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1.
Front Pharmacol ; 15: 1471542, 2024.
Artigo em Inglês | MEDLINE | ID: mdl-39376599

RESUMO

Introduction: Bouvardia ternifolia is a plant known for its traditional medicinal uses, particularly in treating inflammation and oxidative stress. Recent studies have explored its potential in neuroprotection, especially in the context of cerebral ischemia/reperfusion injury, a condition where blood supply returns to the brain after a period of ischemia, leading to oxidative stress and inflammation. This damage is a major contributor to neuronal death and neurodegenerative diseases. Methods: A BCCAO/reperfusion model was induced, followed by treatment with B. ternifolia extract. Various molecular biology methods were employed, including Western blot analysis, gene expression assessment via RT-qPCR, and the measurement of oxidative stress mediators. Results: In the BCCAO/reperfusion model, the compounds in the dichloromethane extract work by targeting various signaling pathways. They prevent the activation of iNOS and nNOS, reducing harmful reactive oxygen and nitrogen species, and boosting antioxidant enzymes like catalase and superoxide dismutase. This lowers oxidative stress and decreases the expression of proteins and genes linked to cell death, such as Bax, Bcl-2, and caspase-3. The extract also blocks the TLR4 receptor, preventing NF-κB from triggering inflammation. Additionally, it reduces the activation of microglia and astrocytes, as shown by lower levels of glial activation genes like GFAP and AiF1. Conclusion: The dichloromethane extract of B. ternifolia demonstrated significant neuroprotective effects in the BCCAO/reperfusion model by modulating multiple signaling pathways. It effectively reduced oxidative stress, inhibited inflammation, and attenuated apoptosis, primarily through the downregulation of key proteins and genes associated with these processes. These findings suggest that the extract holds therapeutic potential for mitigating ischemia/reperfusion-induced neuronal damage.

2.
Antioxidants (Basel) ; 11(7)2022 Jun 26.
Artigo em Inglês | MEDLINE | ID: mdl-35883749

RESUMO

The liver metabolizes ethanol through three enzymatic pathways: alcohol dehydrogenase (ADH), cytochrome p450 (also called MEOS), and catalase. Alcohol dehydrogenase class I (ADH1) is considered the most important enzyme for the metabolism of ethanol, MEOS and catalase (CAT) are considered minor alternative pathways. However, contradicting experiments suggest that the non-ADH1 pathway may have a greater relevance for the metabolism of ethanol than previously thought. In some conditions, ethanol is predominately metabolized to acetaldehyde via cytochrome P450 family 2 (CYP2E1), which is involved in the generation of reactive oxygen species (ROS), mainly through electron leakage to oxygen to form the superoxide (O2•-) radical or in catalyzed lipid peroxidation. The CAT activity can also participate in the ethanol metabolism that produces ROS via ethanol directly reacting with the CAT-H2O2 complex, producing acetaldehyde and water and depending on the H2O2 availability, which is the rate-limiting component in ethanol peroxidation. We have shown that CAT actively participates in lactate-stimulated liver ethanol oxidation, where the addition of lactate generates H2O2, which is used by CAT to oxidize ethanol to acetaldehyde. Therefore, besides its known role as a catalytic antioxidant component, the primary role of CAT could be to function in the metabolism of xenobiotics in the liver.

3.
West Indian med. j ; West Indian med. j;69(9): 606-611, 2021. tab, graf
Artigo em Inglês | LILACS-Express | LILACS | ID: biblio-1515724

RESUMO

ABSTRACT Objective: To establish the oxidant/antioxidant status in serum samples from pregnant women above the threshold for Down syndrome (DS) risk, according to the quadruple test. Methods: Thirty maternal serum samples that were above the threshold for DS risk (study group) were chosen from pregnant women whose quadruple tests were studied at Ankara University Ibni Sina Hospital Central Laboratory. They were matched with the control group consisting of 30 pregnant women whose DS risk were below threshold. Malondialdehyde level, glutathione peroxidase and non-enzymatic superoxide radical scavenger activities (NSSAs) were analyzed in the study and control groups. Results: It was found that NSSA was significantly decreased in the study group as compared to the control group (p = 0.006). Malondialdehyde levels had a tendency to increase with gestational week in both groups (p = 0.042 in the study group and p < 0.001 in the control group). Conclusion: There is a significant decrease in non-enzymatic antioxidant capacity in pregnant women that were above the threshold for DS risk, as compared to the control group. In the context of these results, dietary antioxidant supplementation might be a useful approach during early gestation, especially around the time of conception, possibly to prevent bearing a DS fetus.

