23 research outputs found
Double aspect of manufactured nanoparticles on oxidative and inflammatory metabolisms : deleterious effects and protective effects
On étudie les effets des nanoparticules (d'argent et de silice) manufacturées sur les métabolismes oxydatifs et inflammatoire. La première partie étudie la toxicité in vivo de l'ingestion de nanoparticules d'argent, pendant 11 semaines, sur un modèle animal - rat Sprague Dawley. Nous y avons mis en évidence l'action toxique des nanoparticules d'argent notamment une hausse de la production d'anion superoxyde par les NADPH oxydases hépatiques et cardiaques, des dyslipidémies, une cytolyse hépatique, une augmentation de cytokines pro-inflammatoires et une tendance à la baisse de l'activité d'enzymes antioxydantes. Ceci nous a conduit à aborder l'étude in vitro, sur des modèles cellulaires intestinaux (Caco-2) et cutanés (HaCaT). Au cours de cette étude, des nanoparticules de silice, fonctionnalisées ou non avec des antioxydants, ont été incubées pendant 24 H en présence des cellules. Nous montrons que la modification de la surface des nanoparticules réduit considérablement leur toxicité en limitant la production d'espèces radicalaires et la mortalité cellulaire. D’autre part, le couplage avec un antioxydant permet d’augmenter la stimulation de voie de signalisation du facteur Nrf2. Cette voie est impliquée dans la protection de l’organisme contre les troubles liés aux espèces radicalaires. En somme, ce travail met en avant les potentialités de la vectorisation d’antioxydants avec des nanoparticules à des fins thérapeutiques.The purpose of this study is to explore the effects of nanoparticles (silver and silica) manufactured on oxidative and inflammatory metabolism. In the first part of this work, we explored the in vivo toxicity from ingestion of silver nanoparticles, for 11 weeks, in an animal model - Sprague Dawley rat. This enabled us to demonstrate the toxic properties of silver nanoparticles including superoxide anion production by hepatic and cardiac NADPH oxidases, dyslipidemia, hepatic cytolysis, an increase in proinflammatory cytokines and a downward trend the activity of antioxidant enzymes. This led us to address the in vitro study on intestinal cell models (Caco-2) and cutaneous (HaCaT). During this study, silica nanoparticles, functionalized or not with anti-oxidants, were incubated for 24 hours in the presence of the cells. We show that the modification of the surface of the nanoparticles significantly reduces their toxicity limiting the production of free radical species and cell death. Furthermore, the coupling with an anti-oxidant increases the stimulation of Nrf2 factor that involves the protection of the body against disorders associated with radical species. In summary, this work highlights the potential of vectorization of antioxidants with nanoparticles for therapeutic purposes
PAOT-Liquid<sup>®</sup> Technology: An Easy Electrochemical Method for Evaluating Antioxidant Capacity of Wines
Polyphenol compounds present in high quantity in wines are well-known to have potent cardio-protective properties through several biological mechanisms including antioxidant activity [1]. A large number of methods have been developed for evaluating the antioxidant capacity of food matrices. Most of them have, however, the disadvantage of being time consuming and require specific analytical protocols and devices. In the present study, we present the electrochemical PAOT (Pouvoir Antioxydant Total)-Liquid® Technology which can be easily used by winemakers for evaluating antioxidant activity of wine during all steps of making process. The methodology is based on the measurement of electric potential variation resulting from chemical reactions between wine polyphenols and a free radical mediator M• as source of oxidants. Total antioxidant activity as estimated by the PAOT-Liquid® activity was 6.8 fold higher in red wines (n = 14) when compared to rosé (n = 3) and white (n = 3) wines bought in a commercial market. Moreover, PAOT-Liquid® activity was highly correlated with total polyphenols content (TPC) of all wines (r = 0.9540, p < 0.0001) and the classical DPPH (2,2-diphenyl-1-picryhydrazyl) assay which is often used for evaluating antioxidant capacity of food matrices (r = 0.9102, p < 0.0001)
PAOT-Liquid® Technology: An easy Electrochemical Method for Evaluating Antioxidant Capacity of Wines
