Your search keyword '"H.J. Segat"' showing total 15 results

1. Gallic acid prevents ketamine-induced oxidative damages in brain regions and liver of rats

Author

André Vasconcelos Soares, P. S. Baccin, H.Z. Rosa, H.J. Segat, Marilise Escobar Burger, L. T. Mangini, Laura Hautrive Milanesi, Paula Ivanir Schimites, Letícia Reginato Martins, and Luciana Gonçalves Teixeira

Subjects

0301 basic medicine, Male, Antioxidant, medicine.medical_treatment, Oxidative phosphorylation, Pharmacology, medicine.disease_cause, Hippocampus, Thiobarbituric Acid Reactive Substances, Protein Carbonylation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Gallic Acid, medicine, Hippocampus (mythology), Animals, Ketamine, Gallic acid, Sulfhydryl Compounds, Rats, Wistar, Cerebral Cortex, Anesthetics, Dissociative, Chemistry, General Neuroscience, Brain, Rats, Oxidative Stress, 030104 developmental biology, NPSH, Liver, Anesthetic, Lipid Peroxidation, Reactive Oxygen Species, 030217 neurology & neurosurgery, Oxidative stress, medicine.drug

Abstract

Introduction Ketamine (KET) is an anesthetic agent widely used in human and veterinary medicine. According to studies, KET is associated to direct neutorotoxic damages due to its capacity to induce oxidative stress. Because of the free radical generation in the organism and its relation with diseases’ development, there is a growing interest to study antioxidant molecules, such as gallic acid (GA), a natural phenolic compound. Aim Evaluate the GA antioxidant potential for the prevention of oxidative damage in the brain and liver tissue of rats exposed to acute KET administration. Material and Methods 32 Wistar male rats received GA (by gavage, 13.5 mg/kg) for three consecutive days, 24 h after the last GA dose, animals were anesthetized with KET (50 mg/kg, i.m.). All animals were euthanized by decapitation 60 min after KET administration. The liver, brain cortex and hippocampus were removed and homogenized for biochemical analysis. Results In brain cortex, KET increased reactive species (RS) generation, protein carbonyls (PC) levels and reduced non-protein thiols (NPSH) levels, while GA pre-treatment reduced PC and increased NPSH levels. KET increased PC and decreased NPSH levels in the hippocampus, and GA reduced PC and NPSH levels. In the liver, no difference was observed in the RS generation, while KET induced and increase of PC levels and decreased NPSH levels, while GA pre-treatment prevented it. Conclusion GA administration can prevent oxidative damage caused by acute KET administration and minimize its noxious effects. Further studies are needed to evidence GA antioxidant properties regarding KET chronic use.

Published

2019

2. Tactile stimulation during different developmental periods modifies hippocampal BDNF and GR, affecting memory and behavior in adult rats

Author

Luciana Taschetto Vey, Karine Roversi, Marilise Escobar Burger, H.J. Segat, Daniele Leão de Freitas, Verônica Tironi Dias, Marta M.M.F. Duarte, Caren Tatiane de David Antoniazzi, and Vinícia Garzella Metz

Subjects

0301 basic medicine, Elevated plus maze, Sensory stimulation therapy, Cognitive Neuroscience, Hippocampal formation, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, chemistry, Corticosterone, Emotionality, Neurotrophic factors, medicine, Hippocampus (mythology), Anxiety, medicine.symptom, Psychology, Neuroscience, 030217 neurology & neurosurgery

Abstract

Recent studies have shown that tactile stimulation (TS) in pups is able to prevent and/or minimize fear, anxiety behaviors, and addiction to psychostimulant drugs in adult rats. In these studies, animals have been exposed to handling from postnatal day (PND) 1-21. This study was designed to precisely establish which period of preweaning development has a greater influence of TS on neuronal development. After birth, male pups were exposed to TS from PND1-7, PND8-14, and PND15-21. In adulthood, the different periods of postnatal TS were assessed through behavioral, biochemical, and molecular assessments. Animals that received TS from PND8-14 showed lower anxiety-like symptoms, as observed by decreased anxiety index in elevated plus maze. This same TS period was able to improve rats' working memory by increasing the percentage of alternation rate in Y-maze, and induce better ability to cope with stressful situations, as showed in the defensive burying test by a reduced time of burying behavior. On the other hand, animals receiving TS in the first week of life showed longest cumulative burying time, which is directly related to increased anxiety-like behavior. Moreover, TS from PND8-14 showed lower corticosterone levels and better oxidative status, as observed by decreased lipid peroxidation and increased catalase activity in the hippocampus. Brain-derived neurotrophic factor (BDNF) immunocontent was increased in the hippocampus of animals receiving TS from PND8-14, while glucocorticoid receptors immunocontent was decreased in both TS1-7 and TS15-21 , but not TS8-14 . To the best of our knowledge, this study is the first to show TS can be more efficient if applied over a focused period of neonatal development (PND8-14) and this beneficial influence can be reflected on reduced emotionality and increased ability to address stressful situations in adulthood. © 2016 Wiley Periodicals, Inc.

