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6. Characterization of purinergic signaling in tumor-infiltrating lymphocytes from lower- and high-grade gliomas.

Author

Scholl JN, Weber AF, Dias CK, Lima VP, Grun LK, Zambonin D, Anzolin E, Dos Santos Dias WW, Kus WP, Barbé-Tuana F, Battastini AMO, Worm PV, and Figueiró F

Subjects
Humans, Lymphocytes, Tumor-Infiltrating pathology, Isocitrate Dehydrogenase genetics, Prognosis, Mutation, Tumor Microenvironment, Brain Neoplasms pathology, Glioma pathology
Abstract

Malignant gliomas are highly heterogeneous glia-derived tumors that present an aggressive and invasive nature, with a dismal prognosis. The multi-dimensional interactions between glioma cells and other tumor microenvironment (TME) non-tumoral components constitute a challenge to finding successful treatment strategies. Several molecules, such as extracellular purines, participate in signaling events and support the immunosuppressive TME of glioma patients. The purinergic signaling and the ectoenzymes network involved in the metabolism of these extracellular nucleotides are still unexplored in the glioma TME, especially in lower-grade gliomas (LGG). Also, differences between IDH-mutant (IDH-Mut) versus wild-type (IDH-WT) gliomas are still unknown in this context. For the first time, to our knowledge, this study characterizes the TME of LGG, high-grade gliomas (HGG) IDH-Mut, and HGG IDH-WT patients regarding purinergic ectoenzymes and P1 receptors, focusing on tumor-infiltrating lymphocytes. Here, we show that ectoenzymes from both canonical and non-canonical pathways are increased in the TME when compared to the peripheral blood. We hypothesize this enhancement supports extracellular adenosine generation, hence increasing TME immunosuppression., (© 2023. The Author(s), under exclusive licence to Springer Nature B.V.)

Published
2024
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7. Bioinformatic Analysis of Human Cumulus Cells to Unravel Cellular's Processes that Could Be Used to Establish Oocyte Quality Biomarkers with Clinical Application.

Author

von Mengden L, De Bastiani MA, Grun LK, Barbé-Tuana F, Adriaenssens T, Smitz J, Arruda LS, Link CA, and Klamt F

Subjects
Pregnancy, Female, Humans, Biomarkers metabolism, Embryonic Development genetics, Cyclooxygenase 2 metabolism, Cumulus Cells metabolism, Oocytes metabolism
Abstract

Metadata analysis of public microarray datasets using bioinformatics tools has been successfully used in several biomedical fields in the search for biomarkers. In reproductive science, there is an urgent need for the establishment of oocyte quality biomarkers that could be used in the clinical environment to increase the chances of successful outcomes in treatment cycles. Adaptive cellular processes observed in cumulus oophorus cells reflect the conditions of the follicular microenvironment and may thus bring relevant information of oocyte's conditions. Here we analyzed human cumulus cells gene expression datasets in search of predictors of oocyte quality, a strategy which uncovered several cellular processes positively and negatively associated with embryo development and pregnancy potential. Secondly, the expression levels of genes that were present in the majority of processes observed were validated in house with clinical samples. Our data confirmed the association of the selected biomarkers with blastocyst formation and pregnancy potential rates, independently of patients' clinical characteristics such as diagnosis, age, BMI, and stimulation protocol applied. This study shows that bioinformatic analysis of cellular processes can be successfully used to elucidate possible oocyte quality biomarkers. Our data reinforces the need to consider clinical characteristics of patients when selecting relevant biomarkers to be used in the clinical environment and suggests a combination of positive (PTGS2) and negative (CYPB1) quality biomarkers as a robust strategy for a complementary oocyte selection tool, potentially increasing assisted reproduction success rates. Also, GPX4 expression as pregnancy potential biomarker is indicated here as a possibility for further investigations., (© 2022. The Author(s), under exclusive licence to Society for Reproductive Investigation.)

Published
2023
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8. Caveolin-1 influences mitochondrial plasticity and function in hepatic stellate cell activation.

