Your search keyword '"Lhamas CL"' showing total 8 results

1. In silico and in vivo protective effect of Morus nigra leaves on oxidative damage induced by iron overload.

Author

Figueredo KC, Guex CG, da Silva ARH, Lhamas CL, Engelmann AM, Maciel RM, Danesi CC, Duarte T, Duarte MMMF, Lopes GHH, and Bauermann LF

Subjects

Animals, Kaempferols analysis, Kaempferols pharmacology, Resveratrol pharmacology, Apigenin analysis, Apigenin pharmacology, Vanillic Acid pharmacology, Tandem Mass Spectrometry, Computer Simulation, Dextrans analysis, Dextrans metabolism, Dextrans pharmacology, Plant Extracts therapeutic use, Plant Leaves chemistry, Oxidative Stress, Phytochemicals analysis, Rutin pharmacology, Iron toxicity, Iron analysis, Cytokines metabolism, Inflammation Mediators metabolism, Morus chemistry, Morus metabolism, Hemochromatosis drug therapy, Iron Overload prevention & control

Abstract

Morus nigra L. is a plant popularly known as 'amoreira preta', very used in folk medicine. Iron overload (hemochromatosis) is a clinical condition that causes damage to various tissues due to oxidative stress. Therapy to control iron overload is still unsatisfactory. The protective effect on oxidative stress induced by iron overload was verified. Phytochemical characterization was evaluated by UHPLC-MS/MS. The in silico toxicity predictions of the main phytochemicals were performed via computer simulation. To induce iron overload, the animals received iron dextran (50 mg/kg/day). The test groups received doses of 500 and 1000 mg/kg of M. nigra extract for six weeks. Body weight, organosomatic index, serum iron, hepatic markers, cytokines, interfering factors in iron metabolism, enzymatic and histopathological evaluations were analyzed. Vanillic acid, caffeic acid, 6-hydroxycoumarin, p -coumaric acid, ferulic acid, rutin, quercitrin, resveratrol, apigenin and kaempferol were identified in the extract. In addition, in silico toxic predictions showed that the main compounds presented a low probability of toxic risk. The extract of M. nigra showed to control the mediators of inflammation and to reduce iron overload in several tissues. Our findings illustrate a novel therapeutic action of M. nigra leaves on hemochromatosis caused by iron overload.

Published

2022

2. Impacts of dose and length of exposure to boldenone and stanazolol on enzymatic antioxidant systems, myeloperoxidase and NAGase activities, and glycogen and lactate levels in rat liver.

Author

Carvalho FB, Bueno A, Lhamas CL, Gutierres JM, Carvalho MB, Brusco I, Oliveira SM, Bottari NB, Silva AD, Miron VV, Alves MS, Leitemperger JW, Loro VL, Schetinger MRC, Morsch VM, and de Andrade CM

Subjects

Acetylglucosaminidase metabolism, Animals, Dose-Response Relationship, Drug, Liver metabolism, Peroxidase metabolism, Rats, Rats, Wistar, Testosterone pharmacology, Time Factors, Antioxidants metabolism, Glycogen metabolism, Lactic Acid metabolism, Liver drug effects, Liver enzymology, Stanozolol pharmacology, Testosterone analogs & derivatives

Abstract

We investigated the adverse effects of the anabolic androgenic steroids (AAS) boldenone (BOL) and stanazolol (ST) on the enzymatic antioxidant systems of the rat liver. Male Wistar rats were divided in three protocols (P): PI, 5 mg/kg BOL or ST once a week for 4 weeks; PII, 2.5 mg/kg BOL or ST once a week for 8 weeks; PIII, 1.25 mg/kg BOL or ST once a week for 12 weeks. AAS were administered intramuscularly (0.2 ml, olive oil vehicle) once a week in all protocols. Activities of the enzymes glutathione peroxidase (GPx), glutathione S-transferase (GST), and glutathione reductase (GR), superoxide dismutase (SOD), catalase (CAT), were investigated. We assessed the content of hydrogen peroxide (H 2 O 2 ), glycogen and lactate; and enzyme markers of neutrophils (myeloperoxidase, MPO) and macrophages (NAGase). PI and PII altered the SOD and CAT activities and increased the H 2 O 2 content. PI led to increases in the MPO and NAGase activities. In contrast, changes in GPx, GST and, GR were observed under PII and, to a greater extend, under PIII. Following PIII, GPx, GR, and GST exhibited reduced activities. All protocols altered the glycogen and lactate content. The use of high doses of AAS for a short duration first alters SOD/CAT activity. In contrast, at lower doses of AAS for long periods is associated with changes in the glutathione system. Protocols with high doses of AAS for a short duration exert the most deleterious effects on redox status, markers of cellular infiltration, and the metabolic functioning of hepatic tissues., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