Published

2016

3. Stress during the gestational period modifies pups’ emotionality parameters and favors preference for morphine in adolescent rats

Author

H.Z. Rosa, Marta M.M.F. Duarte, Raquel Cristine Silva Barcelos, Luciana Taschetto Vey, Marilise Escobar Burger, Verônica Tironi Dias, Vinícia Garzella Metz, Thiago Duarte, and H.J. Segat

Subjects

Male, 0301 basic medicine, Offspring, media_common.quotation_subject, Emotions, Physiology, Developmental psychology, 03 medical and health sciences, Behavioral Neuroscience, chemistry.chemical_compound, Drug withdrawal, 0302 clinical medicine, Neurochemical, Pregnancy, Emotionality, Corticosterone, medicine, Animals, Rats, Wistar, media_common, Behavior, Animal, Addiction, Age Factors, medicine.disease, Rats, 030104 developmental biology, chemistry, Prenatal Exposure Delayed Effects, Morphine, Anxiety, Female, medicine.symptom, Psychology, Morphine Dependence, Stress, Psychological, 030217 neurology & neurosurgery, medicine.drug

Abstract

Experimental animal studies have shown that early life periods are highly vulnerable to environmental factors, which may exert prolonged impact on HPA axis function and on subsequent neurochemical and behavioral responses in adulthood. Here we evaluated the influence of environmental stressful situations in two different early life stages on stress-related behaviors, and morphine-conditioned place preference (CPP), which is indicative of addiction. While in the gestational stress (Gest-S) dams were exposed to daily sessions of chronic mild stress (CMS) for 2 weeks, in the postnatal stress (post-NS) the offspring were exposed daily to neonatal isolation from postnatal day (PND) 2 to PND 9 for 60 min. Animals exposed to post-NS showed lesser anxiety in different behavioral paradigms (elevated plus maze-EPM and defensive burying test-DBT) as well as increased exploratory behavior (open-field task-OFT), and no preference for morphine in CPP. In contrast, animals exposed to Gest-S showed increased corticosterone plasma levels together with anxiety symptoms and greater preference for morphine following three days of drug withdrawal. Our findings indicate that the gestational period is critical for stress, whose effects may be manifest throughout life. On the other hand, post-NS can trigger neuroadaptations able to overcome emotional consequences of early life. We hypothesized that Gest-S is able to modify responses to opioids along adulthood, which may facilitate development of addiction to these drugs.

Published

2016

4. Neonatal tactile stimulation decreases depression‐like and anxiety‐like behaviors and potentiates sertraline action in young rats

Author

H.J. Segat, Caren Tatiane de David Antoniazzi, Vinícia Garzella Metz, Marilise Escobar Burger, Daniele de Oliveira Freitas, Thiago Duarte, Raquel Cristine Silva Barcelos, Marta M.M.F. Duarte, and Luciana Taschetto Vey

Subjects

Male, medicine.medical_specialty, Elevated plus maze, Hydrocortisone, medicine.drug_class, Anxiety, Anxiolytic, chemistry.chemical_compound, Developmental Neuroscience, Pregnancy, Corticosterone, Physical Stimulation, Sertraline, Internal medicine, medicine, Animals, Rats, Wistar, Maze Learning, Swimming, Analysis of Variance, Depression, Age Factors, Rats, Disease Models, Animal, Endocrinology, Animals, Newborn, chemistry, Touch, Anesthesia, Antidepressant, Female, Serotonin, Psychology, Selective Serotonin Reuptake Inhibitors, Developmental Biology, medicine.drug, Behavioural despair test

Abstract

It is well known that events which occur in early life exert a significant influence on brain development, what can be reflected throughout adulthood. This study was carried out in order to assess the influence of neonatal tactile stimulation (TS) on behavioral and morphological responses related to depression-like and anxiety-like behaviors, assessed following the administration of sertraline (SERT), a selective serotonin re-uptake inhibitor (SSRI). Male pups were submitted to daily TS, from postnatal day 8 (PND8) to postnatal day 14 (PND14), for 10 min every day. On PND50, adult animals were submitted to forced swimming training (15 min). On PND51, half of each experimental group (UH and TS) received a single sub-therapeutic dose of sertraline (SER, 0.3mg/kg body weight, i.p.) or its vehicle (C, control group). Thirty minutes after injection, depression-like behaviors were quantified in forced swimming test (FST, for 5 min). On the following day, anxiety-like behaviors were assessed in elevated plus maze (EPM), followed by biochemical assessments. TS per se increased swimming time, decreasing immobility time in FST. Besides, TS per se was able to increase frequency of head dipping and time spent in the open arms of EPM, resulting in decreased anxiety index. In addition, groups exposed to TS showed decreased plasma levels of corticosterone per se. Interestingly, while TS exposure significantly potentiated the antidepressant activity of a subtherapeutic dose of SERT, this drug was able to exacerbate TS-induced anxiolytic activity, as observed in FST and EPM, respectively. Decreased plasma levels of both corticosterone and cortisol in animals exposed to TS and treated with SERT are able to confirm the interesting interaction between this neonatal handling and the antidepressant drug. From our results, we conclude that neonatal TS is able to exert beneficial influence on the ability to cope with stressful situations in adulthood, preventing depression and favorably modulating the action of antidepressant drugs.