Author

Ilha M, Meira Martins LA, da Silveira Moraes K, Dias CK, Thomé MP, Petry F, Rohden F, Borojevic R, Trindade VMT, Klamt F, Barbé-Tuana F, Lenz G, and Guma FCR

Subjects
Cholesterol metabolism, Humans, Liver Cirrhosis pathology, Membrane Proteins metabolism, Mitochondria metabolism, Caveolin 1 genetics, Caveolin 1 metabolism, Hepatic Stellate Cells metabolism
Abstract

Caveolin-1 (Cav-1) is an integral membrane protein present in all organelles, responsible for regulating and integrating multiple signals as a platform. Mitochondria are extremely adaptable to external cues in chronic liver diseases, and expression of Cav-1 may affect mitochondrial flexibility in hepatic stellate cells (HSCs) activation. We previously demonstrated that exogenous expression of Cav-1 was sufficient to increase some classical markers of activation in HSCs. Here, we aimed to evaluate the influence of exogenous expression and knockdown of Cav-1 on regulating the mitochondrial plasticity, metabolism, endoplasmic reticulum (ER)-mitochondria distance, and lysosomal activity in HSCs. To characterize the mitochondrial, lysosomal morphology, and ER-mitochondria distance, we perform transmission electron microscope analysis. We accessed mitochondria and lysosomal networks and functions through a confocal microscope and flow cytometry. The expression of mitochondrial machinery fusion/fission genes was examined by real-time polymerase chain reaction. Total and mitochondrial cholesterol content was measured using Amplex Red. To define energy metabolism, we used the Oroboros system in the cells. We report that GRX cells with exogenous expression or knockdown of Cav-1 changed mitochondrial morphometric parameters, OXPHOS metabolism, ER-mitochondria distance, lysosomal activity, and may change the activation state of HSC. This study highlights that Cav-1 may modulate mitochondrial function and structural reorganization in HSC activation, being a potential candidate marker for chronic liver diseases and a molecular target for therapeutic intervention., (© 2022 The Authors. Cell Biology International published by John Wiley & Sons Ltd on behalf of International Federation of Cell Biology.)

Published
2022
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9. The interplay between immunosenescence and age-related diseases.

Author

Barbé-Tuana F, Funchal G, Schmitz CRR, Maurmann RM, and Bauer ME

Subjects
Aged, Aging, Cellular Senescence, Cytokines, Humans, Inflammation, Immunosenescence
Abstract

The aging immune system (immunosenescence) has been implicated with increased morbidity and mortality in the elderly. Of note, T cell aging and low-grade inflammation (inflammaging) are implicated with several age-related conditions. The expansion of late-differentiated T cells (CD28 - ), regulatory T cells, increased serum levels of autoantibodies, and pro-inflammatory cytokines were implicated with morbidities during aging. Features of accelerated immunosenescence can be identified in adults with chronic inflammatory conditions, such as rheumatoid arthritis, and are predictive of poor clinical outcomes. Therefore, there is an interplay between immunosenescence and age-related diseases. In this review, we discuss how the aging immune system may contribute to the development and clinical course of age-related diseases such as neurodegenerative diseases, rheumatoid arthritis, cancer, cardiovascular, and metabolic diseases.

Published
2020
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10. Exogenous expression of caveolin-1 is sufficient for hepatic stellate cell activation.