4.
Toxicol Mech Methods ; 26(7): 544-553, 2016 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-27470987

RESUMO

Obesity and emphysema are associated with low-grade systemic inflammation and oxidant stress. Assuming that the oxidant stress induced by emphysema would be decreased by obesity, we analyzed the oxidant/antioxidant state in a rat model combining both diseases simultaneously. Obesity was induced using sucrose, while emphysema by exposure to tobacco smoke. End-points evaluated were: body weight, abdominal fat, plasma dyslipidemia and malondialdehyde (MDA), insulin and glucose AUC, activities of Mn-superoxide dismutase (Mn-SOD), glutathione reductase (GR), glutathione transferase (GST) and glutathione peroxidase (GPx); lung MnSOD and 3-nitrotyrosine (3-NT) immunostaining, and expression of αV and ß6 integrin subunits. In rats with obesity, the body weight, abdominal fat, plasma triglyceride levels, glucose AUC, insulin levels, GST activity, and αV and ß6 integrin expressions were amplified. The rats with emphysema had lower values of body weight, abdominal fat, plasma insulin, triglycerides and glucose AUC but higher values of plasma MDA, GPx activity, and the lung expression of the αV and ß6 integrins. The combination of obesity and emphysema compared to either condition alone led to diminished body weight, abdominal fat, plasma insulin MDA levels, GPx and GST activities, and αV and ß6 integrin expressions; these parameters were all previously increased by obesity. Immunostaining for MnSOD augmented in all experimental groups, but the staining for 3-NT only increased in rats treated with tobacco alone or combined with sucrose. Results showed that obesity reduces oxidant stress and integrin expression, increasing antioxidant enzyme activities; these changes seem to partly contribute to a protective mechanism of obesity against emphysema development.


Assuntos
Enfisema/metabolismo , Pulmão/efeitos dos fármacos , Nicotiana , Obesidade/metabolismo , Estresse Oxidativo/efeitos dos fármacos , Fumaça/efeitos adversos , Animais , Antioxidantes/metabolismo , Glicemia/análise , Enfisema/induzido quimicamente , Teste de Tolerância a Glucose , Peróxidos Lipídicos/metabolismo , Pulmão/metabolismo , Pulmão/patologia , Masculino , Obesidade/complicações , Ratos Wistar , Poluição por Fumaça de Tabaco/efeitos adversos
5.
Cardiovasc Res ; 103(4): 498-508, 2014 Sep 01.
Artigo em Inglês | MEDLINE | ID: mdl-24817685

RESUMO

AIMS: We previously demonstrated that pharmacological activation of mitochondrial aldehyde dehydrogenase 2 (ALDH2) protects the heart against acute ischaemia/reperfusion injury. Here, we determined the benefits of chronic activation of ALDH2 on the progression of heart failure (HF) using a post-myocardial infarction model. METHODS AND RESULTS: We showed that a 6-week treatment of myocardial infarction-induced HF rats with a selective ALDH2 activator (Alda-1), starting 4 weeks after myocardial infarction at a time when ventricular remodelling and cardiac dysfunction were present, improved cardiomyocyte shortening, cardiac function, left ventricular compliance and diastolic function under basal conditions, and after isoproterenol stimulation. Importantly, sustained Alda-1 treatment showed no toxicity and promoted a cardiac anti-remodelling effect by suppressing myocardial hypertrophy and fibrosis. Moreover, accumulation of 4-hydroxynonenal (4-HNE)-protein adducts and protein carbonyls seen in HF was not observed in Alda-1-treated rats, suggesting that increasing the activity of ALDH2 contributes to the reduction of aldehydic load in failing hearts. ALDH2 activation was associated with improved mitochondrial function, including elevated mitochondrial respiratory control ratios and reduced H2O2 release. Importantly, selective ALDH2 activation decreased mitochondrial Ca(2+)-induced permeability transition and cytochrome c release in failing hearts. Further supporting a mitochondrial mechanism for ALDH2, Alda-1 treatment preserved mitochondrial function upon in vitro aldehydic load. CONCLUSIONS: Selective activation of mitochondrial ALDH2 is sufficient to improve the HF outcome by reducing the toxic effects of aldehydic overload on mitochondrial bioenergetics and reactive oxygen species generation, suggesting that ALDH2 activators, such as Alda-1, have a potential therapeutic value for treating HF patients.


Assuntos
Aldeído Desidrogenase/metabolismo , Insuficiência Cardíaca/enzimologia , Mitocôndrias/enzimologia , Proteínas Mitocondriais/metabolismo , Remodelação Ventricular/fisiologia , Aldeído-Desidrogenase Mitocondrial , Animais , Insuficiência Cardíaca/fisiopatologia , Masculino , Contração Miocárdica/fisiologia , Miócitos Cardíacos/enzimologia , Ratos Wistar , Função Ventricular/fisiologia
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