Protective effects of neohesperidin dihydrochalcone against carbon tetrachloride-induced oxidative damage in vivo and in vitro

In fish, environmental pollution is one factor that induces oxidative stress, and this can disturb the natural antioxidant defense system. Oxidative stress has been well characterized in vitro, yet the in vivo effects of metal-induced oxidative stress have not been extensively studied. In two experiments we examined the impacts of copper (Cu) on gene expression, oxidative damage, and cell oxidative capacity in liver and gill of zebrafish. In the first experiment, soft water-acclimated zebrafish were exposed to 8 and 15 μg/l Cu for 48 h. This exposure resulted in significant increases in gene expression of cytochrome c oxidase subunit 17 (COX-17) and catalase, associated with both increased Cu load and protein carbonyl concentrations in the gill and liver after 48 h. In addition, we examined the potential protective effects of increased waterborne Ca2+(3.3 mM) and Na+(10 mM) on acute Cu toxicity. While both treatments were effective at reducing liver and/or gill Cu loads and attenuating oxidative damage at 48 h, 10 mM Na+was more protective than 3.3 mM Ca2+. There were variable changes in the maximal activities of COX and citrate synthase (CS), indicating possible alterations in cell oxidative capacity. Moreover, Cu affected COX-to-CS ratios in both gill and liver, suggesting that Cu alters normal mitochondrial biogenic processes, possibly though metallochaperones like COX-17. Overall, this study provides important steps in determining the transcriptional and physiological endpoints of acute Cu toxicity in a model tropical species.

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MicroRNA-31-5p Exacerbates Lipopolysaccharide-Induced Acute Lung Injury via Inactivating Cab39/AMPKα Pathway

Oxidative Medicine and Cellular Longevity ◽

10.1155/2020/8822361 ◽

2020 ◽

Vol 2020 ◽

pp. 1-14

Author(s):

Wan-li Jiang ◽

Kao-chang Zhao ◽

Wen Yuan ◽

Fang Zhou ◽

Heng-ya Song ◽

...

Keyword(s):

Acute Lung Injury ◽

Lung Injury ◽

Oxidative Damage ◽

Calcium Binding ◽

Protective Effects ◽

Compound C ◽

Dependent Inhibition ◽

Underlying Mechanisms

Acute lung injury (ALI) and the subsequent acute respiratory distress syndrome remain devastating diseases with high mortality rates and poor prognoses among patients in intensive care units. The present study is aimed at investigating the role and underlying mechanisms of microRNA-31-5p (miR-31-5p) on lipopolysaccharide- (LPS-) induced ALI. Mice were pretreated with miR-31-5p agomir, antagomir, and their negative controls at indicated doses for 3 consecutive days, and then they received a single intratracheal injection of LPS (5 mg/kg) for 12 h to induce ALI. MH-S murine alveolar macrophage cell lines were cultured to further verify the role of miR-31-5p in vitro. For AMP-activated protein kinase α (AMPKα) and calcium-binding protein 39 (Cab39) inhibition, compound C or lentiviral vectors were used in vivo and in vitro. We observed an upregulation of miR-31-5p in lung tissue upon LPS injection. miR-31-5p antagomir alleviated, while miR-31-5p agomir exacerbated LPS-induced inflammation, oxidative damage, and pulmonary dysfunction in vivo and in vitro. Mechanistically, miR-31-5p antagomir activated AMPKα to exert the protective effects that were abrogated by AMPKα inhibition. Further studies revealed that Cab39 was required for AMPKα activation and pulmonary protection by miR-31-5p antagomir. We provide the evidence that endogenous miR-31-5p is a key pathogenic factor for inflammation and oxidative damage during LPS-induced ALI, which is related to Cab39-dependent inhibition of AMPKα.

