3, Vitamin E, Uncoupling Protein 2, RNA, Messenger, Muscle, Skeletal, Vitamin A, Gene, Oligonucleotide Array Sequence Analysis, Body Weight, Membrane Transport Proteins, Proteins, Skeletal muscle, High fat diet, Micronutrient, Dietary Fats, Mitochondria, Rats, medicine.anatomical_structure, Endocrinology, Oxidative stre, Carrier Proteins

Abstract

High-fat diets are reported to increase oxidative stress in a variety of tissues, whereas antioxidant supplementation prevents many diseases attributed to high-fat diet. Rodent skeletal muscle mitochondrial DNA has been shown to be a potential site of oxidative damage. We hypothesized that the effects of a high-fat diet on skeletal muscle DNA functions would be attenuated or partially reversed by antioxidant supplementation. Gene expression profiling and measurement of mitochondrial ATP production capacity were performed in skeletal muscle from male rats after feeding one of three diets (control, high-fat diet with or without antioxidants) for 36 wk. The high-fat diet altered transcript levels of 18 genes of 800 surveyed compared with the control-fed rats. Alterations included reduced expression of genes involved in free-radical scavenging and tissue development and increased expression of stress response and signal transduction genes. The magnitude of these alterations due to high-fat diet was reduced by antioxidant supplementation. Real-time PCR measurements confirmed the changes in transcript levels of cytochrome c oxidase subunit III and superoxide dismutase-1 and -2 noted by microarray approach. Mitochondrial ATP production was unaltered by dietary changes or antioxidant supplemention. It is concluded that the high-fat diet increases the transcription of genes involved in stress response but reduces those of free-radical scavenger enzymes, resulting in reduced DNA repair/metabolism (increased DNA damage). Antioxidants partially prevent these changes. Mitochondrial functions in skeletal muscle remain unaltered by the dietary intervention due to many adaptive changes in gene transcription.

Published

2002

853. Synchronized onset of nuclear and cell surface modifications in U937 cells during apoptosis

Author

Luigi Giusto Spagnoli, M.R. Montinari, Elena Bonanno, Luciana Dini, Mascetti G, E. C. Carlà, Grazia Tagliafierro, Patrizia Pagliara, E., Bonanno, G., Tagliafierro, E. C., Carlà, Montinari, Maria Rosa, Pagliara, Patrizia, G., Mascetti, L. G., Spagnoli, and Dini, Luciana

Subjects

morphological modifications, Histology, Time Factors, Cell, Biophysics, puromycin, U937, Apoptosis, DNA Fragmentation, Biology, Settore MED/08 - Anatomia Patologica, Cell Nucleus, Puromycin, Microscopy, Electron, Scanning, Cell Surface Extensions, Cell Size, U937 Cells, Hydrogen Peroxide, Humans, Electron, chemistry.chemical_compound, Fluorescence microscope, medicine, oxidative stress, Inducer, Scanning, lcsh:QH301-705.5, Microscopy, oxidative stre, U937 cell, Apoptosi, Cell Biology, Phosphatidylserine, Cell biology, medicine.anatomical_structure, chemistry, lcsh:Biology (General), Cell culture, morphological modification

Abstract

In this study we investigated the relationship between nuclear and cell surface modifications (i.e. blebbing, phosphatidylserine [PS] and sugar residues exposure) in a monocytic cell line, U937, during apoptosis induced by oxidative stress (1 mM H2O2) or inhibition of protein synthesis (10 microg/ml puromycin). Dying cells were simultaneously observed for nuclear modifications, presence of superficial blebs and plasma membrane alterations. Morphological analysis performed by conventional fluorescence microscopy, or by transmission and scanning electron microscopy showed that the courses of nuclear and membrane alterations occured concomitantly, but the phenotype was dependent on the stage of the apoptotic process and the type of apoptogenic inducer used. The progression of apoptosis in U937 cells beyond early stages resulted in the extensive formation of blebs which concomitantly lost some typical markers of apoptosis, such as PS and sugar residues. Therefore, the modality by which the nucleus condenses, or the amount and the pattern of distribution of PS on the cell surface were, for each cell line, strictly related to the apoptogenic inducer. The morphological data reported in the present paper should lead to a more precise quantification of apoptosis by improving the detection of apoptotic cells in vivo (i.e. in tissue, organs), which is a crucial point in the evaluation of efficiency of antiproliferative drugs, such as antiblastic or immunosuppressive compounds.

Published

2002

854. Impairment of glutamate transport and increased vulnerability to oxidative stress in neuroblastoma SH-SY5Y cells expressing a Cu,Zn superoxide dismutase typical of familial amyotrophic lateral sclerosis

Author

Sala, G, Beretta, S, Ceresa, C, Mattavelli, L, Zoia, C, Tremolizzo, L, Ferri, A, Carri, M, Ferrarese, C, SALA, GESSICA, TREMOLIZZO, LUCIO, Carri, MT, ZOIA, CHIARA PAOLA, FERRARESE, CARLO, Sala, G, Beretta, S, Ceresa, C, Mattavelli, L, Zoia, C, Tremolizzo, L, Ferri, A, Carri, M, Ferrarese, C, SALA, GESSICA, TREMOLIZZO, LUCIO, Carri, MT, ZOIA, CHIARA PAOLA, and FERRARESE, CARLO

Abstract

Human neuroblastoma SH-SY5Y cells transfected with either familial amyotrophic lateral sclerosis-typical G93A mutant or wild-type copper/zinc superoxide dismutase were compared to untransfected cells in term of glutamate transport. V,,,, of glutamate uptake was reduced in mutant cells, with no change in Km. No difference in EAAT1, EAAT2 and EAAT3 glutamate transporter mRNAs and immunoreactive proteins was found, suggesting that one or more transporters are functionally inactivated, possibly due to increased oxidative stress induced by the G93A mutation. Mutant cells showed a marked sensitivity to oxidants, resulting in a more pronounced reduction of glutamate uptake. Short-term antioxidant treatment did not reverse the impairment of glutamate uptake in G93A cells. Interestlingly, N-acetylcysteine was partially effective in preventing glutamate uptake reduction due to exogenous oxidative insults. Since the inhibition of the EAAT2 transporter subtype had no effect on glutamate re-uptake in this model, our study suggests an impaired function of the EAAT1/3 transporter subtypes, possibly due to oxidative inactivation, in the presence of mutant copper/zinc superoxide dismutase. Therefore, this model might prove to be a valuable tool to study the effects of mutant copper/zinc superoxide dismutase associated with amyotrophic lateral sclerosis on glutamate transport in neuronal cells, without the specific contribution of glial cells. These findings might lead to the identification of new therapeutic strategies aimed at preventing the damage associated with ALS. (C) 2004 Elsevier Ltd. All rights reserved.

Published

2005

855. Health Risk Assessment for Air Pollutants: Alterations in Lung and Cardiac Gene Expression in Mice Exposed to Milano Winter Fine Particulate Matter (PM2.5)

Author

Marina Camatini, Eleonora Mangano, Ingrid Cifola, Cristina Battaglia, Francesca Farina, Paride Mantecca, Paola Palestini, Giulio Sancini, Sancini, G, Farina, F, Battaglia, C, Cifola, I, Mangano, E, Mantecca, P, Camatini, M, and Palestini, P

Subjects

Male, Heart disease, lcsh:Medicine, Gene Expression, Systemic inflammation, medicine.disease_cause, Biochemistry, Transcriptome, Mice, Oxidative Damage, BIO/09 - FISIOLOGIA, Gene expression, OXIDATIVE STRESS, lcsh:Science, Lung, Oligonucleotide Array Sequence Analysis, Air Pollutants, Mice, Inbred BALB C, Multidisciplinary, Heart, medicine.anatomical_structure, Health, Seasons, medicine.symptom, Bronchoalveolar Lavage Fluid, Research Article, medicine.medical_specialty, CYP1B1, CARDIOVASCULAR DISEASE, Inflammation, Biology, Risk Assessment, Health risk assessment, POLLUTION, INFLAMMATION, Internal medicine, Genetics, medicine, Animals, Particle Size, lcsh:R, Biology and Life Sciences, Proteins, Molecular Sequence Annotation, Cell Biology, pulmonary and systemic inflammation, medicine.disease, endothelial cell dysfunction, Gene Ontology, Endocrinology, Immunology, RNA, Oxidative stre, lcsh:Q, Particulate matter, Biomarkers, Oxidative stress

Abstract

Oxidative stress, pulmonary and systemic inflammation, endothelial cell dysfunction, atherosclerosis and cardiac autonomic dysfunction have been linked to urban particulate matter exposure. The chemical composition of airborne pollutants in Milano is similar to those of other European cities though with a higher PM2.5 fraction. Milano winter fine particles (PM2.5win) are characterized by the presence of nitrate, organic carbon fraction, with high amount of polycyclic aromatic hydrocarbons and elements such as Pb, Al, Zn, V, Fe, Cr and others, with a negligible endotoxin presence. In BALB/c mice, we examined, at biochemical and transcriptomic levels, the adverse effects of repeated Milano PM2.5win exposure in lung and heart. We found that ET-1, Hsp70, Cyp1A1, Cyp1B1 and Hsp-70, HO-1, MPO respectively increased within lung and heart of PM2.5win-treated mice. The PM2.5win exposure had a strong impact on global gene expression of heart tissue (181 up-regulated and 178 down-regulated genes) but a lesser impact on lung tissue (14 up-regulated genes and 43 down-regulated genes). Focusing on modulated genes, in lung we found two- to three-fold changes of those genes related to polycyclic aromatic hydrocarbons exposure and calcium signalling. Within heart the most striking aspect is the twofold to threefold increase in collagen and laminin related genes as well as in genes involved in calcium signaling. The current study extends our previous findings, showing that repeated instillations of PM2.5win trigger systemic adverse effects. PM2.5win thus likely poses an acute threat primarily to susceptible people, such as the elderly and those with unrecognized coronary artery or structural heart disease. The study of genomic responses will improve understanding of disease mechanisms and enable future clinical testing of interventions against the toxic effects of air pollutant.

Published

2014

856. Transcriptomic and proteomic analyses of a pale-green durum wheat mutant shows variations in photosystem components and metabolic deficiencies under drought stress

Author

Enrica Roncaglia, Conxita Royo, Ariadna Peremarti, Caterina Marè, Alessio Aprile, Luigi Cattivelli, Dolors Villegas, Peremarti, A., Mare, C., Aprile, A., Roncaglia, E., Cattivelli, L., Villegas, D., and Royo, C.