Polyphenol compounds present in high quantity in wines are well-known to have potent cardio-protective properties through several biological mechanisms including antioxidant activity [1]. A large number of methods have been developed in the laboratory for evaluating this last mechanism in food matrices. Most of them have, however, the disadvantage of being time consuming and require specific analytical protocols and devices. In the present study, we present the electrochemical PAOT (Pouvoir Antioxydant Total)-Liquid® Technology which can be easily used by winemakers for evaluating antioxidant activity during the wine process. The methodology is based on the measurement of electric potential variation resulting from chemical reactions between wine polyphenols and a free radical mediator M• as source of oxidants. Total antioxidant activity as estimated by the PAOT-Liquid® activity was 6.8 fold higher in red wines (n = 14) when compared to rosé (n = 3) and white (n = 3) wines built in a commercial market. Moreover, PAOT-Liquid® activity was highly correlated with total polyphenols content (TPC) of all wines (r = 0.9540, p < 0.0001) and the classical DPPH (2,2-diphenyl-1-picryhydrazyl) assay very which is often used for evaluating antioxidant capacity of food matrices (r = 0.9102, p < 0.0001)
A mitochondrial-targeted ubiquinone modulates muscle lipid profile and improves mitochondrial respiration in obesogenic diet-fed rats
International audienceThe prevalence of the metabolic syndrome components including abdominal obesity, dyslipidaemia and insulin resistance is increasing in both developed and developing countries. It is generally accepted that the development of these features is preceded by, or accompanied with, impaired mitochondrial function. The present study was designed to analyse the effects of a mitochondrial-targeted lipophilic ubiquinone (MitoQ) on muscle lipid profile modulation and mitochondrial function in obesogenic diet-fed rats. For this purpose, twenty-four young male Sprague– Dawley rats were divided into three groups and fed one of the following diets: (1) control, (2) high fat (HF) and (3) HF +MitoQ. After 8 weeks, mitochondrial function markers and lipid metabolism/profile modifications in skeletal muscle were measured. The HF diet was effective at inducing the major features of the metabolic syndrome – namely, obesity, hepatic enlargement and glucose intolerance. MitoQ intake prevented the increase in rat body weight, attenuated the increase in adipose tissue and liver weights and partially reversed glucose intolerance. At the muscle level, the HF diet induced moderate TAG accumulation associated with important modifications in the muscle phospholipid classes and in the fatty acid composition of total muscle lipid. These lipid modifications were accompanied with decrease in mitochondrial respiration. MitoQ intake corrected the lipid alterations and restored mitochondrial respiration. These results indicate that MitoQ protected obesogenic diet-fed rats from some features of the metabolic syndrome through its effects on muscle lipid metabolism and mitochondrial activity. These findings suggest that MitoQ is a promising candidate for future human trials in the metabolic syndrome prevention
Functionalized Mesoporous Silica Nanoparticle with Antioxidants as a New Carrier That Generates Lower Oxidative Stress Impact on Cells
UMR AGAP équipe DAAV Diversité, adaptation et amélioration de la vigneInternational audienceMesoporous silica nanoparticles (MSNs) were covalently coated with antioxidant molecules, namely, caffeic acid (MSN-CAF) or rutin (MSN-RUT), in order to diminish the impact of oxidative stress induced after transfection into cells, thus generating safer carriers used for either drug delivery or other applications. Two cellular models involved in the entry of NPs in the body were used for this purpose: the intestinal Caco-2 and the epidermal HaCaT cell lines. Rutin gave the best results in terms of antioxidant capacities preservation during coupling procedures, cellular toxicity alleviation, and decrease of ROS level after 24 h incubation of cells with grafted nanoparticles. These protective effects of rutin were found more pronounced in HaCaT than in Caco-2 cells, indicating some cellular specificity toward defense against oxidative stress. In order to gain more insight about the Nrf2 response, a stable transfected HaCaT cell line bearing repeats of the antioxidant response element (ARE) in front of a luciferase reporter gene was generated. In this cell line, both tBHQ and quercetin (Nrf2 agonists), but not rutin, were able to induce, in a dose-dependent fashion, the luciferase response. Interestingly, at high concentration, MSN-RUT was able to induce a strong Nrf2 protective response in HaCaT cells, accompanied by a comparable induction of HO-1 mRNA. The level of these responses was again less important in Caco-2 cells. To conclude, in keratinocyte cell line, the coupling of rutin to silica nanoparticles was beneficial in term of ROS reduction, cellular viability, and protective effects mediated through the activation of the Nrf2 antioxidant pathway
Mitochondrial-targeted antioxidant MitoQ ameliorated metabolic syndrome features much better than Apocynin and Allopurinol in obesogenic diet-fed rats
Mitochondrial-targeted antioxidant MitoQ ameliorated metabolic syndrome features much better than Apocynin and Allopurinol in obesogenic diet-fed rats. Assises du DĂ©partement Alim