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Protective effect of leaf extract of Ficus carica L. against carbon tetrachloride-induced hepatic toxicity in mice and HepG2 cell line

Tropical Journal of Pharmaceutical Research ◽

10.4314/tjpr.v20i1.17 ◽

2021 ◽

Vol 20 (1) ◽

pp. 113-119

Author(s):

Syeda Hira ◽

Muhammad Gulfraz ◽

S.M. Saqlan Naqvi ◽

Rehmat Ullah Qureshi ◽

Hina Gul

Keyword(s):

Carbon Tetrachloride ◽

Protective Effect ◽

Hepg2 Cell ◽

Leaf Extract ◽

Treated Group ◽

Ficus Carica ◽

Protective Effects ◽

Hepatoprotective Effects

Purpose: To determine the in vivo and in vitro hepatoprotective effects of Ficus carica.Methods: The methanol leaf extract of Ficus carica L was further fractionated into n-hexane, ethyl acetate and aqueous fractions. For in vivo study, male albino mice were divided into twelve groups. Hepatotoxicity was induced in the mice using carbon tetrachloride (CCl4). The extract of F. carica and its fractions were administered at doses of 200 and 400 mg/kg. Silymarin was used as standardhepatoprotective drug. The protective effects of the extract and fractions were determined via assay of biochemical parameters and antioxidant enzymes in the liver. The histopathology of the liver was also studied. Moreover, the in vitro hepatoprotective effect of the extract and fractions against CCl4-induced damage was determined in HepG2 cell line.Results: There were significant increases in the serum levels of liver biomarkers in CCl4-treated group, whereas treatments with plant extract and fractions significantly reduced the levels of these parameters (p < 0.05). In addition, results from histopathology revealed evidence of protective effect of Ficus carica through reversal of CCl4-induced decreases in the activities of liver antioxidant enzymes.Conclusion: These results indicate that methanol leaf extract of Ficus carica L. and its fractions exert significant and dose-dependent hepatoprotective effects in vivo and in vitro. Keywords: Ficus carica, Hepatoprotection, Carbon tetrachloride, Liver biomarkers

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Hepato- and Nephroprotective Effects of the Polyphenol Concentrate From Cabernet Sauvignon Grape Varieties Cultivated in Kazakhstan in the Experimental Model Of CCL4-Induced Toxicity

INTERNATIONAL JOURNAL OF TOXICOLOGICAL AND PHARMACOLOGICAL RESEARCH ◽

10.25258/ijtpr.v9i03.9068 ◽

2017 ◽

Vol 9 (03) ◽

Author(s):

Nurgozhin T. ◽

Sergazy S. H. ◽

Adilgozhina G. ◽

Gulyayev A. ◽

Shulgau Z. ◽

...

Keyword(s):

Carbon Tetrachloride ◽

Experimental Model ◽

Lethal Dose ◽

Radical Scavenging ◽

Cabernet Sauvignon ◽

Intragastric Administration ◽

Liver And Kidney ◽

Antioxidant Stress

Objective:This study investigates the hepatoprotective effect and the antioxidant role of polyphenol concentrate in the experimental model of carbon tetrachloride (CCl4) induced toxicity. Methods: Antioxidant activity of Cabernet Sauvignon grape polyphenol were evaluated by radical scavenging of 1,1-diphenyl-2-picryl hydrazyl radical (DPPH), 2,2’-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS.+). In addition, the effects of polyphenol concentrate on the survival of Wistar rats in the toxicity model, was also investigated. The polyphenol concentrate was administered for 5 five days prior to injection of carbon tetrachloride in a sub-lethal dose of 300 mg/kg of animal body weight in order to perform histological examinations of the liver and kidney, and detect the levels of AST, ALT and bilirubin. Results: Administration of polyphenol concentrate increased animal survival in the experimental model. Moreover, the intragastric administration of polyphenol concentrate prior to the initiation of the experimental model of toxicity, which was caused by a sub-lethal CCl4 dose, reduced morphological injuries in the liver and kidney, decreased the AST and ALT levels of the blood serum. Discussion and conclusion: Our data demonstrate that polyphenol concentrate possesses an antioxidant potential both in vitro and in vivo by reducing antioxidant stress that was caused by CCl4 administration into rats.