Subjects

Proteomics, Chlorophyll, Chloroplasts, Genotype, Water stress, Drought tolerance, Mutant, Biology, Photosynthesis, Chloroplast, Pale-green mutant, chemistry.chemical_compound, Photosynthesi, Principal Component Analysi, Gene Expression Regulation, Plant, Botany, Genetics, Water stre, Transcriptomics, Chlorophyll content, Carotenoid, Triticum, Photosystem, chemistry.chemical_classification, Principal Component Analysis, Drought, Gene Expression Profiling, Proteomic, food and beverages, Oxidative Stre, Droughts, Oxidative Stress, Transcriptomic, Triticum turgidum L var. durum, chemistry, Oxidative stress, Xanthophyll, Research Article, Biotechnology

Abstract

Background: Leaf pigment content is an important trait involved in environmental interactions. In order to determine its impact on drought tolerance in wheat, we characterized a pale-green durum wheat mutant (Triticum turgidum L. var. durum) under contrasting water availability conditions. Results: The pale-green mutant was investigated by comparing pigment content and gene/protein expression profiles to wild-type plants at anthesis. Under well-watered (control) conditions the mutant had lower levels of chlorophylls and carotenoids, but higher levels of xanthophyll de-epoxidation compared to wild-type. Transcriptomic analysis under control conditions showed that defense genes (encoding e.g. pathogenesis-related proteins, peroxidases and chitinases) were upregulated in the mutant, suggesting the presence of mild oxidative stress that was compensated without altering the net rate of photosynthesis. Transcriptomic analysis under terminal water stress conditions, revealed the modulation of antioxidant enzymes, photosystem components, and enzymes representing carbohydrate metabolism and the tricarboxylic acid cycle, indicating that the mutant was exposed to greater oxidative stress than the wild-type plants, but had a limited capacity to respond. We also compared the two genotypes under irrigated and rain-fed field conditions over three years, finding that the greater oxidative stress and corresponding molecular changes in the pale-green mutant were associated to a yield reduction. Conclusions: This study provides insight on the effect of pigment content in the molecular response to drought. Identified genes differentially expressed under terminal water stress may be valuable for further studies addressing drought resistance in wheat. A. Peremarti is supported by the AGROTECNIO Foundation. The support of the Efficient Use of Water Program of IRTA is acknowledged. This study was partially funded by MICINN (Spain) under projects AGL2009- 11187, AGL2012-37217 and RTA2009-00085-00, and by MIUR (Italy) under the project ISCOCEM. AP, DV, CR authors are part of the Centre CONSOLIDER INGENIO 2010 on Agrigenomics funded by the Spanish Ministry of Education and Science.

Published

2014

857. Oxidative stress and plateletactivation in homozygous homocystinuria

Author

Davì G, DI MINNO, GIOVANNI, Coppola A, Cerbone AM, Madonna P, Tufano A, Falco A, Marchesani P, Ciabattoni G, Patrono C., ANDRIA, GENEROSO, Davì, G, DI MINNO, Giovanni, Coppola, A, Andria, Generoso, Cerbone, Am, Madonna, P, Tufano, A, Falco, A, Marchesani, P, Ciabattoni, G, and Patrono, C.

Subjects

homozygous homocystinuria, Oxidative stre

Published

2001

858. Food deprivation exacerbates mitochondrial oxidative stress in rat liver exposed to ischemia-reperfusion injury

Author

Bruno Nardo, B Santoni, Gianluigi Vendemiale, Paolo Caraceni, Emanuele Altomare, M. Dall'Agata, Mauro Bernardi, Franco Trevisani, Marco Domenicali, Antonino Cavallari, Ignazio Grattagliano, Domenicali M., Caraceni P., Vendemiale G., Grattagliano I., Nardo B., Dall'Agata M., Santoni B., Trevisani F., Cavallari A., Altomare E., and Bernardi M.

Subjects

Male, medicine.medical_specialty, Ischemia, Medicine (miscellaneous), Ischemia-reperfusion injury, Mitochondria, Liver, Mitochondrion, Biology, medicine.disease_cause, Thiobarbituric Acid Reactive Substances, chemistry.chemical_compound, Reperfusion therapy, Internal medicine, medicine, Animals, Rats, Wistar, Liver injury, Nutrition and Dietetics, Alanine Transaminase, Food deprivation, medicine.disease, Malondialdehyde, Glutathione, Mitochondria, Rats, Microscopy, Electron, Oxidative Stress, Endocrinology, Biochemistry, chemistry, Alanine transaminase, Reperfusion Injury, biology.protein, Oxidative stre, Reperfusion injury, Oxidative stress, Liver Circulation

Abstract

Mitochondria undergo oxidative damage during reperfusion of ischemic liver. Although nutritional status affects ischemia-reperfusion injury in the liver, its effect on mitochondrial damage has not been evaluated. Thus, this study was designed to determine whether starvation influences the oxidative balance in mitochondria isolated from livers exposed to warm ischemia-reperfusion. Fed and 18- and 36-h food-deprived rats underwent partial hepatic ischemia followed by reperfusion. Mitochondria were isolated before and after ischemia and during reperfusion. Serum alanine transaminase was measured to assess liver injury. The mitochondrial concentrations of malondialdehyde, protein carbonyls and glutathione were determined as indicators of oxidative injury. Cell ultrastructure was assessed by transmission electron microscopy. Transaminase levels were greater in 18-h food-deprived than fed rats (after 120 min of reperfusion: 3872 +/- 400 vs. 1138 +/- 59 U/L, P < 0.01). Mitochondrial glutathione was lower in food-deprived than fed rats before and after ischemia, and during reperfusion. Food deprivation also was associated with significantly greater lipid and protein oxidative damage. Finally, more ultrastructural damage was observed during reperfusion in mitochondria from food-deprived rats. Prolonging the length of food deprivation to 36 h exacerbated significantly both the mitochondrial oxidative injury and the release of serum transaminases in rats (after 120 min of reperfusion: 5438 +/- 504 U/L, P < 0.01). Food deprivation was associated with greater mitochondrial oxidative injury in rat livers exposed to warm ischemia-reperfusion, and the extent of oxidative damage in mitochondria increased with the length of food deprivation.

Published

2001

859. Increased methyl esterification of altered aspartyl residues in erythrocyte membrane proteins in response to oxidative stress

Author

INGROSSO, Diego, D'ANGELO S, DI CARLO E, PERNA, Alessandra, ZAPPIA V, GALLETTI P., Ingrosso, Diego, D'Angelo, S, DI CARLO, E, Perna, Alessandra, Zappia, V, and Galletti, P.

Subjects

Ankyrins, S-Adenosylmethionine, Erythrocytes, Time Factors, Ascorbic Acid, isoaspartyl methylation, Methylation, Models, Biological, Antioxidants, tert-Butylhydroperoxide, Anion Exchange Protein 1, Erythrocyte, Malondialdehyde, Protein D-Aspartate-L-Isoaspartate Methyltransferase, Humans, Vitamin E, oxidative stress, Protein Methyltransferases, Erythrocyte membrane, Methemoglobin, hemocatheresis, Aspartic Acid, Dose-Response Relationship, Drug, Cell Membrane, Neuropeptides, protein repair, Membrane Proteins, Blood Proteins, Hydrogen Peroxide, Hemocatheresi, Oxidants, S-Adenosylhomocysteine, Cytoskeletal Proteins, Oxyhemoglobins, Oxidative stre, Electrophoresis, Polyacrylamide Gel

Abstract

Protein-L-isoaspartate (D-aspartate) O-methyltransferase (PCMT; EC 2. 1.1.77) catalyses the methyl esterification of the free alpha-carboxyl group of abnormal L-isoaspartyl residues, which occur spontaneously in protein and peptide substrates as a consequence of molecular ageing. The biological function of this transmethylation reaction is related to the repair or degradation of age-damaged proteins. Methyl ester formation in erythrocyte membrane proteins has also been used as a marker reaction to tag these abnormal residues and to monitor their increase associated with erythrocyte ageing diseases, such as hereditary spherocytosis, or cell stress (thermal or osmotic) conditions. The study shows that levels of L-isoaspartyl residues rise in membrane proteins of human erythrocytes exposed to oxidative stress, induced by t-butyl hydroperoxide or H2O2. The increase in malondialdehyde content confirmed that the cell membrane is a primary target of oxidative alterations. A parallel rise in the methaemoglobin content indicates that proteins are heavily affected by the molecular alterations induced by oxidative treatments in erythrocytes. Antioxidants largely prevented the increase in membrane protein methylation, underscoring the specificity of the effect. Conversely, we found that PCMT activity, consistent with its repair function, remained remarkably stable under oxidative conditions, while damaged membrane protein substrates increased significantly. The latter include ankyrin, band 4.1 and 4.2, and the integral membrane protein band 3 (the anion exchanger). The main target was found to be particularly protein 4.1, a crucial element in the maintenance of membrane-cytoskeleton network stability. We conclude that the increased formation/exposure of L-isoaspartyl residues is one of the major structural alterations occurring in erythrocyte membrane proteins as a result of an oxidative stress event. In the light of these and previous findings, the occurrence of isoaspartyl sites in membrane proteins as a key event in erythrocyte spleen conditioning and hemocatheresis is proposed.