Published

2015

5. Magnesium Supplementation Prevents and Reverses Experimentally Induced Movement Disturbances in Rats: Biochemical and Behavioral Parameters

Author

Raquel Cristine Silva Barcelos, Karine Roversi, H.J. Segat, Marilise Escobar Burger, Maikel Kronbauer, Katiane Roversi, Caren Tatiane de David Antoniazzi, and Camila Simonetti Pase

Subjects

Male, medicine.medical_specialty, Erythrocytes, Reserpine, Movement disorders, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Substantia nigra, Striatum, Catalepsy, Biochemistry, Inorganic Chemistry, Lipid peroxidation, chemistry.chemical_compound, Internal medicine, Animals, Medicine, Magnesium, Rats, Wistar, Movement Disorders, business.industry, Biochemistry (medical), Brain, General Medicine, medicine.disease, Rats, Cortex (botany), Disease Models, Animal, Endocrinology, Dyskinesia, chemistry, Lipid Peroxidation, medicine.symptom, business, medicine.drug

Abstract

Reserpine administration results in a predictable animal model of orofacial dyskinesia (OD) that has been largely used to access movement disturbances related to extrapyramidal oxidative damage. Here, OD was acutely induced by reserpine (two doses of 0.7 mg/kg subcutaneous (s.c.)), every other day for 3 days), which was administered after (experiment 1) and before (experiment 2) magnesium (Mg) supplementation (40 mg/kg/mL, peroral (p.o.)). In experiment 1, Mg was administered for 28 days before reserpine treatment, while in experiment 2, it was initiated 24 h after the last reserpine administration and was maintained for 10 consecutive days. Experiment 1 (prevention) showed that Mg supplementation was able to prevent reserpine-induced OD and catalepsy development. Mg was also able to prevent reactive species (RS) generation, thus preventing increase of protein carbonyl (PC) levels in both cortex and substantia nigra, but not in striatum. Experiment 2 (reversion) showed that Mg was able to decrease OD and catalepsy at all times assessed. In addition, Mg was able to decrease RS generation, with lower levels of PC in both cortex and striatum, but not in substantia nigra. These outcomes indicate that Mg is an important metal that should be present in the diet, since its intake is able to prevent and minimize the development of movement disorders closely related to oxidative damage in the extrapyramidal brain areas, such as OD.

Published

2015

6. Influence ofTransFat on Skin Damage in First-Generation Rats Exposed to UV Radiation

Author

H.J. Segat, Marilise Escobar Burger, Luciana Taschetto Vey, Juliana CristinaVeit, Katiane Roversi, G.S. Dolci, Raquel Cristine Silva Barcelos, Dalila M. Benvegnú, Fábio Teixeira Kuhn, Karine Roversi, Verônica Tironi Dias, Jaqueline Piccolo, Fabíola Trevizol, and Tatiana Emanuelli

Subjects

medicine.medical_specialty, Trans fat, Antioxidant, food.ingredient, Ultraviolet Rays, Offspring, medicine.medical_treatment, Biochemistry, Antioxidants, Soybean oil, Protein Carbonylation, food, Pregnancy, Internal medicine, medicine, Animals, Plant Oils, Rats, Wistar, Physical and Theoretical Chemistry, Skin, Skin damage, integumentary system, medicine.diagnostic_test, Superoxide Dismutase, Chemistry, General Medicine, Catalase, First generation, Mitochondria, Rats, Skin Aging, Soybean Oil, Endocrinology, Dietary Supplements, Female, Hydrogenation, Reactive Oxygen Species, Lipid profile, Protein carbonyl

Abstract

The influence of trans fatty acids (TFA) on lipid profile, oxidative damage and mitochondrial function in the skin of rats exposed to ultraviolet radiation (UVR) was assessed. The first-generation offspring of female Wistar rats supplemented from pregnancy with either soybean oil (C-SO, rich in n-6 FA; control group) or hydrogenated vegetable fat (HVF, rich in TFA) were continued with the same supplements until adulthood, when half of each group was exposed to UVR for 12 weeks. The HVF group showed higher TFA cutaneous incorporation, increased protein carbonyl (PC) levels, decreased functionality of mitochondrial enzymes and antioxidant defenses of the skin. After UVR, the HVF group showed increased skin thickness and reactive species (RS) generation, with decreased skin antioxidant defenses. RS generation was positively correlated with skin thickness, wrinkles and PC levels. Once incorporated to skin, TFA make it more susceptible to developing UVR-induced disorders.