Author

Ilha M, Moraes KDS, Rohden F, Martins LAM, Borojevic R, Lenz G, Barbé-Tuana F, and Guma FCR

Subjects
Caveolin 1 genetics, Cell Line, Hepatic Stellate Cells cytology, Humans, Caveolin 1 biosynthesis, Cell Cycle Checkpoints, Gene Expression, Hepatic Stellate Cells metabolism
Abstract

Caveolin-1 (Cav-1) expression is increased in hepatic stellate cells (HSC) upon liver cirrhosis and it functions as an integral membrane protein of lipid rafts and caveolae that regulates and integrates multiple signals as a platform. This study aimed to evaluate the role of Cav-1 in HSC. Thus, the effects of exogenous expression of Cav-1 in GRX cells, a model of activated HSC, were determined. Here, we demonstrated through evaluating well-known HSC activation markers - such as α-smooth muscle actin, collagen I, and glial fibrillary acidic protein - that up regulation of Cav-1 induced GRX to a more activated phenotype. GRX EGFP-Cav1 presented an increased migration, an altered adhesion pattern, a reorganization f-actin cytoskeleton, an arrested cell cycle, a modified cellular ultrastructure, and a raised endocytic flux. Based on this, GRX EGFP-Cav1 represents a new cellular model that can be an important tool for understanding of events related to HSC activation. Furthermore, our results reinforce the role of Cav-1 as a molecular marker of HSC activation., (© 2019 Wiley Periodicals, Inc.)

Published
2019
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11. Cholinergic Differentiation of Human Neuroblastoma SH-SY5Y Cell Line and Its Potential Use as an In vitro Model for Alzheimer's Disease Studies.

Author

de Medeiros LM, De Bastiani MA, Rico EP, Schonhofen P, Pfaffenseller B, Wollenhaupt-Aguiar B, Grun L, Barbé-Tuana F, Zimmer ER, Castro MAA, Parsons RB, and Klamt F

Subjects
Alzheimer Disease genetics, Biomarkers metabolism, Brain-Derived Neurotrophic Factor pharmacology, Cell Line, Tumor, Gene Expression Regulation drug effects, Humans, Neurites drug effects, Neurites metabolism, Neuroblastoma genetics, Signal Transduction drug effects, Signal Transduction genetics, Synapses drug effects, Synapses metabolism, Tretinoin pharmacology, Alzheimer Disease pathology, Cell Differentiation drug effects, Cholinergic Neurons pathology, Models, Biological, Neuroblastoma pathology
Abstract

Cholinergic transmission is critical to high-order brain functions such as memory, learning, and attention. Alzheimer's disease (AD) is characterized by cognitive decline associated with a specific degeneration of cholinergic neurons. No effective treatment to prevent or reverse the symptoms is known. Part of this might be due to the lack of in vitro models that effectively mimic the relevant features of AD. Here, we describe the characterization of an AD in vitro model using the SH-SY5Y cell line. Exponentially growing cells were maintained in DMEM/F12 medium and differentiation was triggered by the combination of retinoic acid (RA) and BDNF. Both acetylcholinesterase (AChE) and choline acetyltransferase (ChAT) enzymatic activities and immunocontent were determined. For mimicking tau and amyloid-β pathology, RA + BDNF-differentiated cells were challenged with okadaic acid (OA) or soluble oligomers of amyloid-β (AβOs) and neurotoxicity was evaluated. RA + BDNF-induced differentiation resulted in remarkable neuronal morphology alterations characterized by increased neurite density. Enhanced expression and enzymatic activities of cholinergic markers were observed compared to RA-differentiation only. Combination of sublethal doses of AβOs and OA resulted in decreased neurite densities, an in vitro marker of synaptopathy. Challenging RA + BDNF-differentiated SH-SY5Y cells with the combination of sublethal doses of OA and AβO, without causing considerable decrease of cell viability, provides an in vitro model which mimics the early-stage pathophysiology of cholinergic neurons affected by AD.

Published
2019
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12. Effects of Achyrocline satureioides Inflorescence Extracts against Pathogenic Intestinal Bacteria: Chemical Characterization, In Vitro Tests, and In Vivo Evaluation.