Published

2000

860. Plastic changes and nitric oxide synthase induction in neurons that innervate the regenerated tail of the lizard Gekko gecko: I. Response of spinal motoneurons to tail amputation and regeneration

Author

CRISTINO, LUIGIA, PICA, ALESSANDRA, DELLA CORTE, FRANCESCO, M. BENTIVOGLIO, L., Cristino, DELLA CORTE, Francesco, F., DELLA CORTE, M., Bentivoglio, Cristino, Luigia, and Pica, Alessandra

Subjects

axotomy, free radical, oxidative stre, neuroplasticity, axonal regeneration, motor neurons

Abstract

The lizard tail regenerates after autotomy or amputation. After horseradish peroxidase injections in the regenerate, motoneurons were retrogradely labeled only in the three spinal segments rostral to the amputation, whose spinal nerves are severed by tail loss. The changes in these motoneurons, compared to those of lizards with original intact tails, were investigated 5, 15, and 30 days after caudotomy and at 8 months in lizards with mature regenerates. Morphometric analysis of Nissl-stained motoneurons rostral to the amputation revealed marked hypertrophy, peaking at 15 days, when chromatolysis and nuclear eccentricity were also evident; motoneuron perikarya remained significantly larger than in controls after tail regeneration. The dUTP nick-end labeling (TUNEL) stain for apoptotic neurons did not reveal labeled cells in the spinal cord 5 and 15 days after caudotomy. Nitric oxide synthase (NOS) expression was studied with nicotinamide adenine-dinucleotide phosphate (NADPH)-diaphorase histochemistry and evaluated quantitatively with densitometry. A few caudal spinal motoneurons were lightly stained in lizards with intact tails. Induction of NADPH-diaphorase positivity was evident in the vast majority of these cells 5 days after caudotomy and was very marked at 15 and 30 days, during tail regrowth. These data were confirmed by neuronal NOS immunohistochemistry. After tail regeneration, histochemical positivity was markedly down-regulated in the tail spinal motoneurons but persisted in the majority of these cells. The findings show that in the lizard caudotomy elicits in axotomized caudal spinal motoneurons NOS induction associated with plasticity phenomena and in particular with vigorous regeneration of axons that innervate the regrowing tail

Published

2000

861. Increased oxidative stress in lymphocytes from untreated Parkinson's disease patients

Author

Laura Brighina, Ioannis U. Isaias, A. Galbussera, Barbara Begni, Gianni Pezzoli, Angelo Antonini, Carlo Ferrarese, Simona Andreoni, Alessandro Prigione, Prigione, A, Isaias, I, Galbussera, A, Brighina, L, Begni, B, Andreoni, S, Pezzoli, G, Antonini, A, and Ferrarese, C

Subjects

Male, Parkinson's disease, Reactive oxygen species metabolism, Biology, medicine.disease_cause, Statistics, Nonparametric, medicine, Humans, Lymphocytes, Aged, Tomography, Emission-Computed, Single-Photon, chemistry.chemical_classification, Reactive oxygen species, Parkinson Disease, Oxidative Stre, Middle Aged, medicine.disease, Oxidative Stress, Neurology, chemistry, Immunology, Female, Lymphocyte, Neurology (clinical), Geriatrics and Gerontology, Reactive Oxygen Species, Reactive Oxygen Specie, Oxidative stress

Published

2009

862. Platelet activation in obese women: role of inflammation and oxidant stress

Author

Davì, Giovanni, Guagnano, Maria Teresa, Ciabattoni, Giovanni, Basili, Stefania, Falco, Angela, Marinopiccoli, Marina, Nutini, Michele, Sensi, Sergio, Patrono, Carlo, Davì, Giovanni, Guagnano, Maria Teresa, Ciabattoni, Giovanni, Basili, Stefania, Falco, Angela, Marinopiccoli, Marina, Nutini, Michele, Sensi, Sergio, and Patrono, Carlo

Abstract

BACKGROUND: To investigate early events possibly related to the development of diabetic angiopathy, we examined whether 8-iso-prostaglandin F2alpha (8-iso-PGF2alpha) formation, a marker of in vivo oxidant stress, is altered in different stages of type 1 diabetes (T1DM) and whether it correlates with the rate of thromboxane (TX) A2 biosynthesis, a marker of in vivo platelet activation. We also investigated the relationship between inflammatory markers and F2-isoprostane formation in this setting. METHODS AND RESULTS: A cross-sectional study was performed in 23 insulin-treated patients aged <18 years with new-onset T1DM (1 year, group B). Urinary 8-iso-PGF2alpha and 11-dehydro-TXB2 were measured in all patients and in age- and gender-matched controls. Circulating interleukin-6 (IL-6), tumor necrosis factor-alpha, and C-reactive protein were also determined as markers of the inflammatory response. Fifteen of the 23 children in group A were reexamined after 12 months. Compared with either controls or group B, diabetic children in group A showed significantly higher levels of 8-iso-PGF2alpha, 11-dehydro-TXB2, IL-6, tumor necrosis factor-alpha, and C-reactive protein. Statistically significant correlations between IL-6 and both 8-iso-PGF2alpha (r=0.63, P<0.001) and 11-dehydro-TXB2 (r=0.51, P<0.01) were observed. The 15 patients reexamined after 1 year showed a significant reduction in lipid peroxidation and platelet activation (P<0.02 and P<0.001, respectively), consistent with reduced levels of IL-6 and tumor necrosis factor-alpha. CONCLUSIONS: These results demonstrate that enhanced lipid peroxidation and platelet activation represent early events in T1DM that are possibly related to an acute inflammatory response. These noninvasive indexes may help in further examining T1DM pathophysiology and monitoring pharmacological interventions to interfere with disease development a

Published

2002

863. Total antioxidant potential of fruit and vegetables and risk of gastric cancer

Author

Serafini, M, Bellocco, R, Wolk, A, Ekström, A, Ekström, A., BELLOCCO, RINO, Serafini, M, Bellocco, R, Wolk, A, Ekström, A, Ekström, A., and BELLOCCO, RINO

Abstract

Dietary antioxidants, with additive and synergistic effects, can mediate the observed inverse association between plant food intake and risk of gastric cancer. We investigated whether the total dietary antioxidant potential of fruit and vegetables is an appropriate means of estimating the antioxidant impact on gastric cancer risk in a large population-based study.

Published

2002

864. Nitroxide TEMPOL impairs mitochondrial function and induces apoptosis in HL60 cells

Author

Monti, E, Supino, R, Colleoni, M, Costa, B, Ravizza, R, Gariboldi, M, Gariboldi, MB, COSTA, BARBARA SIMONA, Monti, E, Supino, R, Colleoni, M, Costa, B, Ravizza, R, Gariboldi, M, Gariboldi, MB, and COSTA, BARBARA SIMONA

Abstract

The piperidine nitroxide TEMPOL induces apoptosis in a number of tumor cell lines through free radical-dependent mechanisms. As mitochondria play a major role in apoptosis as both source and target for free radicals, the present study focuses on mitochondrial effects of TEMPOL in a human promyelocytic leukemic cell line (HL-60). On 24-h exposure to TEMPOL, the following alterations were observed: 1) decrease in both the intracellular and mitochondrial glutathione pools; 2) impairment of oxidative phosphorylation; and 3) decrease in mitochondrial membrane potential. In addition, TEMPOL was found to specifically target complex I of the respiratory chain, with minor effects on complexes II and IV, suggesting that mitochondrial effects might play a role in TEMPOL-induced oxidative stress and apoptosis, and that TEMPOL might sensitize tumor cells to the pro-apoptotic effects of cytotoxic agents.

Published

2001

865. Recent advances in the therapy of amyotrophic lateral sclerosis: Focus on excitotoxicity

Author

Brighina, L, Sala, G, Ceresa, C, Tremolizzo, L, Ferrarese, C, BRIGHINA, LAURA, SALA, GESSICA, CERESA, CECILIA, TREMOLIZZO, LUCIO, FERRARESE, CARLO, Brighina, L, Sala, G, Ceresa, C, Tremolizzo, L, Ferrarese, C, BRIGHINA, LAURA, SALA, GESSICA, CERESA, CECILIA, TREMOLIZZO, LUCIO, and FERRARESE, CARLO

Published

2001

866. A short burst of oxygen radicals at reflow induces sustained release of oxidized glutathione from postischemic hearts

Author

Ciro De Simone, Giuseppe Ambrosio, Carlo Duilio, Massimo Chiariello, Giuseppe E. Santoro, P. P. Elia, Plinio Cirillo, Isabella Tritto, Tritto, I, Duilio, Carlo, Santoro, G, Elia, Pp, Cirillo, Plinio, De Simone, C, Chiariello, Massimo, and Ambrosio, G.

Subjects

inorganic chemicals, medicine.medical_specialty, Free Radicals, Radical, Ischemia, Myocardial Ischemia, chemistry.chemical_element, Blood Pressure, Myocardial Reperfusion, medicine.disease_cause, Biochemistry, Oxygen, Ventricular Function, Left, Lipid peroxidation, Superoxide dismutase, chemistry.chemical_compound, Physiology (medical), Internal medicine, Coronary Circulation, medicine, Animals, oxidative stre, Glutathione Peroxidase, biology, Superoxide Dismutase, Glutathione, reperfusion injury, medicine.disease, Kinetics, Oxidative Stress, Endocrinology, Glutathione Reductase, chemistry, biology.protein, Female, Rabbits, Reperfusion injury, Oxidation-Reduction, Oxidative stress

Abstract

Oxygen radical generation induced by postischemic reperfusion can overwhelm endogenous radical scavenging systems, resulting in "oxidative stress." Release of oxidized glutathione (GSSG) upon reflow has been taken as evidence for the occurrence of oxidative stress in postischemic hearts. However, demonstration that GSSG release is due to oxygen radicals and not to other consequences of ischemia/reperfusion is lacking. To address this issue, isolated rabbit hearts underwent 30 min of global ischemia at 37 degrees C. At reflow, control hearts were perfused with standard buffer for 45 min (n = 8); treated hearts received the oxygen radical scavenger superoxide dismutase (hSOD) for 15 min, followed by 30 min of standard perfusion (n = 8). During reperfusion control hearts showed a prominent release of GSSG, which peaked 5 min after reflow. Interestingly, GSSG release was still significantly elevated 45 min into reperfusion, at a time when oxygen radical generation has long ceased. In contrast, in hSOD-treated hearts GSSG release was negligible. Prevention of oxidative stress was also associated with significantly greater recovery of function. Thus, GSSG release occurs in postischemic hearts as a direct consequence of oxygen radical generation, and it may outlast the initial oxidant load.