Published

2015

7. Effects of Fish and Grape Seed Oils as Core of Haloperidol-Loaded Nanocapsules on Oral Dyskinesia in Rats

Author

Carlos Severo Dutra-Filho, Camila Simonetti Pase, Katiane Roversi, Raquel Cristine Silva Barcelos, Marilise Escobar Burger, Tatiana Emanuelli, Dalila Moter Benvegnú, Bruna Lopes Piccoli, Verônica Tironi Dias, Ana L. Savian, Fabíola Trevizol, Cristiane de Bona da Silva, Ruy Carlos Ruver Beck, H.J. Segat, and Jaqueline Piccolo

Subjects

Male, food.ingredient, Cell Survival, medicine.medical_treatment, 02 engineering and technology, Pharmacology, Biochemistry, Nanocapsules, Grape seed oil, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, food, Fish Oils, medicine, Haloperidol, Animals, Plant Oils, Vitis, Viability assay, Rats, Wistar, Antipsychotic, Grape seed, Biological Products, Dyskinesias, Chemistry, Anti-Dyskinesia Agents, Fishes, General Medicine, 021001 nanoscience & nanotechnology, Fish oil, Dyskinesia, medicine.symptom, 0210 nano-technology, 030217 neurology & neurosurgery, medicine.drug

Abstract

Haloperidol is a widely used antipsychotic, despite the severe motor side effects associated with its chronic use. This study was carried out to compare oral dyskinesia induced by different formulations of haloperidol-loaded nanocapsules containing caprylic/capric triglycerides, fish oil or grape seed oil (GSO) as core, as well as free haloperidol. Haloperidol-loaded lipid-core nanocapsules formulations were prepared, physicochemical characterized and administered (0.5 mg kg−1-ip) to rats for 28 days. Oral dyskinesia was evaluated acutely and subchronically and after that cell viability and free radical generation in cortex and substantia nigra. All formulations presented satisfactory physicochemical parameters. Acutely, all formulations were able to prevent oral dyskinesia development in comparison to free haloperidol, except haloperidol-loaded nanocapsules containing GSO, whose effect was only partial. After subchronic treatment, all haloperidol-loaded nanocapsules formulations prevented oral dyskinesia in relation to free drug. Also, haloperidol-loaded nanocapsules containing fish oil and GSO were more effective than caprylic/capric triglycerides nanocapsules and free haloperidol in cell viability preservation and control of free radical generation. Our findings showed that fish oil formulation may be considered as the best formulation of haloperidol-loaded lipid-core nanocapsules, being able to prevent motor side effects associated with chronic use of antipsychotic drugs, as haloperidol.

Published

2017

8. Moderate hypoxia is able to minimize the manganese-induced toxicity in tissues of silver catfish (Rhamdia quelen)

Author

Matheus A.G. Nunes, Angélica M. Teixeira, Kr. Roversi, Camila Simonetti Pase, Ana Paula Konzen Riffel, V. L. Dressler, Fabíola Trevizol, Marilise Escobar Burger, Verônica Tironi Dias, H.J. Segat, Erico M.M. Flores, Katiane Roversi, G.S. Dolci, Bernardo Baldisserotto, Raquel Cristine Silva Barcelos, and Dalila Moter Benvegnú

Subjects

Gills, Gill, medicine.medical_specialty, Health, Toxicology and Mutagenesis, Kidney, Lipid peroxidation, Toxicology, chemistry.chemical_compound, Internal medicine, medicine, Animals, Catfishes, Manganese, biology, Body Weight, Public Health, Environmental and Occupational Health, Hormesis, Brain, General Medicine, Glutathione, Pollution, Mitochondria, Oxygen, medicine.anatomical_structure, Endocrinology, Liver, chemistry, Catalase, Toxicity, biology.protein, Lipid Peroxidation, Water Pollutants, Chemical, Catfish