3. Acute and subacute toxicity and chemical constituents of the hydroethanolic extract of Verbena litoralis Kunth.

Author

de Lima R, Guex CG, da Silva ARH, Lhamas CL, Dos Santos Moreira KL, Casoti R, Dornelles RC, da Rocha MIUM, da Veiga ML, de Freitas Bauermann L, and Manfron MP

Subjects

Animals, Aspartate Aminotransferases blood, Catalase metabolism, Ethanol chemistry, Female, Kidney drug effects, Kidney metabolism, Kidney pathology, Liver drug effects, Liver metabolism, Liver pathology, Male, Plant Components, Aerial chemistry, Rats, Wistar, Solvents chemistry, Superoxide Dismutase metabolism, Thiobarbituric Acid Reactive Substances metabolism, Toxicity Tests, Acute, Toxicity Tests, Subacute, Plant Extracts toxicity, Verbena

Abstract

Ethnopharmacological Relevance: Verbena litoralis Kunth is a native species of South America, popularly known as gervãozinho-do-campo or erva-de-pai-caetano. It is used in gastrointestinal disorders, as detoxifying the organism, antifebrile properties and amidaglitis., Aim of the Study: To identify the chemical constituents of the hydroethanolic extract obtained from the aerial parts of V. litoralis and to evaluate the acute and sub-acute toxicity in male and female rats., Materials and Methods: The single dose (2000 mg/kg) of the extract was administered orally to male and female rats. In the subacute study the extract was given at doses of 100, 200 and 400 mg/kg during 28 days orally. Biochemical, hematological and histological analyzes were performed, oxidative stress markers were tested and chemical constituents were identified through UHPLC-ESI-HRMS RESULTS: Six classes of metabolites were identified: iridoids glycosides, flavonoids, phenylpropanoids-derived, phenylethanoid-derived, cinnamic acid-derived and triterpenes. In the acute treatment, the extract was classified as safe (category 5), according to the OECD guide. Our results demonstrated that subacute administration of the crude extract of V. litoralis at 400 mg/kg resulted in an increase in AST in males, whereas ALT enzyme showed a small increase in males that received 200 mg/kg and 400 mg/kg of the extract., Conclusions: The extract of the aerial parts of Verbena litoralis did not present significant toxicity when administered a single dose. However, when different doses were administered for 28 days, were observed changes in hematological, biochemical and histological parameters in rats., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

4. Safety assessment of Morus nigra L. leaves: Acute and subacute oral toxicity studies in Wistar rats.

Author

Figueredo KC, Guex CG, Reginato FZ, Haas da Silva AR, Cassanego GB, Lhamas CL, Boligon AA, Lopes GHH, and de Freitas Bauermann L

Subjects

Administration, Oral, Animals, Anticholesteremic Agents analysis, Catalase metabolism, Cholesterol blood, Female, Kidney drug effects, Kidney metabolism, Liver drug effects, Liver metabolism, Male, Pattern Recognition, Visual drug effects, Phytochemicals analysis, Phytochemicals toxicity, Plant Extracts analysis, Plant Leaves chemistry, Rats, Wistar, Thiobarbituric Acid Reactive Substances metabolism, Toxicity Tests, Acute, Toxicity Tests, Subacute, Anticholesteremic Agents toxicity, Morus, Plant Extracts toxicity

Abstract

Ethnopharmacological Relevance: Morus nigra L. is a plant native to Asia, and well adapted to the Brazilian climate. It is popularly known as "amoreira preta", and is part of the National List of Plants of Interest to the Brazilian Unified Health System. It is used in folk medicine mainly to soften the effects of menopause, as anti-inflammatory, antidiabetic and antihypertensive. However, information on safe doses and use is still precarious., Aim of the Study: To identify the chemical composition of the ethanolic extract of Morus nigra L. leaves (EEMN), as well as perform a toxicological study in male and female rats., Materials and Methods: The chemical composition of the extract was performed by HPLC/DAD. In the acute study, the dose administered was 2000 mg/kg, and signs of toxicity and mortality was observed. In the sub-acute study, the extract was administered at doses of 500, 750 and 1000 mg/kg for 28 days. Behavioral changes, object recognition test, renal and hepatic tissue assessments, biochemical and hematological parameters were determined. The extract was administered orally to male and female rats in both studies., Results: Quercetin and caffeic acid showed as major compounds in the extract. In the acute treatment, the extract was classified as safe (category 5), according to the protocol. In the subacute study, there was a decrease in AST in males (750 and 1000 mg/kg) and females (1000 mg/kg), reduction of total cholesterol in females (750 and 1000 mg/kg), and increase in renal and hepatic change the LPO levels., Conclusion: The present investigation showed that EEMN did not present significant toxic effects when administered orally. Moreover, presented a potentially protective action of organs and possesses hypocholesterolemic activity, thus, it is shown as a promising natural source to be used in pharmacology., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