Published

1998

867. Regulation of gene expression by oxidative stress

Author

AMMENDOLA, ROSARIO, ESPOSITO, FRANCA, RUSSO, TOMMASO, CIMINO, FILIBERTO, G. Caserta, F. Cuccovillo, R. Poulet, Ammendola, Rosario, Esposito, Franca, G., Caserta, F., Cuccovillo, R., Poulet, Russo, Tommaso, and Cimino, Filiberto

Subjects

aging, gene expression, Oxidative stre

Published

1998

868. Gene Regulation by Reactive Oxygen Species

Author

Tommaso Russo, Franca Esposito, Filiberto Cimino, Rosario Ammendola, STADTMAN E.R., CHOCK P.B., Cimino, Filiberto, Esposito, Franca, Ammendola, Rosario, and Russo, Tommaso

Subjects

chemistry.chemical_classification, Regulation of gene expression, Reactive oxygen species, Biochemistry, Chemistry, gene expression, Oxidative stre

Published

1997

869. A p53-independent pathway for activation of WAF1/CIP1 expression following oxidative stress

Author

Carl W. Anderson, Patrick M. O'Connor, Ettore Appella, Tommaso Russo, Franca Esposito, Nicola Zambrano, Rosario Ammendola, Joany Jackman, Filiberto Cimino, Michele Fiscella, Russo, Tommaso, Zambrano, Nicola, Esposito, Franca, Ammendola, Rosario, Cimino, Filiberto, M., Fiscella, J., Jackman, P. M., O'Connor, C. W., Anderson, and E., Appella

Subjects

p53, Cyclin-Dependent Kinase Inhibitor p21, Cell cycle checkpoint, Molecular Sequence Data, Biology, medicine.disease_cause, Biochemistry, chemistry.chemical_compound, Cyclins, medicine, Animals, Humans, Enzyme Inhibitors, Protein kinase A, Molecular Biology, Protein kinase C, Cells, Cultured, Protein Kinase C, oxidative stre, Base Sequence, Gadd45, Cell Cycle, Maleates, Cell Biology, Glutathione, DNA, Cell cycle, Molecular biology, Oxidative Stress, chemistry, Gene Expression Regulation, Calcium-Calmodulin-Dependent Protein Kinases, biological phenomena, cell phenomena, and immunity, Tumor Suppressor Protein p53, Oxidative stress, Intracellular

Abstract

Incubating human cells in diethylmaleate (DEM) depletes the intracellular pool of reduced glutathione (GSH) and increases the concentration of oxidative free radicals. We found that DEM-induced oxidative stress reduced the ability of p53 to bind its consensus recognition sequence and to activate transcription of a p53-specific reporter gene. Nevertheless, DEM treatment induced expression of WAF1/CIP1 but not GADD45 mRNA. The fact that N-acetylcysteine, a precursor of GSH that blocks oxidative stress, prevented WAF1/CIP1 induction by DEM suggests that WAF1/CIP1 induction probably was a consequence of the ability of DEM to reduce intracellular GSH levels. DEM induced WAF1/CIP1 expression in Saos-2 and T98G cells, both of which lack functional p53 protein. DEM treatment did not produce an increase in membrane-associated protein kinase C, but ERK2, a mitogen-activated protein kinase, was phosphorylated in a manner consistent with ERK2 activation. DEM treatment also produced a dose-dependent delay in cell cycle progression, which at low concentrations (0.25 mM) consisted of a G2/M arrest and at higher concentrations (1 mM) also involved G1 and S phase delays. Our results indicate that oxidative stress induces WAF1/CIP1 expression and arrests cell cycle progression through a mechanism that is independent of p53. This mechanism may provide for cell cycle checkpoint control under conditions that inactivate p53.

Published

1995

870. Protective role of chronic ubiquinone administration on acute cardiac oxidative stress

Author

Ferrara, N., Abete, P., Ambrosio, G., Landino, P., Caccese, P., Plinio CIRILLO, Oradei, A., Littarru, G. P., Chiariello, M., Rengo, F., Ferrara, Nicola, Abete, P., Ambrosio, G., Landino, P., Caccese, P., Cirillo, Plinio, Oradei, A., Littarru, G. P., Chiariello, M., Rengo, F., Abete, P, Ambrosio, G, Landino, P, Caccese, P, Oradei, A, Littarru, Gp, Chiariello, Massimo, Rengo, Franco, Abete, Pasquale, and Chiariello, M

Subjects

Male, Perfusion, oxidative stre, Oxidative Stress, Ubiquinone, Myocardium, Animals, Heart, Hydrogen Peroxide, glutathione, Papillary Muscles, Rats, Wistar, Rats

Abstract

Previous studies have shown that acute exogenous administration of coenzyme ubiquinone (C0Q10) can protect the heart against oxidant-mediated injury. The aim of this study was to investigate whether protection against cardiac oxidative stress could be obtained by increasing tissue levels of CoQ10, as achieved by chronic CoQ10 supplementation.Wistar rats were randomly divided into two groups: a control group given standard diet and a test group receiving diet supplemented with CoQ10 (5 mg/kg/day) for 4 weeks. Functional and metabolic changes induced by oxidative stress were investigated in isolated perfused hearts and in papillary muscles. Tissue concentrations of ubiquinones were significantly higher in the left yentricle of treated rats than in controls. H202 infusion (60 ıtM for 60 mm) induced marked alterations of both developed pressure, which decreased to -58.8 ± 16.8% of base line and end-diastolic pressure which increased almost 13-fold. These effects were reduced significantly (P < .05) in hearts from CoQ10-supplemented rats (-13.8 ± 2.3 and +375.0 ± 42.5%, respectively). In the same hearts, cumulative release of oxidized glutathione (a specific marker of oxidative stress) was 450.2 ± 69.2 nmol/g of wet weight in the control group and only 89.6 ±22.3 nmol/g of wet weight in treated hearts (P < .01). In papillary muscles, after 60 mm of perfusion with H202, active tension decreased, largely in controls whereas it was almost unchanged in the treated group (-34.4 ± 7.5% of baseline vs. -0.1 ± 0.05%, P < .05). Resting tension also showed a remarkable increase in papillary muscles of the control group withrespect to treated ones (+600.5 ± 72.7% vs.+20.3 ± 6.7%, P< .005). Action potential duration was reduced in control with respect to treated hearts, reaching a maximum difference at 60 mm (-51 .4 ± 8.4% of baseline and -0.1 ± 0.03, P < .05), whereas amplitude showed a progressive reduction in control with respect to treated papillary muscles (-5.6 ± 1 .3% and -0.1 ± 0.02; P < .05). These effects were a specific consequence on oxidant injury, because inotropic and chronotropic responses to isoproterenol were not different between control and CoQ10-pretreated rats. Thus, our data demonstrate that chronic dietary supplementation of CoQ10 reduces cardiac injury produced by H202, as assessed by several indices. The marked reduction observed in oxidized glutathione release suggests that this protective action may occur via an antioxidant effect of increased tissue concentrations of ubiquinone.

Published

1995

871. Redox-mediated regulation of p21(waf1/cip1) expression involves a post- transcriptional mechanism and activation of the mitogen-activated protein kinase pathway

Author

Esposito, F, Cuccovillo, F, Vanoni, M, Cimino, F, Anderson, C, Appella, E, Russo, T, Esposito, F, Cuccovillo, F, Vanoni, M, Cimino, F, Anderson, C, Appella, E, and Russo, T

Abstract

p21(waf1/cip1) gene expression is induced by DNA damage in cells with wild-type p53 and contributes to the arrest of cell growth. It was demonstrated that under many experimental conditions, including oxidative stress, p21(waf1/cip1) expression can be induced through p53-independent pathways. Since most of these experimental conditions induce the phosphorylation of mitogen-activated protein kinase (MAPK) and thus its activation, we evaluated p21(waf1/cip1) mRNA levels in cells exposed to an oxidative stress, induced by diethylmaleate (Et2Mal), and in which the MAPK pathway was blocked. The expression of a dominant-negative mutant of MEK, the MAPK kinase that phosphorylates and activates MAPK, and of a dominant-negative [Asn17]Ras mutant prevented the Et2Mal-induced accumulation of p21(waf1/cip1) mRNA. Similarly, the expression of MEK- and of [Asn17]Ras mutants decreased the 12-O-tetradecanoyl-phorbol 13-acetate (TPA)-mediated p21(waf1/cip1) induction. Furthermore, TPA-induced and serum-induced p21(waf1/cip1) mRNA accumulation was blocked by pretreating the cells with the antioxidant compound N-acetylcysteine, suggesting that oxidative stress is involved in these responses. p21(waf1/cip1) mRNA levels reached a maximum within 2 h of adding Et2Mal or TPA; however, the rate of transcription from a p21(waf1/cip1)-promoter construct did not increase during this period. In contrast, cells treated with actinomycin D show an increase of p21(waf1/cip1) mRNA stability after Et2Mal treatment. This result suggests that the increase in p21(waf1/cip1) mRNA at early times results from post-transcriptional regulatory events. Longer exposure to TPA may activate p21(waf1/cip1) gene transcription through an Sp1-dependent mechanism, while Et2Mal treatment gradually inhibits p21(waf1/cip1) gene transcription through oxidative changes that affect Sp1 binding to DNA

Published

1997

872. Nuclear damages and oxidative stress: new perspectives for laminopathies

Author

Andrea Facchini, Giovanna Lattanzi, Sandra Marmiroli, Nadir M. Maraldi, Lattanzi G., Marmiroli S., Facchini A., and Maraldi N.M.

Subjects

Histology, Nuclear Envelope, DNA damage, Biophysics, Review, Biology, medicine.disease_cause, laminopathies, nuclear envelope, chromatin, muscular dystrophies, progeria, oxidative stress, LMNA, medicine, Humans, lcsh:QH301-705.5, Transcription factor, laminopathie, Genetics, oxidative stre, Progeria, progenia, Membrane Proteins, Nuclear Proteins, Cell Biology, Lamin Type A, medicine.disease, Phenotype, Chromatin, Cell biology, Oxidative Stress, lcsh:Biology (General), laminopathies, nuclear envelope, chromatin, muscular dystrophies, progeria, oxidative stress, DNA damage, muscular distrophie, Oxidative stress, Lamin

Abstract

Mutations in genes encoding nuclear envelope proteins, particularly LMNA encoding the A-type lamins, cause a broad range of diverse diseases, referred to as laminopathies. The astonishing variety of diseased phenotypes suggests that different mechanisms could be involved in the pathogenesis of laminopathies. In this review we will focus mainly on two of these pathogenic mechanisms: the nuclear damages affecting the chromatin organization, and the oxidative stress causing un-repairable DNA damages. Alteration in the nuclear profile and in chromatin organization, which are particularly impressive in systemic laminopathies whose cells undergo premature senescence, are mainly due to accumulation of unprocessed prelamin A. The toxic effect of these molecular species, which interfere with chromatin-associated proteins, transcription factors, and signaling pathways, could be reduced by drugs which reduce their farnesylation and/or stability. In particular, inhibitors of farnesyl transferase (FTIs), have been proved to be active in rescuing the altered cellular phenotype, and statins, also in association with other drugs, have been included into pilot clinical trials. The identification of a mechanism that accounts for accumulation of un-repairable DNA damage due to reactive oxygen species (ROS) generation in laminopathic cells, similar to that found in other muscular dystrophies (MDs) caused by altered expression of extracellular matrix (ECM) components, suggests that anti-oxidant therapeutic strategies might prove beneficial to laminopathic patients.