Abstract

The aim of this study was to compare the effects of manganese (Mn) on silver catfish exposed to different levels of dissolved oxygen. Silver catfish ( Rhamdia quelen ) were exposed to increasing concentrations of Mn (4.2, 8.4 or 16.2 mg L −1 ) under either normoxia (100 percent saturation) or moderate hypoxia (51.87 percent saturation) for 15 days. Under normoxia, Mn exposure increased lipid peroxidation (LP) in brain and kidney; it increased gluthatione (GSH) levels in brain and decreased catalase (CAT) activity in both tissues. Moderate hypoxia was able to prevent Mn-induced LP in brain and to reduce this oxidative parameter in kidney; GSH level was increased in brain, while CAT activity was reduced in both tissues. Activity of isolated mitochondria of liver and gills was reduced by Mn exposure under both levels of dissolved oxygen, but this effect was more prominent in normoxia. As expected, liver, kidney and gills showed an increase of Mn accumulation according to waterborne levels, and these parameters presented positive relationship. The highest waterborne Mn (8.4 and 16.2 mg L −1 ) resulted in greater accumulation under normoxia, indicating that moderate hypoxia can stimulate mechanisms capable of reducing Mn accumulation in tissues (though not in blood). Moderate hypoxia can be considered a stress factor and Mn an aquatic anthropogenic contaminant. Therefore we hypothesized that these two conditions together are able to invoke defense mechanisms in juvenile silver catfish, acting in a compensatory form, which may be related to adaptation and/or hormesis.

Published

2013

9. Antioxidant protection of gallic acid against toxicity induced by Pb in blood, liver and kidney of rats

Author

H.J. Segat, Erico M.M. Flores, Dalila M. Benvegnú, Verônica Tironi Dias, Camila Simonetti Pase, Patrícia Reckziegel, C. Santos, Nardeli Boufleur, Raquel Cristine Silva Barcelos, and Marilise Escobar Burger

Subjects

0301 basic medicine, Antioxidant, Gallic acid, Health, Toxicology and Mutagenesis, medicine.medical_treatment, Aspartate transaminase, Pharmacology, Protein oxidation, Toxicology, Article, Superoxide dismutase, Lipid peroxidation, 03 medical and health sciences, chemistry.chemical_compound, lcsh:RA1190-1270, medicine, lcsh:Toxicology. Poisons, biology, Glutathione, 030104 developmental biology, chemistry, Biochemistry, Lead, Oxidative stress, Toxicity, biology.protein, Chelating agent

Abstract

The effect of the antioxidant gallic acid (GA) on Pb toxicity in blood, liver and kidney was investigated in the present study. Rats Wistar received Pb nitrate (50 mg/Kg/day, i.p., 5 days) followed by GA (13.5 mg/Kg, p.o., 3 days) or a chelating agent (EDTA, 55 mg/Kg, i.p.). As result, Pb decreased body weight, hematocrit and blood δ-aminolevulinic acid dehydratase (ALA-D) activity. In addition, high Pb levels were observed in blood and tissues, together with increased (1) lipid peroxidation in erythrocytes, plasma and tissues, (2) protein oxidation in tissues and (3) plasma aspartate transaminase (AST) levels. These changes were accompanied by decreasing in antioxidant defenses, like superoxide dismutase (SOD) activity in tissues and catalase (CAT) activity and reduced glutathione (GSH) in liver. GA was able to reverse Pb-induced decrease in body weight and ALA-D activity, as well as Pb-induced oxidative damages and most antioxidant alterations, however it did not decrease Pb bioaccumulation herein as EDTA did. Furthermore, EDTA did not show antioxidant protection in Pb-treated animals as GA did. In conclusion, GA decreased Pb-induced oxidative damages not by decreasing Pb bioaccumulation, but by improving antioxidant defenses, thus GA may be promising in the treatment of Pb intoxications. Keywords: Antioxidant, Chelating agent, Gallic acid, Lead, Oxidative stress

Published

2017

10. Locomotor damage and brain oxidative stress induced by lead exposure are attenuated by gallic acid treatment

Author

C. Santos, Camila Simonetti Pase, Marilise Escobar Burger, Verônica Tironi Dias, Dalila Moter Benvegnú, Nardeli Boufleur, Raquel Cristine Silva Barcelos, H.J. Segat, Patrícia Reckziegel, and Erico M.M. Flores

Subjects

Male, medicine.medical_specialty, Antioxidant, medicine.medical_treatment, Motor Activity, Toxicology, medicine.disease_cause, Antioxidants, Lead poisoning, Protein Carbonylation, Lipid peroxidation, chemistry.chemical_compound, Gallic Acid, Internal medicine, medicine, TBARS, Animals, Gallic acid, Rats, Wistar, Edetic Acid, Chelating Agents, Nitrates, Behavior, Animal, biology, Chemistry, Brain, Porphobilinogen Synthase, General Medicine, Glutathione, Catalase, medicine.disease, Rats, Disease Models, Animal, Oxidative Stress, Lead Poisoning, Nervous System, Endocrinology, Lead, Biochemistry, Exploratory Behavior, biology.protein, Lipid Peroxidation, Oxidative stress