Author

Moresco KS, Silveira AK, Zeidán-Chuliá F, Correa APF, Oliveria RR, Borges AG, Grun L, Barbé-Tuana F, Zmozinski A, Brandelli A, Vale MGR, Gelain DP, Bassani VL, and Moreira JCF

Abstract

Three Achyrocline satureioides (AS) inflorescences extracts were characterized: (i) a freeze-dried extract prepared from the aqueous extractive solution and (ii) a freeze-dried and (iii) a spray-dried extract prepared from hydroethanol extractive solution (80% ethanol). The chemical profile, antioxidant potential, and antimicrobial activity against intestinal pathogenic bacteria of AS extracts were evaluated. In vitro antioxidant activity was determined by the total reactive antioxidant potential (TRAP) assay. In vivo analysis and characterization of intestinal microbiota were performed in male Wistar rats (saline versus treated animals with AS dried extracts) by high-throughput sequencing analysis: metabarcoding. Antimicrobial activity was tested in vitro by the disc diffusion tests. Moisture content of the extracts ranged from 10 to 15% and 5.7 to 17 mg kg -1 of fluorine. AS exhibited antioxidant activity, especially in its freeze-dried form which also exhibited a wide spectrum of antimicrobial activity against intestinal pathogenic bacteria greater than those observed by the antibiotic, amoxicillin, when tested against Bacillus cereus and Staphylococcus aureus . Antioxidant and antimicrobial activities of AS extracts seemed to be positively correlated with the present amount of flavonoids. These findings suggest a potential use of AS as a coadjuvant agent for treating bacterial-induced intestinal diseases with high rates of antibiotic resistance.

Published
2017
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13. Arterial stiffness by oscillometric device and telomere lenght in juvenile idiopathic artrhitis with no cardiovascular risk factors: a cross-sectional study.

Author

Picarelli MM, Danzmann LC, Grun LK, Júnior NTR, Lavandovsky P, Guma FTCR, Stein RT, Barbé-Tuana F, and Jones MH

Subjects
Adolescent, Arthritis, Juvenile epidemiology, Arthritis, Juvenile physiopathology, Cardiovascular Diseases epidemiology, Case-Control Studies, Child, Cross-Sectional Studies, Female, Humans, Male, Pulse Wave Analysis, Risk Factors, Young Adult, Arthritis, Juvenile metabolism, Telomere metabolism, Vascular Stiffness
Abstract

Background: Advances in juvenile idiopathic arthritis (JIA) treatment is promoting free disease survival. Cardiovascular disease (CVD) may emerge as an important cause of morbidity and mortality. Pulse wave velocity (PWV), a surrogate marker of arterial stiffness, and telomere length (TL) are considered as potential predictors of CVD and its outcomes. The study aim was to assess PWV, TL in a JIA population and to test its correlation. In a cross sectional study, 24 JIA patients, 21 controls for TL and 20 controls for PWV were included. PWV was assessed by an oscillometric device. TL was assessed by qPCR. JIA activity was accessed by JADAS-27. Smoking, diabetes, obesity, renal impairment, hypertension, dyslipidemia and inflammatory diseases were excluded., Findings: Between cases and controls for TL, there was significant difference in age. No differences in gender, ethnics and bone mass index between JIA and control groups for PWV and TL. The JADAS-27 median was 8. TL was significantly reduced in JIA (0.85 ± 0.34 vs. 1. 67 ± 1.38, P = 0.025). When age adjusted by ANCOVA, the difference remained significant (P = 0,032). PWV was normal in all patients (5.1 ± 0.20 m/s vs. 4.98 ± 0.06 m/s, P = 0, 66). There was no correlation between TL, PWV or JADAS-27., Conclusion: Compared to controls, JIA with high disease activity and no CVD risk factors have shorter telomeres and normal PWV. As far as we know, this first time this correlation is being tested in rheumatic disease and in paediatrics.

Published
2017
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14. Chronic Treatment with a Clinically Relevant Dose of Methylphenidate Increases Glutamate Levels in Cerebrospinal Fluid and Impairs Glutamatergic Homeostasis in Prefrontal Cortex of Juvenile Rats.