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Antioxidant Activity, Phenolic Content and Hematoprotective Effects of Cleome arabica Polyphenolic Leaf Extract

Phytothérapie ◽

10.3166/phyto-2019-0206 ◽

2019 ◽

Author(s):

C. Tigrine ◽

A. Kameli

Keyword(s):

Antioxidant Activity ◽

Biological Effects ◽

Reducing Power ◽

Hematological Toxicity ◽

Protective Effects ◽

Ferrous Ions ◽

Polyphenolic Extract ◽

Cleome Arabica

In this study a polyphenolic extract from Cleome arabica leaves (CALE) was investigated for its antioxidant activity in vitro using DPPH•, metal chelating and reducing power methods and for its protective effects against AraC-induced hematological toxicity in vivo using Balb C mice. Results indicated that CALE exhibited a strong and dose-dependent scavenging activity against the DPPH• free radical (IC50 = 4.88 μg/ml) and a high reducing power activity (EC50 = 4.85 μg/ml). Furthermore, it showed a good chelating effects against ferrous ions (IC50 = 377.75 μg/ml). The analysis of blood showed that subcutaneous injection of AraC (50 mg/kg) to mice during three consecutive days caused a significant myelosupression (P < 0.05). The combination of CALE and AraC protected blood cells from a veritable toxicity. Where, the number of the red cells, the amount of hemoglobin and the percentage of the hematocrite were significantly high. On the other hand, AraC cause an elevation of body temperature (39 °C) in mice. However, the temperature of the group treated with CALE and AraC remained normal and did not exceed 37.5 °C. The observed biological effects of CALE, in vitro as well as in vivo, could be due to the high polyphenol and flavonoid contents. In addition, the antioxidant activity of CALE suggested to be responsible for its hematoprotective effect.

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Healing effects of curcumin nanoparticles in deep tissue injury mouse model.

Current Drug Delivery ◽

10.2174/1567201818666201214125237 ◽

2020 ◽

Vol 18 ◽

Author(s):

Zirui Zhang ◽

Shangcong Han ◽

Panpan Liu ◽

Xu Yang ◽

Jing Han ◽

...

Keyword(s):

Wound Healing ◽

Mrna Expression ◽

Tissue Injury ◽

Inflammatory Cells ◽

Pcr Analysis ◽

Protective Effects ◽

Deep Tissue ◽

Deep Tissue Injury

Background: Chronic inflammation and lack of angiogenesis are the important pathological mechanisms in deep tissue injury (DTI). Curcumin is a well-known anti-inflammatory and antioxidant agent. However, curcumin is unstable under acidic and alkaline conditions, and can be rapidly metabolized and excreted in the bile, which shortens its bioactivity and efficacy. Objective: This study aimed to prepare curcumin-loaded poly (lactic-co-glycolic acid) nanoparticles (CPNPs) and to elucidate the protective effects and underlying mechanisms of wound healing in DTI models. Methods: CPNPs were evaluated for particle size, biocompatibility, in vitro drug release and their effect on in vivo wound healing. Results : The results of in vivo wound closure analysis revealed that CPNP treatments significantly improved wound contraction rates (p<0.01) at a faster rate than other three treatment groups. H&E staining revealed that CPNP treatments resulted in complete epithelialization and thick granulation tissue formation, whereas control groups resulted in a lack of compact epithelialization and persistence of inflammatory cells within the wound sites. Quantitative real-time PCR analysis showed that treatment with CPNPs suppressed IL-6 and TNF-α mRNA expression, and up-regulated TGF-β, VEGF-A and IL-10 mRNA expression. Western blot analysis showed up-regulated protein expression of TGF-β, VEGF-A and phosphorylatedSTAT3. Conclusion: Our results showed that CPNPs enhanced wound healing in DTI models, through modulation of the JAK2/STAT3 signalling pathway and subsequent upregulation of pro-healing factors.

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