Published

2012

873. Nanoparticle microinjection and Raman spectroscopy as tools for nanotoxicology studies

Author

Eudald Casals, Luca Tirinato, Natalia Malara, Francesco De Angelis, Annalisa Fregola, Maria Laura Coluccio, Patrizio Candeloro, Víctor F. Puntes, Enzo Di Fabrizio, Gerardo Perozziello, Francesco Gentile, Carlo Liberale, Gobind Das, Candeloro, Patrizio, Tirinato, Luca, Malara, Natalia, Fregola, Annalisa, Casals, Eudald, Puntes, Victor, Perozziello, Gerardo, Gentile, Francesco, Coluccio, Maria Laura, Das, Gobind, Liberale, Carlo, De Angelis, Francesco, and Di Fabrizio, Enzo

Subjects

Nanostructure, Silver, Microinjections, Metal Nanoparticles, Nanoparticle, Nanotechnology, 02 engineering and technology, HeLa Cell, Spectrum Analysis, Raman, Toxicology, 010402 general chemistry, Ferric Compounds, 01 natural sciences, Biochemistry, Cell Line, Analytical Chemistry, Nanomaterials, HeLa, Metal Nanoparticle, symbols.namesake, Electrochemistry, Humans, Environmental Chemistry, Microinjection, Spectroscopy, biology, Chemistry, Oxidative Stre, 021001 nanoscience & nanotechnology, biology.organism_classification, Ferric Compound, Nanostructures, 0104 chemical sciences, Oxidative Stress, Cell culture, Nanotoxicology, symbols, 0210 nano-technology, Raman spectroscopy, HeLa Cells, Human

Abstract

Microinjection techniques and Raman spectroscopy have been combined to provide a new methodology to investigate the cytotoxic effects due to the interaction of nanomaterials with cells. In the present work, this novel technique has been used to investigate the effects of Ag and Fe(3)O(4) nanoparticles on Hela cells. The nanoparticles are microinjected inside the cells and these latter ones are probed by means of Raman spectroscopy after a short incubation time, in order to highlight the first and impulsive mechanisms developed by the cells to counteract the presence of the nanoparticles. The results put in evidence a different behaviour of the cells treated with nanoparticles in comparison with the control cells; these differences are supposed to be generated by an emerging oxidative stress due to the nanoparticles. The achieved results demonstrate the suitability of the proposed method as a new tool for nanotoxicity studies.

Published

2011

874. Proton pump inhibition induces autophagy as a survival mechanism following oxidative stress in human melanoma cells

Author

Stefano Fais, P. Della Mina, Licia Rivoltini, Sophie Pattingre, Francesco Lozupone, Giulietta Venturi, Stefania Meschini, A. De Milito, Antonello Villa, Mojgan Djavaheri-Mergny, Patrice Codogno, Maria Marino, Marino, M, Fais, S, Djavaheri Mergny, M, Villa, A, Meschini, S, Lozupone, F, Venturi, G, Della Mina, P, Pattingre, S, Rivoltini, L, Codogno, P, and De Milito, A

Subjects

Cancer Research, Proton Pump Inhibitor, V-ATPase, Cell Cycle Proteins, NADPH Oxidase, Autophagy-Related Protein 5, Antineoplastic Agent, Phosphorylation, Membrane Protein, Melanoma, chemistry.chemical_classification, NADPH oxidase, Apoptosis Regulatory Protein, biology, TOR Serine-Threonine Kinase, TOR Serine-Threonine Kinases, Ribosomal Protein S6 Kinases, 70-kDa, Esomeprazole, Hydrogen-Ion Concentration, Proton pump, Cell biology, proton pumps, Phosphoprotein, Original Article, Beclin-1, tumour pH, Reactive Oxygen Specie, Microtubule-Associated Proteins, Omeprazole, Human, Signal Transduction, Programmed cell death, autophagy, Immunology, ATG5, Antineoplastic Agents, Cellular and Molecular Neuroscience, Cell Line, Tumor, Humans, Adaptor Proteins, Signal Transducing, Reactive oxygen species, Autophagy, Microtubule-Associated Protein, ESOM, Membrane Proteins, NADPH Oxidases, Oxidative Stre, Proton Pump Inhibitors, Cell Biology, Phosphoproteins, Acetylcysteine, Oxidative Stress, chemistry, Cancer cell, biology.protein, Apoptosis Regulatory Proteins, Reactive Oxygen Species

Abstract

Proton pump inhibitors (PPI) target tumour acidic pH and have an antineoplastic effect in melanoma. The PPI esomeprazole (ESOM) kills melanoma cells through a caspase-dependent pathway involving cytosolic acidification and alkalinization of tumour pH. In this paper, we further investigated the mechanisms of ESOM-induced cell death in melanoma. ESOM rapidly induced accumulation of reactive oxygen species (ROS) through mitochondrial dysfunctions and involvement of NADPH oxidase. The ROS scavenger N-acetyl-L-cysteine (NAC) and inhibition of NADPH oxidase significantly reduced ESOM-induced cell death, consistent with inhibition of cytosolic acidification. Autophagy, a cellular catabolic pathway leading to lysosomal degradation and recycling of proteins and organelles, represents a defence mechanism in cancer cells under metabolic stress. ESOM induced the early accumulation of autophagosomes, at the same time reducing the autophagic flux, as observed by WB analysis of LC3-II accumulation and by fluorescence microscopy. Moreover, ESOM treatment decreased mammalian target of rapamycin signalling, as reduced phosphorylation of p70-S6K and 4-EBP1 was observed. Inhibition of autophagy by knockdown of Atg5 and Beclin-1 expression significantly increased ESOM cytotoxicity, suggesting a protective role for autophagy in ESOM-treated cells. The data presented suggest that autophagy represents an adaptive survival mechanism to overcome drug-induced cellular stress and cytotoxicity, including alteration of pH homeostasis mediated by proton pump inhibition.

Published

2010

875. Data concerning the proteolytic resistance and oxidative stress in LAN5 cells after treatment with BSA hydrogels

Author

Marta Di Carlo, Valeria Militello, Giovanna Navarra, Marco Contardi, Pasquale Picone, Daniela Giacomazza, Chiara Peres, Pier Luigi San Biagio, Picone, P., Navarra, G., Peres, C., Contardi, M., San Biagio, P., Di Carlo, M., Giacomazza, D., and Militello, V.

Subjects

0301 basic medicine, Programmed cell death, ?-aggregates, chemistry.chemical_element, 02 engineering and technology, Zinc, lcsh:Computer applications to medicine. Medical informatics, medicine.disease_cause, 03 medical and health sciences, β-aggregate, medicine, Cell-scaffold, lcsh:Science (General), Data Article, chemistry.chemical_classification, Multidisciplinary, biology, Proteolytic enzymes, Oxidative Stre, Hydrogels, 021001 nanoscience & nanotechnology, Proteinase K, Cell-scaffol, Hydrogel, β-aggregates, Oxidative Stress, 030104 developmental biology, Enzyme, chemistry, Biochemistry, Drug delivery, Self-healing hydrogels, biology.protein, lcsh:R858-859.7, 0210 nano-technology, Proteolytic resistance, Oxidative stress, lcsh:Q1-390

Abstract

Proteolytic resistance is a relevant aspect to be tested in the formulation of new nanoscale biomaterials. The action of proteolytic enzymes is a very fast process occurring in the range of few minutes. Here, we report data concerning the proteolytic resistance of a heat-set BSA hydrogel obtained after 20-hour incubation at 60°C prepared at the pH value of 3.9, pH at which the hydrogel presents the highest elastic character with respect to gel formed at pH 5.9 and 7.4 “Heat-and pH-induced BSA conformational changes, hydrogel formation and application as 3D cell scaffold” (G. Navarra, C. Peres, M. Contardi, P. Picone, P.L. San Biagio, M. Di Carlo, D. Giacomazza, V. Militello, 2016) [1]. We show that the BSA hydrogel produced by heating treatment is protected by the action of proteinase K enzyme. Moreover, we show that LAN5 cells cultured in presence of BSA hydrogels formed at pH 3.9, 5.9 and 7.4 did not exhibit any oxidative stress, one of the first and crucial events causing cell death “Are oxidative stress and mitochondrial dysfunction the key players in the neurodegenerative diseases?” (M. Di Carlo, D. Giacomazza, P. Picone, D. Nuzzo, P.L. San Biagio, 2012) [2] “Effect of zinc oxide nanomaterials induced oxidative stress on the p53 pathway” (M.I. Setyawati, C.Y. Tay, D.T. Leaong, 2013) [3].