Abstract

We investigated the antioxidant potential of gallic acid (GA), a natural compound found in vegetal sources, on the motor and oxidative damages induced by lead. Rats exposed to lead (50 mg/kg, i.p., once a day, 5 days) were treated with GA (13.5 mg/kg, p.o.) or EDTA (110 mg/kg, i.p.) daily, for 3 days. Lead exposure decreased the locomotor and exploratory activities, reduced blood ALA-D activity, and increased brain catalase (CAT) activity without altering other antioxidant defenses. Brain oxidative stress (OS) estimated by lipid peroxidation (TBARS) and protein carbonyl were increased by lead. GA reversed the motor behavior parameters, the ALA-D activity, as well as the markers of OS changed by lead exposure. CAT activity remained high, possibly as a compensatory mechanism to eliminate hydroperoxides during lead poisoning. EDTA, a conventional chelating agent, was not beneficial on the lead-induced motor behavior and oxidative damages. Both GA (less) and EDTA (more) reduced the lead accumulation in brain tissue. Negative correlations were observed between the behavioral parameters and lipid peroxidation and the lead levels in brain tissue. In conclusion, GA may be an adjuvant in lead exposure, mainly by its antioxidant properties against the motor and oxidative damages resulting from such poisoning.

Published

2011

11. Oral supplementation with fish oil reduces dryness and pruritus in the acetone-induced dry skin rat model

Author

Jaqueline Piccolo, Cristina de Mello-Sampayo, H.J. Segat, Marilise Escobar Burger, Juliana C. Veit, Henrique Silva, Tatiana Emanuelli, Caren Tatiane de David Antoniazzi, Raquel Cristine Silva Barcelos, Luís Monteiro Rodrigues, and Beatriz Silva Lima

Subjects

Male, medicine.medical_specialty, Administration, Oral, Dermatology, Biochemistry, Skin Diseases, Microcirculation, Acetone, Fish Oils, Internal medicine, Skin Physiological Phenomena, Dry skin, Fatty Acids, Omega-3, medicine, Animals, Rats, Wistar, Molecular Biology, Skin, chemistry.chemical_classification, Transepidermal water loss, integumentary system, Behavior, Animal, Chemistry, Pruritus, Water, Atopic dermatitis, Scratching, Fish oil, medicine.disease, Water Loss, Insensible, Pathophysiology, Rats, Disease Models, Animal, Endocrinology, Dietary Supplements, medicine.symptom, Polyunsaturated fatty acid

Abstract

Background Pruritus and discomfort are often present in patients with xerosis and atopic dermatitis. Several studies suggest an important role of diet in skin pathophysiology. Objective This study evaluated the effect of dietary fatty acids in the skin physiology via an itch-related animal model with and without supplementation with fish oil (FO), a source of polyunsaturated fatty acids (PUFA), especially omega 3 ( n -3). Methods Male Wistar rats were divided into two groups—non-supplemented (control) and supplemented with FO (3 g/kg/day) by gavage for 90 days. Every 30 days, scratching and skin parameters (transepidermal water loss (TEWL), hydration, and local blood flow) were evaluated before and after dorsal skin exposure to acetone to induce the itch-related dry skin. At the end of the study, animals were sacrificed, and skin samples collected for fatty acids composition analysis by GC–FID. Results FO supplementation reduced the TEWL and increased the skin hydration, with significant changes from day 60 on, while skin microcirculation registered no changes. It also alleviated the acetone induced skin barrier alteration, revealed by a faster resolution of TEWL and hydration, and elimination of itch-related scratching induced by dry skin. These changes were associated with the shift in the skin fatty acids incorporation pattern (richer in n -3 with n -6/ n -3 Conclusion Skin barrier dynamics seem to be influenced by FO n -3 PUFA, with suppressive effects on the scratching behaviour induced by dry skin. Hence, long-term supplementation with n -3 PUFA rich nutrients might reinforce and restore cutaneous integrity and function.

Published

2015

12. Aqueous extract of pecan nut shell (Carya illinoensis [Wangenh.] K. Koch) exerts protection against oxidative damage induced by cyclophosphamide in rat testis

Author

Luiz A R de Lima, G.S. Dolci, Raquel Cristine Silva Barcelos, H.J. Segat, Camila Simonetti Pase, Valdemiro Amaro da Silva Junior, Nardelli Boufleur, Fabíola Trevizol, Fernanda Oliveira Lima, Katiane Roversi, Marilise Escobar Burger, Dalila M. Benvegnú, Leandro Machado de Carvalho, Patrícia Reckziegel, Verônica Tironi Dias, and Caren Tatiane de David Antoniazzi