5. Safety assessment of ethanolic extract of Olea europaea L. leaves after acute and subacute administration to Wistar rats.

Author

Guex CG, Reginato FZ, Figueredo KC, da Silva ARHD, Pires FB, Jesus RDS, Lhamas CL, Lopes GHH, and Bauermann LF

Subjects

Animals, Ethanol chemistry, Female, Male, Rats, Wistar, Solvents chemistry, Toxicity Tests, Acute, Toxicity Tests, Subacute, Olea, Plant Extracts toxicity, Plant Leaves chemistry

Abstract

Olea europaea L., popularly known as olive, is a plant widely used worldwide. Its leaves, fruit and oil are extensively consumed and present important pharmacological properties. However, studies regarding the toxicity of olive leaves are still limited in the literature. Therefore, the aim of the study was to investigate acute and subacute oral toxicities of the ethanolic extract of olive leaves (EEO) in Wistar rats through histopathology and biochemical and hematological parameters. Acute toxicity was assessed using a single dose of 2000 mg/kg of EEO administered by oral gavage to male and female rats. To assess subacute toxicity, EEO was administered during 28 days at different doses (100, 200 and 400 mg/kg) to male and female rats. At the end of the experiments, the liver and kidney were removed and examined microscopically, and blood was collected for hematological and biochemical parameters. A single dose of 2000 mg/kg did not induce mortality or any signs of toxicity among the animals treated. Animals exposed to EEO during 28 days did not present sign of abnormalities. Results demonstrated that EEO did not induce toxicity after exposure to single and repeated doses. However, more studies are needed to fully understand implications for human safety., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

6. Impacts of dose and time of boldenone and stanazolol exposure in inflammatory markers, oxidative and nitrosative stress and histopathological changes in the rat testes.

Author

Bueno A, Carvalho FB, Gutierres JM, Lhamas CL, Brusco I, Oliveira SM, Amaral MG, Dorneles G, Sorraila J, Duarte MM, and de Andrade CM

Subjects

Animals, Dose-Response Relationship, Drug, Male, Nitrosation, Oxidative Stress drug effects, Peroxidase metabolism, Rats, Wistar, Reactive Oxygen Species analysis, Testis chemistry, Testis pathology, Testosterone adverse effects, Testosterone blood, Time Factors, Anabolic Agents adverse effects, Stanozolol adverse effects, Testis drug effects, Testosterone analogs & derivatives

Abstract

The present study was conducted to analyze the adverse effects of the anabolic steroids boldenone (BOL) and stanazolol (ST) in the reproductive function of male rats. These molecules were administered using three different protocols. In Protocol I, BOL and ST were administered in a higher dose than what is recommended but for a short period. In Protocol II, a moderate dose of these compounds was applied for an intermediate period, whereas in Protocol III a reduced dose was administered but for an extended period. Notably, Protocol I and III resulted in increased levels of reactive oxygen specimens (ROS [I, p < 0.01] [III, p < 0.001)]) and nitrite plus nitrate (NOx [I, p < 0.01] [II, p < 0.01] [III,p < 0.05]), respectively, whereas non-protein thiols (NPSH) levels were decreased only after Protocol III (p < 0.01). Myeloperoxidase activity was significantly increased after treatment with BOL in protocol II (p < 0.01) and III (p < 0.05) than with ST in protocol III (p < 0.05). Boldenone and ST also caused a significant up-regulation in the levels of serum testosterone when protocols I (p < 0.01) and II (p < 0.05) were performed. There were also visible histopathological alterations in the testes induced by treatment with BOL, namely degenerative changes primarily characterized by a decrease in the germinal epithelium. Together, these results suggest that the administration of BOL or ST exerts a significantly harmful effect in the testes of male rats. Moreover, all the treatment protocols used in this study induced deleterious effects on the testes, as indicated by the different biochemical parameters investigated. However, only the protocols of longer exposure time (II and III) induced morphological changes compatible with infertility., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

7. Biochemical and oxidative stress markers in the liver and kidneys of rats submitted to different protocols of anabolic steroids.