876. Apoptosis and necroptosis induced by stenodactylin in neuroblastoma cells can be completely prevented through caspase inhibition plus catalase or necrostatin-1

Author

Andrea Bolognesi, Maria Giulia Battelli, Manuela Pedrazzi, Letizia Polito, Daniele Mercatelli, Massimo Bortolotti, Polito, Letizia, Bortolotti, Massimo, Pedrazzi, Manuela, Mercatelli, Daniele, Battelli, Maria Giulia, and Bolognesi, Andrea

Subjects

0301 basic medicine, Programmed cell death, Indoles, Necroptosis, Pharmaceutical Science, Apoptosis, medicine.disease_cause, Amino Acid Chloromethyl Ketones, 03 medical and health sciences, Anti-cancer drug, Neuroblastoma, Cell Line, Tumor, Lectins, Drug Discovery, medicine, Humans, Plant toxin, Cytotoxicity, N-Glycosyl Hydrolases, Caspase, chemistry.chemical_classification, Pharmacology, Reactive oxygen species, biology, Cell Death, Drug Discovery3003 Pharmaceutical Science, Ribosome-inactivating protein, Imidazoles, Apoptosi, Complementary and Alternative Medicine2708 Dermatology, Catalase, Molecular biology, Caspase Inhibitors, Cell biology, 030104 developmental biology, chemistry, Complementary and alternative medicine, Oxidative stress, Caspases, biology.protein, Oxidative stre, Molecular Medicine, Reactive Oxygen Species

Abstract

Background Stenodactylin is a highly toxic plant lectin purified from the caudex of Adenia stenodactyla , with molecular structure, intracellular routing and enzyme activity similar to those of ricin, a well-known type 2 ribosome-inactivating protein. However, in contrast with ricin, stenodactylin is retrogradely transported not only in peripheral nerves but also in the central nervous system. Purpose Stenodactylin properties make it a potential candidate for application in neurobiology and in experimental therapies against cancer. Thus, it is necessary to better clarify the toxic activity of this compound. Study design We investigated the mechanism of stenodactylin-induced cell death in the neuroblastoma-derived cell line, NB100, evaluating the implications of different death pathways and the involvement of oxidative stress. Methods Stenodactylin cytotoxicity was determined by evaluating protein synthesis and other viability parameters. Cell death pathways and oxidative stress were analysed through flow cytometry and microscopy. Inhibitors of apoptosis, oxidative stress and necroptosis were tested to evaluate their protective effect against stenodactylin cytotoxicity. Results Stenodactylin efficiently blocked protein synthesis and reduced the viability of neuroblastoma cells at an extremely low concentration and over a short time (1 pM, 24 h). Stenodactylin induced the strong and rapid activation of apoptosis and the production of free radicals. Here, for the first time, a complete and long lasting protection from the lethal effect induced by a toxic type 2 ribosome-inactivating protein has been obtained by combining the caspase inhibitor Z-VAD-fmk, to either the hydrogen peroxide scavenger catalase or the necroptotic inhibitor necrostatin-1. Conclusion In respect to stenodactylin cytotoxicity, our results: (i) confirm the high toxicity to nervous cells, (ii) indicate that multiple cell death pathways can be induced, (iii) show that apoptosis is the main death pathway, (iv) demonstrate the involvement of necroptosis and (v) oxidative stress.

877. The role of oxidative stress and anti-oxidant treatment in platinuminduced peripheral neurotoxicity

Author

P. Marmiroli, Guido Cavaletti, Va Carozzi, Carozzi, V, Marmiroli, P, and Cavaletti, G

Subjects

Cancer Research, Antioxidant, Side effect, Organoplatinum Compounds, medicine.medical_treatment, Antineoplastic Agents, Platinum Compounds, Pharmacology, medicine.disease_cause, Antioxidants, Carboplatin, Ganglia, Spinal, Drug Discovery, medicine, Chemotherapy, Animals, Humans, Experimental model, Neurons, business.industry, Mechanism (biology), Neurotoxicity, Peripheral Nervous System Diseases, medicine.disease, Peripheral, Clinical trial, Oxaliplatin, Oxidative Stress, medicine.anatomical_structure, Neuroprotective Agents, nervous system, Oncology, Peripheral neurotoxicity, Peripheral nervous system, Oxidative stre, Neurotoxicity Syndromes, Cisplatin, business, Reactive Oxygen Species, Oxidative stress, Platinum-compound

Abstract

Platinum-based anticancer drugs are a cornerstone of the current antineoplastic treatment. However, their use is limited by the onset of peripheral nervous system dysfunction, which can be severe and persistent over a long period of time. Among the several hypotheses proposed to explain this side effect, evidence is increasing that dorsal root ganglia (DRG) oxidative stress can be an important pathogenetic mechanism and, possibly, a therapeutic target to limit the severity of platinum-induced peripheral neurotoxicity but preserving the anticancer effectiveness. In fact, DRG energy failure has been suggested as a result of mitochondrial DNA-platinum binding and several antioxidant drugs have been tested in pre-clinical experiments and clinical trials. In this review, an update on the current knowledge on the relationship existing between oxidative stress and platinum drugs peripheral neurotoxicity will be given. © 2010 Bentham Science Publishers Ltd.

878. Differential display of eukaryotic mRNAs: Identification of genes regulated by oxidative stress

Author

Rosario AMMENDOLA, Palombo, G., Caserta, G., Russo, T., Cimino, F., Ammendola, Rosario, G., Palombo, G., Caserta, Russo, Tommaso, and Cimino, Filiberto

Subjects

Differential display, Oxidative stre, Gene expression

879. Oxidative stress, oxidative stress-based diseases and Mediterranean diet. Raman spectroscopy monitoring of skin carotenoids in healthy individuals and in breast cancer operated patients under controlled diets and in vitro assessment of platelet aggregability

Author

PERRONE, Anna, Perrone, ., LIVREA, MARIA ANTONIA, and GERMANA', MARIA

Subjects

oxidative stre, breast cancer, kin carotenoid, platelet aggregability, Mediterranean diet, Settore BIO/10 - Biochimica, Raman spectroscopy

Abstract

Evaluating the level of body antioxidants may reveal a more or less severe oxidative stress condition in either healthy people or subjects with pathologies, and can be suggestive for suitable dietary interventions to possibly affect it. In this work taking advantage from the Raman spectroscopic technology to measure the level of skin carotenoids in a simple and non-invasive manner, healthy people (age 15 to 70, n=155) and women who had surgery for breast cancer (BC) (age 38 to 76, n=71) have been screened to assess to what extent an increased intake of fruit and vegetables (healthy people and patients), associated with diets based on a classical Mediterranean style and that did not include sugared drinks, alcoholic beverages, animal fats and processed meat (patients), might affect the individual antioxidant status. Our data clearly showed that in healthy individuals an optimal body redox state, as expressed by the skin carotenoid score (SCS), positively correlated with the intake of fruit and vegetables, but was inversely correlated with body mass index (BMI), an acknowledged risk factor for cardiovascular disease and cancer. Daily supplements of fruit servings, fresh orange juice in particular, ameliorated significantly the SCS, i.e. decreased the individual oxidative stress. Findings from BC women, monitored for three years (2011-2014), showed that the patients had a significant increase of SCS as strictly adhered to the Mediterranean dietary regimen, again with a higher SCS associated with a lower BMI. Controlling platelet aggregation may prevent thrombotic vascular events. Assessment of platelet aggregation under conditions mimicking a currently prescribed dual antiplatelet therapy, with the use of a novel aggregability assay, has been carried out as a preliminary study to eventually examine the potential modulatory activity of phytochemicals. Our data suggest that the utilized set-up can be an useful approach for further investigation on either whole extracts or purified compounds from Mediterranean vegetal species.

880. Comparative transcriptional profiling in HIV-infected patients using human stress arrays: clues to metabolic syndrome

Author

Esposito V, Manente L, Viglietti R, Parrella G, Parrella R, Gargiulo M, Sangiovanni V, angelica perna, Baldi A, De Luca A, Chirianni A, Esposito, V, Manente, L, Viglietti, R, Parrella, G, Parrella, R, Gargiulo, M, Sangiovanni, V, Perna, A, Baldi, Alfonso, DE LUCA, Antonio, and Chirianni, A.

Subjects

Antiretroviral therapie, HAART, Lipodystrophy, Oxidative stre, HIV infection, Metabolic syndrome

Abstract

Highly active antiretroviral therapy (HAART therapy) for HIV-1 infection has significantly increased the survival and quality of life of patients with this disease. However, in several epidemiological studies the onset of metabolic syndrome is a phenomenon reported to be extremely frequent. In the present study, genes involved in the molecular cascade responsible for the alteration of fat tissue and of lipid and glucose metabolism in patients with HIV-1 infection treated with antiretroviral therapy were identified. Towards this goal, hybridization using Atlas cDNA Expression Arrays allowed simultaneous monitoring of the expression levels of approximately 250 genes and identification of a panel of changes in relation to different therapeutic groups and in the presence of metabolic syndrome, with some genes being up-regulated, while others are down-regulated in the different subgroups of patients. The results of this analysis have shown a panel of transcriptional changes associated with oxidative stress mechanisms that provide a basis for further studies on understanding of mechanisms that, in vivo, are the foundation the metabolic disorders in patients with HIV infection.

881. Role of Serum and Glucocorticoid-Inducible Kinase (SGK)-1 in Senescence: A Novel Molecular Target Against Age-Related Diseases

Author

David Della-Morte, Donatella Pastore, N. Di Daniele, Barbara Capuani, Fabio Pacifici, Pasquale Abete, Alfonso Bellia, Raffaele Palmirotta, Fiorella Guadagni, Renato Lauro, Massimo Federici, Davide Lauro, Mario Roselli, Paolo Sbraccia, Lauro, D., Pastore, D., Capuani, B., Pacifici, F., Palmirotta, R., Abete, P., Roselli, M., Bellia, A., Federici, M., Di Daniele, N., Sbraccia, P., Guadagni, F., Lauro, R., and Della-morte, D.

Subjects

Senescence, Aging, medicine.medical_specialty, Settore MED/09 - Medicina Interna, Settore MED/06 - Oncologia Medica, DNA damage, Neurocognitive Disorders, Metabolic disease, Inflammation, Protein Serine-Threonine Kinases, Biology, medicine.disease_cause, Biochemistry, Immediate early protein, Immediate-Early Proteins, Settore MED/13 - Endocrinologia, SGK-1, Neoplasms, Internal medicine, Drug Discovery, medicine, Animals, Humans, Insulin, Molecular Targeted Therapy, Cancer, Pharmacology, chemistry.chemical_classification, Reactive oxygen species, Organic Chemistry, Apoptosi, Cell biology, Endocrinology, chemistry, Cardiovascular Diseases, Oxidative stre, Molecular Medicine, medicine.symptom, SGK-1, Insulin, Senescence, Glucocorticoid, Homeostasis, Oxidative stress, medicine.drug

Abstract

Senescence is a phenomenon characterized by a progressive decline of body homeostasis. Premature senescence acts when the cellular system is not able to adequately respond to noxious stimuli by synthesis of stressor molecules. Among those, serum-and-glucocorticoidinducible kinase-1 (SGK-1) dramatically increases under typical physiopathological conditions, such as glucocorticoid or mineralcorticoids exposure, inflammation, hyperglycemia, and ischemia. SGK-1 has been implicated in mechanism regulating oxidative stress, apoptosis, and DNA damage, which are all leading to a state of accelerating aging. Moreover, SGK-1-sensitive ion channels participate in the regulation of renal Na(+)/K(+) regulation, blood pressure, gastric acid secretion, cardiac action potential, and neuroexcitability. Recently, we demonstrated in endothelial cells as an increase in SGK-1 activity and expression reduces oxidative stress, improves cell survival and restores insulin-mediated nitric oxide production after hyperglycemia. Moreover, we showed as SGK-1 delays the onset of senescence by increasing telomerase activity, significantly decreasing reactive oxygen species (ROS) production, and by directly interacting with hTERT. Therefore, SGK-1 may represent a specific target to further develop novel therapeutic options against chronic diseases such as diabetes typical of aging. SGK-1 has been also associated with cancer, neurodegenerative diseases, and cardiovascular disease, among other age-related diseases. However, to date, the data available on SGK-1 and aging, are sparse, controversial, and only from C. elegans experimental models. In this review we sought to discuss the possible implication of SGK-1 in mechanisms regulating senescence and age-related diseases. Moreover, we aimed to discuss and identify the possible role of SGK-1 as possible molecular target to counteract and prevent aging.