Subjects

Male, medicine.medical_specialty, Antioxidant, Health, Toxicology and Mutagenesis, medicine.medical_treatment, Oxidative phosphorylation, Ascorbic Acid, Toxicology, medicine.disease_cause, Pathology and Forensic Medicine, law.invention, Lipid peroxidation, chemistry.chemical_compound, law, Internal medicine, Lactate dehydrogenase, Testis, medicine, Animals, Nuts, Rats, Wistar, Cyclophosphamide, Carya, biology, Vitamin C, L-Lactate Dehydrogenase, Plant Extracts, Superoxide Dismutase, General Medicine, Catalase, Rats, Oxidative Stress, Endocrinology, chemistry, Biochemistry, Models, Animal, biology.protein, Lipid Peroxidation, Phytotherapy, Oxidative stress

Abstract

This study investigated the protective effect of pecan nut (Carya illinoensis) shell aqueous extract (AE) on the oxidative and morphological status of rat testis treated with cyclophosphamide (CP). Wistar rats received water or AE (5%) ad libitum for 37 days. On day 30, half of each group received a single intraperitoneal administration of vehicle or CP 200 mg/kg. After 7 days, the animals were killed and their testis removed. Rats treated with CP presented reduced levels of lactate dehydrogenase, vitamin C, and gluthatione, as well as decreased catalase activity, increased lipid peroxidation levels and superoxide dismutase activity, no alteration in carbonyl protein levels, and a loss of morphological testicular integrity. In contrast, cotreatment with pecan shell AE totally prevented the decrease of lactate dehydrogenase and vitamin C levels and catalase activity and partially prevented the depletion of gluthatione levels. Moreover, it totally prevented the increase in superoxide dismutase activity and lipid peroxidation levels and maintained testicular integrity. These findings show the protective role of pecan shell AE in CP-induced testicular toxicity. The use of this phytotherapy may be considered to minimize deleterious effects related to this chemotherapy.

Published

2014

13. Trans fat supplementation increases UV-radiation-induced oxidative damage on skin of mice

Author

Fabíola Trevizol, Verônica Tironi Dias, Jaqueline Piccolo, Marilise Escobar Burger, Dalila Moter Benvegnú, G.S. Dolci, Raquel Cristine Silva Barcelos, Kr. Roversi, H.J. Segat, Juliana Cristina Veit, and Tatiana Emanuelli

Subjects

Male, medicine.medical_specialty, Trans fat, genetic structures, Clinical chemistry, Cell Survival, Ultraviolet Rays, medicine.disease_cause, Biochemistry, chemistry.chemical_compound, Mice, Fish Oils, Internal medicine, medicine, Animals, Skin, chemistry.chemical_classification, Analysis of Variance, integumentary system, biology, fungi, Organic Chemistry, Cell Biology, Glutathione, Trans Fatty Acids, Fish oil, Diet, Soybean Oil, Oxidative Stress, Endocrinology, chemistry, Catalase, biology.protein, Oxidative stress, Lipidology, Polyunsaturated fatty acid

Abstract

We evaluated the influence of fish oil (FO, rich in n-3 FA), soybean oil (SO, rich in n-6 FA) and hydrogenated vegetable fat (HVF, rich in trans FA) on the oxidative status and viability of skin cells of mice exposed to ultraviolet radiation (UVR). Mice were supplemented with FO, SO or HVF for three months and exposed to UVR (2.72 mJ/cm(2)) for 2 days. One day after the last UVR session, the FO group showed higher levels of n-3 fatty acids (FA), while the HVF showed higher incorporation of trans FA (TFA) in dorsal skin. UVR increased lipid peroxidation and protein carbonyl levels of the HVF and to a lesser extent of the control and SO groups. Although all irradiated groups showed increased skin thickness, this increase was slighter in FO mice. UVR exposure reduced skin cell viability of the control, SO and HVF groups, while FO prevented this. Catalase activity was reduced independently of the supplementation and SOD level was increased in C and FO groups after UVR exposure; FO prevented the UVR-induced increase in glutathione levels, which was observed in skin of the control, SO and HVF mice. Our results showed the beneficial effects of FO supplementation, as well as the harmful effects of trans FA, whose intensity can increase vulnerability to skin diseases.