Author

Dornelles GL, Bueno A, de Oliveira JS, da Silva AS, França RT, da Silva CB, Machado MS, Petry LD, Abdalla FH, Lhamas CL, and de Andrade CM

Subjects

Animals, Biomarkers metabolism, Kidney pathology, Liver pathology, Male, Rats, Rats, Wistar, Kidney metabolism, Liver metabolism, Oxidative Stress drug effects, Testosterone Congeners adverse effects, Testosterone Congeners pharmacology

Abstract

The objective of this study was to evaluate the effects of different protocols (P1, P2, and P3) of boldenone undecylenate (BU) and stanozolol (ST) on markers of liver and kidney function and variables of oxidative stress in these organs. For this, 54 male Wistar rats were divided into nine groups of six animals each. Each animal received intramuscularly 5.0 mg kg -1 of BU or ST once a week for 4 weeks (P1); 2.5 mg kg -1 of BU or ST once a week for 8 weeks (P2); and 1.25 mg kg -1 of BU or ST once a week for 12 weeks (P3). For each protocol, a control group was used, and they received 0.1 ml of olive oil intramuscularly. Blood and fragments of liver and kidney were collected for alanine aminotransferase activity (ALT), alkaline phosphatase, albumin, creatinine, cholesterol, total protein, triglycerides, urea, reactive oxygen species, thiobarbituric acid reactive substances, total thiols, and glutathione evaluation. The results show that the BU in doses of 5 (day 30) and 2.5 mg kg -1 (day 60) changes the ALT seric activity, possibly showing a hepatotoxic effect. High doses of BU may lead to increased levels of cholesterol (protocol P1) possibly due to inhibition of the normal steroid biosynthesis process. All protocols used caused changes in the redox balance of the organs studied (except in the liver, protocol P2), which indicates that these drugs might be harmful even at low doses.

Published

2017

8. Protective effect of quercetin in ecto-enzymes, cholinesterases, and myeloperoxidase activities in the lymphocytes of rats exposed to cadmium.

Author

Abdalla FH, Cardoso AM, Schmatz R, Gonçalves JF, Baldissarelli J, Martins CC, Zanini D, de Oliveira LS, da Costa P, Pimentel VC, Pereira LB, Lhamas CL, Schetinger MR, Morsch VM, and Mazzanti CM

Subjects

Acetylcholinesterase metabolism, Adenosine Deaminase metabolism, Animals, Butyrylcholinesterase blood, Dose-Response Relationship, Drug, Hydrolysis, Lymphocytes metabolism, Male, Protective Agents pharmacology, Pyrophosphatases metabolism, Rats, Wistar, Toxicity Tests methods, Cadmium toxicity, Cholinesterases metabolism, Lymphocytes drug effects, Peroxidase metabolism, Quercetin pharmacology

Abstract

The ex vivo and in vitro effects of quercetin on NTPDase, adenosine deaminase (ADA), and acetycholinesterase (AChE) activities in lymphocytes, as well as the effects of quercetin on butyrylcholinesterase (BChE) activity in serum and myeloperoxidase (MPO) activity in plasma were determined in rats. For the ex vivo experiment, animals were orally exposed to Cadmium (Cd) for 45 days. Animals were divided into eight groups: saline/ethanol, saline/Querc 5 mg/kg, saline/Querc 25 mg/kg, saline/Querc 50 mg/kg, Cd/ethanol, Cd/Querc 5 mg/kg, Cd/Querc 25 mg/kg, and Cd/Querc 50 mg/kg. The ex vivo data showed an increase in the ATP and ADP hydrolysis and ADA activity in Cd-exposed rats when compared to the control group. The treatment with quercetin 25 and 50 mg/kg prevented this increase in the ATP and ADP hydrolysis, while the treatment with quercetin 5, 25, and 50 mg/kg prevented the increase in the ADA activity. AChE, BChE, and MPO activities ex vivo presented an increase in the Cd-exposed group when compared to the control group, and the treatment with quercetin 5, 25, and 50 mg/kg prevented this increase caused by Cd exposure. The in vitro experiment showed that quercetin 5, 10, 25, or 50 µM decreased the ADA activity proportionally to the increase of the concentrations of quercetin when compared to the control group. Thus, we can suggest that the quercetin is able to modulate NTPDase, ADA, AChE, and MPO activities and contribute to maintain the levels of ATP, adenosine, and acetylcholine normal, respectively, exhibiting potent pro-inflammatory and anti-inflammatory actions.

Published

2014