882. Astrocytes acquire resistance to iron-dependent oxidative stress upon proinflammatory activation

Author

Giacomo Giacalone, Ilaria Pelizzoni, Filippo Martinelli Boneschi, Alessandra Consonni, Fabio Grohovaz, Daniele Zacchetti, Franca Codazzi, Ilaria Vitali, Romina Macco, Macco, R, Pelizzoni, I, Consonni, A, Vitali, I, Giacalone, G, Martinelli Boneschi, F, Codazzi, Franca, Grohovaz, Fabio, and Zacchetti, D.

Subjects

Iron, Blotting, Western, Immunology, Stimulation, Biology, medicine.disease_cause, Transfection, Nrf2, Proinflammatory cytokine, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, medicine, Animals, Astrocyte activation, RNA, Small Interfering, Cytokine, Microglia, Reverse Transcriptase Polymerase Chain Reaction, General Neuroscience, Research, Neurodegeneration, medicine.disease, Phenotype, Rats, Cytosol, Oxidative Stress, medicine.anatomical_structure, Neurology, Astrocytes, Oxidative stre, Cytokines, Neuroscience, Oxidative stress

Abstract

Background Astrocytes respond to local insults within the brain and the spinal cord with important changes in their phenotype. This process, overall known as “activation”, is observed upon proinflammatory stimulation and leads astrocytes to acquire either a detrimental phenotype, thereby contributing to the neurodegenerative process, or a protective phenotype, thus supporting neuronal survival. Within the mechanisms responsible for inflammatory neurodegeneration, oxidative stress plays a major role and has recently been recognized to be heavily influenced by changes in cytosolic iron levels. In this work, we investigated how activation affects the competence of astrocytes to handle iron overload and the ensuing oxidative stress. Methods Cultures of pure cortical astrocytes were preincubated with proinflammatory cytokines (interleukin-1β and tumor necrosis factor α) or conditioned medium from lipopolysaccharide-activated microglia to promote activation and then exposed to a protocol of iron overload. Results We demonstrate that activated astrocytes display an efficient protection against iron-mediated oxidative stress and cell death. Based on this evidence, we performed a comprehensive biochemical and molecular analysis, including a transcriptomic approach, to identify the molecular basis of this resistance. Conclusions We propose the protective phenotype acquired after activation not to involve the most common astrocytic antioxidant pathway, based on the Nrf2 transcription factor, but to result from a complex change in the expression and activity of several genes involved in the control of cellular redox state.

883. ALCOHOLIC BEVERAGES AND GASTRIC EPITHELIAL CELL VIABILITY: EFFECT ON OXIDATIVE STRESS-INDUCED DAMAGE

Author

Loguercio, C., Tuccillo, C., Federico, A., Fogliano, V., Del Vecchio Blanco, C., Marco ROMANO, Loguercio, Carmelina, Tuccillo, Concetta, Federico, Alessandro, Fogliano, V, DEL VECCHIO BLANCO, Camillo, and Romano, Marco

Subjects

Polyphenol, Epithelial Cell, Alcohol Drinking, Dose-Response Relationship, Drug, Ethanol, Phenol, Time Factor, Cell Survival, digestive, oral, and skin physiology, Oxidative Stre, Wine, Cell Line, Species Specificity, Gastric Mucosa, Flavonoid, Life Science, Alcoholic Beverage, Reactive Oxygen Specie, Human

Abstract

Alcohol is known to cause damage to the gastric epithelium independently of gastric acid secretion. Different alcoholic beverages exert different damaging effects in the stomach. However, this has not been systematically evaluated. Moreover, it is not known whether the non-alcoholic components of alcoholic beverages also play a role in the pathogenesis of gastric epithelial cell damage. Therefore, this study was designed to evaluate whether different alcoholic beverages, at a similar ethanol concentration, exerted different damaging effect in gastric epithelial cells in vitro. Moreover, we evaluated whether pre-treatment of gastric epithelial cells with alcoholic beverages prevented oxidative stress-induced damage to gastric cells. Cell damage was assessed, in MKN-28 gastric epithelial cells, by MTT assay. Oxidative stress was induced by incubating cells with xanthine and xanthine oxidase. Gastric cell viability was assessed following 30, 60, and 120 minutes incubation with ethanol 17.5-125 mg/ml(-1) or different alcoholic beverages (i.e., beer, white wine, red wine, spirits) at comparable ethanol concentration. Finally, we assessed whether pre-incubation with red wine (with or without ethanol) prevented oxidative stress-induced cell damage. Red wine caused less damage to gastric epithelial cells in vitro compared with other alcoholic beverages at comparable ethanol concentration. Pre-treatment with red wine, but not with dealcoholate red wine, significantly and time-dependently prevented oxidative stress-induced cell damage. Conclusions: 1) red wine is less harmful to gastric epithelial cells than other alcoholic beverages; 2) this seems related to the non-alcoholic components of red wine, because other alcoholic beverages with comparable ethanol concentration exerted more damage than red wine; 3) red wine prevents oxidative stress-induced cell damage and this seems to be related to its ethanol content.

884. Silybin-Phosphatidylcholine complex protects human gastric and Liver Cells from Oxidative stress

Author

Federico, A., Dallio, M., Di Fabio, G., Zarrelli, A., Zappavigna, S., Stiuso, P., Tuccillo, C., Michele Caraglia, Loguercio, C., Federico, Alessandro, Dallio, Marcello, DI FABIO, Giovanni, Zarrelli, Armando, Zappavigna, Silvia, Stiuso, Paola, Tuccillo, Concetta, Caraglia, Michele, and Loguercio, Carmela

Subjects

oxidative stre, Phosphatidylcholine, Cell Survival, Silybin, cell necrosi, Cell Line, Tumor, Apoptosi, Hep G2 Cell, Lipid Peroxidation, Antioxidant, Human, Silymarin

Abstract

Silybin is the main component of silymarin with antioxidant, anti-inflammatory and cytoprotective actions. Our aim was to compare the effect of silybin used as single substance, silybin-phosphatidylcholine complex (SilPho), and derivatives of silybin (MannpSil, GalpSil, GlcpSil, LactpSil) on MKN28 and HepG2 cell viability and cell death, in vitro, after induction of oxidative stress.

885. Reactive oxygen species and antioxidants: Implications for clinical nutrition

Author

Zanetti, M., Biolo, G., Biffp, R., Nicolaas Deutz, Guglielmi, F. W., Palmo, A., Singer, P., Tetamo, R., Muscaritoli, M., Zanetti, Michela, Biolo, Gianni, Biffp, R., Deutz, N. E., Guglielmi, F. W., Palmo, A., Singer, P., Tetamo, R., and Muscaritoli, M.

Subjects

reactive oxygen species, reactive oxygen specie, oxidative stre, neurological, Nutrition, oxidative stress, antioxidants, clinical nutrition, critically ill, artificial nutrition, cancer

886. High-salt diet increases glomerular ACE/ACE2 ratio leading to oxidative stress and kidney damage

Author

Barbara Toffoli, Francesco Fallo, Silvia Monticone, Stella Bernardi, Pasquale Losurdo, Giuseppe Bellini, Merlin C. Thomas, Christina Zennaro, Franco Veglio, Colin I. Johnston, Bruno Fabris, Christos Tikellis, Bernardi, Stella, Toffoli, Barbara, Zennaro, Cristina, Tikellis, C., Monticone, S., Losurdo, P., Bellini, Giuseppe, Thomas, M. C., Fallo, F., Veglio, F., Johnston, C. I., and Fabris, Bruno

Subjects

Male, medicine.medical_treatment, Kidney Glomerulus, ACE2, medicine.disease_cause, Nephrectomy, Renin-Angiotensin System, Mice, high-salt diet, oxidative stress, sodium, Mice, Knockout, chemistry.chemical_classification, Angiotensin II signaling, Kidney, ACE/ACE2, angiotensin, kidney damage, Angiotensin II, medicine.anatomical_structure, Nephrology, Angiotensin-converting enzyme 2, Kidney Diseases, Angiotensin-Converting Enzyme 2, hormones, hormone substitutes, and hormone antagonists, medicine.medical_specialty, Angiotensin-Converting Enzyme, Peptidyl-Dipeptidase A, Internal medicine, medicine, Animals, Rats, Wistar, Sodium Chloride, Dietary, oxidative stre, Transplantation, business.industry, gromerulosclerisi, Glomerulosclerosis, medicine.disease, Rats, Mice, Inbred C57BL, Disease Models, Animal, Enzyme, Endocrinology, chemistry, gromerulosclerisis, business, Oxidative stress

Abstract

BACKGROUND: Angiotensin II (AngII) contributes to salt-driven kidney damage. In this study, we aimed at investigating whether and how the renal damage associated with a high-salt diet could result from changes in the ratio between angiotensin-converting enzyme (ACE) and angiotensin-converting enzyme 2 (ACE2). METHODS: Forty-eight rats randomly allocated to three different dietary contents of salt were studied for 4 weeks after undergoing a left uninephrectomy. We focussed on kidney functional, structural and molecular changes. At the same time, we studied kidney molecular changes in 20 weeks old Ace2-knockout mice (Ace2KO), with and without ACE inhibition. RESULTS: A high salt content diet significantly increased the glomerular ACE/ACE2 ratio. This was associated with increased oxidative stress. To assess whether these events were related, we measured renal oxidative stress in Ace2KO, and found that the absence of ACE2 promoted oxidative stress, which could be prevented by ACE inhibition. CONCLUSION: One of the mechanisms by which a high-salt diet leads to renal damage seems to be the modulation of the ACE/ACE2 ratio which in turn is critical for the cause of oxidative stress, through AngII.