Published

2012

14. Could dietary trans fatty acids induce movement disorders? Effects of exercise and its influence on Na⁺K⁺-ATPase and catalase activity in rat striatum

Author

Fabíola Trevizol, Nardeli Boufleur, Camila Simonetti Pase, Verônica Tironi Dias, Raquel Cristine Silva Barcelos, Andréia Quatrin, H.J. Segat, João Rocha, Tatiana Emanuelli, Nelson Rodrigues de Carvalho, Félix Alexandre Antunes Soares, G.S. Dolci, Kr. Roversi, Angélica M. Teixeira, Marilise Escobar Burger, Dalila Moter Benvegnú, and Patrícia Reckziegel

Subjects

Male, medicine.medical_specialty, Dyskinesia, Drug-Induced, Movement disorders, genetic structures, Striatum, Motor Activity, Rat striatum, Behavioral Neuroscience, Dopamine, Internal medicine, Physical Conditioning, Animal, medicine, Animals, Neurochemistry, Na+/K+-ATPase, Rats, Wistar, biology, Chemistry, Trans Fatty Acids, Catalase, Dietary Fats, Corpus Striatum, Rats, Endocrinology, Dyskinesia, biology.protein, medicine.symptom, Sodium-Potassium-Exchanging ATPase, medicine.drug

Abstract

The influence of trans fatty acids (FA) on development of orofacial dyskinesia (OD) and locomotor activity was evaluated. Rats were fed with diets enriched with 20% soybean oil (SO; n − 6 FA), lard (L; saturated FA) or hydrogenated vegetable fat (HVF; trans FA) for 60 weeks. In the last 12 weeks each group was subdivided into sedentary and exercised (swimming). Brains of HVF and L-fed rats incorporated 0.33% and 0.20% of trans FA, respectively, while SO-fed group showed no incorporation of trans FA. HVF increased OD, while exercise exacerbated this in L and HVF-fed rats. HVF and L reduced locomotor activity, and exercise did not modify. Striatal catalase activity was reduced by L and HVF, but exercise increased its activity in the HVF-fed group. Na+K+-ATPase activity was not modified by dietary FA, however it was increased by exercise in striatum of SO and L-fed rats. We hypothesized that movement disorders elicited by HVF and less by L could be related to increased dopamine levels in striatum, which have been related to chronic trans FA intake. Exercise increased OD possibly by increase of brain dopamine levels, which generates pro-oxidant metabolites. Thus, a long-term intake of trans FA caused a small but significant brain incorporation of trans FA, which favored development of movement disorders. Exercise worsened behavioral outcomes of HVF and L-fed rats and increased Na+K+-ATPase activity of L and SO-fed rats, indicating its benefits. HVF blunted beneficial effects of exercise, indicating a critical role of trans FA in brain neurochemistry.

Published

2011

15. Comparative study between n-6, trans and n-3 fatty acids on repeated amphetamine exposure: a possible factor for the development of mania

Author

Fabíola Trevizol, Nardeli Boufleur, Camila Simonetti Pase, Verônica Tironi Dias, Raquel Cristine Silva Barcelos, H.J. Segat, João Rocha, Tatiana Emanuelli, G.S. Dolci, Angélica M. Teixeira, Marilise Escobar Burger, Dalila Moter Benvegnú, Liz Girardi Müller, and Patrícia Reckziegel

Subjects

medicine.medical_specialty, Bipolar Disorder, genetic structures, Clinical Biochemistry, Striatum, Ascorbic Acid, Toxicology, medicine.disease_cause, Biochemistry, Behavioral Neuroscience, Internal medicine, Fatty Acids, Omega-6, Fatty Acids, Omega-3, medicine, Animals, Amphetamine, Biological Psychiatry, Pharmacology, Cerebral Cortex, Chemistry, Amphetamines, Neurotoxicity, Drug Synergism, Ascorbic acid, medicine.disease, Corpus Striatum, Cortex (botany), Rats, medicine.anatomical_structure, Endocrinology, Cerebral cortex, medicine.symptom, Mania, Oxidative stress, Locomotion, medicine.drug

Abstract

In the last decades, foods rich in omega-3 (ω-3) fatty acids (FA) have been replaced by omega-6 (ω-6) and trans FA, which are found in processed foods. The influence of ω-6 (soybean oil--SO), trans (hydrogenated vegetable fat--HVF) and ω-3 (fish oil--FO) fatty acids on locomotor and oxidative stress (OS) parameters were studied in an animal model of mania. Rats orally fed with SO, HVF and FO for 8 weeks received daily injections of amphetamine (AMPH--4 mg/kg/mL-ip) for the last week of oral supplementation. HVF induced hyperactivity, increased the protein carbonyl levels in the cortex and decreased the mitochondrial viability in cortex and striatum. AMPH-treatment increased the locomotion and decreased the mitochondrial viability in all groups, but its neurotoxicity was higher in the HVF group. Similarly, AMPH administration increased the protein carbonyl levels in striatum and cortex of HVF-supplemented rats. AMPH reduced the vitamin-C plasmatic levels of SO and HVF-fed rats, whereas no change was observed in the FO group. Our findings suggest that trans fatty acids increased the oxidative damage per se and exacerbated the AMPH-induced effects. The impact of trans fatty acids consumption on neuronal diseases and its consequences in brain functions must be further evaluated.

Published

2010