887. Annurca apple (M. pumila Miller cv Annurca) extracts act against stress and ageing in S. cerevisiae yeast cells

Author

Ettore Novellino, Mariarita Stirpe, Romano Silvestri, Vanessa Palermo, Michele M. Bianchi, Cristina Mazzoni, Gian Carlo Tenore, Claudio Falcone, Stirpe, Mariarita, Palermo, Vanessa, Bianchi, Michele Maria, Silvestri, Romano, Falcone, Claudio, Tenore, GIAN CARLO, Novellino, Ettore, and Mazzoni, Cristina

Subjects

Polyphenol, 0301 basic medicine, Aging, Malus, Antioxidant, medicine.medical_treatment, anti-oxidant, apoptosis, fruit, mitochondria, polyphenols, ROS, Saccharomyces cerevisiae, Mitochondrion, Biology, medicine.disease_cause, Models, Biological, Antioxidants, Plant Extract, 03 medical and health sciences, medicine, Humans, Fragmentation (cell biology), chemistry.chemical_classification, Reactive oxygen species, 030102 biochemistry & molecular biology, Plant Extracts, Apoptosi, Oxidative Stre, lcsh:Other systems of medicine, General Medicine, lcsh:RZ201-999, biology.organism_classification, Yeast, Malu, Oxidative Stress, 030104 developmental biology, chemistry, Biochemistry, Complementary and alternative medicine, Reactive Oxygen Species, Reactive Oxygen Specie, Oxidative stress, Research Article, Human

Abstract

Background During the past years, a number of studies have demonstrated the positive effect of apple on ageing and different diseases such as cancer, degenerative and cardiovascular diseases. The unicellular yeast Saccharomyces cerevisiae represents a simple eukaryotic model to study the effects of different compounds on lifespan. We previously demonstrated that apple extracts have anti-ageing effects in this organism because of their antioxidant properties. In particular, the effect is related to the presence in this fruit of polyphenols, which give a large contribution to the antioxidant activity of apples. Methods We we used a clonogenic assay to assess the viability and the resistance to oxidative stress of S. cerevisiae cells in the presence of Annurca apple extracts. The production of ROS and the aberrant morphology of nuclei were detected by cell staining with the fluorescent dies Dihydrorhodamine 123 and DAPI, respectively. Mitochondrial morphology was analyzed by following the localization of the mito-GFP protein into the mitochondrial matrix. Results In this study, we show that apple extracts can increase yeast lifespan, reduce the levels of reactive oxygen species and cell sensitivity to oxidative stress, and prevent nuclei and mitochondria fragmentation protecting cells from regulated cell death. Conclusions In this paper, by using the yeast S. cerevisiae as a model, we have demonstrated that Annurca extracts possess antioxidant properties thanks to which the extracts can reduce the intracellular ROS levels and have anti-apoptotic functions thus prolonging cell lifespan. These results contribute to knowledge on the effects of natural compounds on ageing and support the use of yeast as a model organism for the development of simple tests to assess the effectiveness of bioactive substances from natural sources.

888. Contribution of glutathione-s-transferases to the pharmacogenetics of azathioprine

Author

Stocco, G., Marco Pelin, Franca, R., Iudicibus, S. D., Cuzzoni, E., Favretto, D., Candussio, L., Martelossi, S., Ventura, A., Decorti, G., Wilber Ashley, Stocco, Gabriele, Pelin, Marco, Franca, Raffaella, Iudicibus, Sara De, Cuzzoni, Eva, Favretto, Diego, Candussio, Luigi, Martelossi, Stefano, Ventura, Alessandro, and Decorti, Giuliana

Subjects

Glutathione-S-transferase, oxidative stre, azathioprine, inflammatory bowel disease, pharmacogenetics, oxidative stress, pharmacogenetic

Abstract

Azathioprine is a purine antimetabolite drug commonly used as immunomodulator in the treatment of various chronic inflammatory diseases, such as inflammatory bowel disease (IBD). Azathioprine is activated in vivo after reaction with reduced glutathione (GSH) and conversion to mercaptopurine. Although this reaction may occur spontaneously, the presence of the enzyme glutathione-S-transferase (GST), in particular of isoforms GST-A1/GST-A2 and GST-M1, can increase its speed, leading to a faster activation of azathioprine to active thioguanine nucleotides. Moreover, GSTs may contribute to azathioprine effects by modulating GSH consumption, oxidative stress and apoptosis. Indeed, in young patients with IBD, deletion of GST-M1, which determines reduced enzymatic activity, was recently associated with reduced sensitivity to azathioprine and reduced production of its active metabolites. Therefore, genetic polymorphisms in genes for GSTs may be useful to predict response to azathioprine even if more in vitro and clinical validation studies are needed.

889. Apoptosis and telomeres shortening related to HIV-1 induced oxidative stress in an astrocytoma cell line

Author

Teresa Granato, Michela Pollicita, Caterina Tanzarella, Laura Masuelli, Carolina Muscoli, Stefano Aquaro, Paola Rodinò, Alberto Biasin, Claudio Del Duca, Carlo Federico Perno, Antonella Sgura, Vincenzo Mollace, Pollicita, M, Muscoli, C, Sgura, Antonella, Biasin, A, Granato, T, Masuelli, L, Mollace, V, Tanzarella, C, DEL DUCA, C, Rodinò, P, Perno, Cf, and Aquaro, S.

Subjects

Antioxidant, Time Factors, medicine.medical_treatment, Analysis of Variance, Apoptosis, Astrocytoma, Telomere, Glutathione, Humans, Cell Line, Tumor, Antiviral Agents, HIV-1, Glutathione Disulfide, Oxidative Stress, Acetylcysteine, Enzyme-Linked Immunosorbent Assay, Microscopy, Electron, Biology, medicine.disease_cause, Electron, lcsh:RC321-571, Cell Line, chemistry.chemical_compound, Cellular and Molecular Neuroscience, medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, telomere, oxidative stre, Microscopy, Tumor, General Neuroscience, lcsh:QP351-495, HIV, Settore MED/07 - Microbiologia e Microbiologia Clinica, Cell biology, lcsh:Neurophysiology and neuropsychology, chemistry, Biochemistry, Glutathione disulfide, Oxidative stress, Intracellular, medicine.drug, Research Article

Abstract

Background Oxidative stress plays a key role in the neuropathogenesis of Human Immunodeficiency Virus-1 (HIV-1) infection causing apoptosis of astroglia cells and neurons. Recent data have shown that oxidative stress is also responsible for the acceleration of human fibroblast telomere shortening in vitro. In the present study we analyzed the potential relations occurring between free radicals formation and telomere length during HIV-1 mediated astroglial death. Results To this end, U373 human astrocytoma cells have been directly exposed to X4-using HIV-1IIIB strain, for 1, 3 or 5 days and treated (where requested) with N-acetylcysteine (NAC), a cysteine donor involved in the synthesis of glutathione (GSH, a cellular antioxidant) and apoptosis has been evaluated by FACS analysis. Quantitative-FISH (Q-FISH) has been employed for studying the telomere length while intracellular reduced/oxidized glutathione (GSH/GSSG) ratio has been determined by High-Performance Liquid Chromatography (HPLC). Incubation of U373 with HIV-1IIIB led to significant induction of cellular apoptosis that was reduced in the presence of 1 mM NAC. Moreover, NAC improved the GSH/GSSG, a sensitive indicator of oxidative stress, that significantly decreased after HIV-1IIIB exposure in U373. Analysis of telomere length in HIV-1 exposed U373 showed a statistically significant telomere shortening, that was completely reverted in NAC-treated U373. Conclusion Our results support the role of HIV-1-mediated oxidative stress in astrocytic death and the importance of antioxidant compounds in preventing these cellular damages. Moreover, these data indicate that the telomere structure, target for oxidative damage, could be the key sensor of cell apoptosis induced by oxidative stress after HIV infection.

890. Olive Tree in Circular Economy as a Source of Secondary Metabolites Active for Human and Animal Health Beyond Oxidative Stress and Inflammation

Author

Giulia Biotti, Roberta Budriesi, Andrea Ragusa, Carlo Franchini, Filomena Corbo, Matteo Micucci, Rosanna Mallamaci, Maria Lisa Clodoveo, Francesca Curci, Marilena Muraglia, Mallamaci, R., Budriesi, R., Clodoveo, M. L., Biotti, G., Micucci, M., Ragusa, A., Curci, F., Muraglia, M., Corbo, F., Franchini, C., Mallamaci R., Budriesi R., Clodoveo M.L., Biotti G., Micucci M., Ragusa A., Curci F., Muraglia M., Corbo F., and Franchini C.

Subjects

Olea europea L, 030309 nutrition & dietetics, Pharmaceutical Science, Secondary Metabolism, Review, Analytical Chemistry, chemistry.chemical_compound, Drug Discovery, pit, Food science, 2. Zero hunger, 0303 health sciences, biology, 04 agricultural and veterinary sciences, olive oil, 040401 food science, Chemistry (miscellaneous), Olea, Health, Molecular Medicine, olive leaf extract (OLE), Hydroxy-tyrosol, Cosmeceutical, hydroxytyrosol, Human, Polyphenol, olive mill wastewater (OMW), By-product, by-products, oleuropein, polyphenols, Animals, Humans, Inflammation, Economic Factors, Oxidative Stress, lcsh:QD241-441, 03 medical and health sciences, 0404 agricultural biotechnology, Nutraceutical, lcsh:Organic chemistry, Oleuropein, Physical and Theoretical Chemistry, Economic Factor, Animal, Organic Chemistry, Pomace, Oxidative Stre, biology.organism_classification, Unsaponifiable, chemistry, Hydroxytyrosol

Abstract

Extra-virgin olive oil (EVOO) contains many bioactive compounds with multiple biological activities that make it one of the most important functional foods. Both the constituents of the lipid fraction and that of the unsaponifiable fraction show a clear action in reducing oxidative stress by acting on various body components, at concentrations established by the European Food Safety Authority’s claims. In addition to the main product obtained by the mechanical pressing of the fruit, i.e., the EVOO, the residual by-products of the process also contain significant amounts of antioxidant molecules, thus potentially making the Olea europea L. an excellent example of the circular economy. In fact, the olive mill wastewaters, the leaves, the pomace, and the pits discharged from the EVOO production process are partially recycled in the nutraceutical and cosmeceutical fields also because of their antioxidant effect. This work presents an overview of the biological activities of these by-products, as shown by in vitro and in vivo assays, and also from clinical trials, as well as their main formulations currently available on the market.