Author

Schmitz F, Pierozan P, Rodrigues AF, Biasibetti H, Coelho DM, Mussulini BH, Pereira MS, Parisi MM, Barbé-Tuana F, de Oliveira DL, Vargas CR, and Wyse AT

Subjects
Amino Acid Transport System X-AG metabolism, Animals, Antigens, Nuclear metabolism, Catalytic Domain, Female, Gene Expression Regulation drug effects, Glial Fibrillary Acidic Protein metabolism, Immunohistochemistry, Male, Models, Biological, Nerve Tissue Proteins metabolism, Oxidative Stress drug effects, Prefrontal Cortex drug effects, Prefrontal Cortex pathology, Rats, Wistar, Sodium-Potassium-Exchanging ATPase genetics, Sodium-Potassium-Exchanging ATPase metabolism, Glutamic Acid cerebrospinal fluid, Homeostasis drug effects, Methylphenidate pharmacology, Prefrontal Cortex metabolism
Abstract

The understanding of the consequences of chronic treatment with methylphenidate is very important since this psychostimulant is extensively prescribed to preschool age children, and little is known about the mechanisms underlying the persistent changes in behavior and neuronal function related with the use of methylphenidate. In this study, we initially investigate the effect of early chronic treatment with methylphenidate on amino acids profile in cerebrospinal fluid and prefrontal cortex of juvenile rats, as well as on glutamatergic homeostasis, Na(+),K(+)-ATPase function, and balance redox in prefrontal cortex of rats. Wistar rats at early age received intraperitoneal injections of methylphenidate (2.0 mg/kg) or an equivalent volume of 0.9% saline solution (controls), once a day, from the 15th to the 45th day of age. Twenty-four hours after the last injection, the animals were decapitated and the cerebrospinal fluid and prefrontal cortex were obtained. Results showed that methylphenidate altered amino acid profile in cerebrospinal fluid, increasing the levels of glutamate. Glutamate uptake was decreased by methylphenidate administration, but GLAST and GLT-1 were not altered by this treatment. In addition, the astrocyte marker GFAP was not altered by MPH. The activity and immunocontent of catalytic subunits (α1, α2, and α3) of Na(+),K(+)-ATPase were decreased in prefrontal cortex of rats subjected to methylphenidate treatment, as well as changes in α1 and α2 gene expression of catalytic α subunits of Na(+),K(+)-ATPase were also observed. CAT activity was increased and SOD/CAT ratio and sulfhydryl content were decreased in rat prefrontal cortex. Taken together, our results suggest that chronic treatment with methylphenidate at early age induces excitotoxicity, at least in part, due to inhibition of glutamate uptake probably caused by disturbances in the Na(+),K(+)-ATPase function and/or in protein damage observed in the prefrontal cortex.

Published
2016
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15. Intracerebroventricular D-galactose administration impairs memory and alters activity and expression of acetylcholinesterase in the rat.

Author

Rodrigues AF, Biasibetti H, Zanotto BS, Sanches EF, Pierozan P, Schmitz F, Parisi MM, Barbé-Tuana F, Netto CA, and Wyse AT

Subjects
Acetylcholinesterase genetics, Animals, Cerebral Cortex drug effects, Cerebral Cortex enzymology, Exploratory Behavior drug effects, Hippocampus drug effects, Hippocampus enzymology, Inhibition, Psychological, Injections, Intraventricular, Male, Rats, Rats, Wistar, Statistics, Nonparametric, Acetylcholinesterase metabolism, Avoidance Learning drug effects, Galactose toxicity, Gene Expression Regulation, Enzymologic drug effects, Memory Disorders chemically induced
Abstract

Tissue accumulation of galactose is a hallmark in classical galactosemia. Cognitive deficit is a symptom of this disease which is poorly understood. The aim of this study was to investigate the effects of intracerebroventricular administration of galactose on memory (inhibitory avoidance and novel object recognition tasks) of adult rats. We also investigated the effects of galactose on acetylcholinesterase (AChE) activity, immunocontent and gene expression in hippocampus and cerebral cortex. Wistar rats received a single injection of galactose (4mM) or saline (control). For behavioral parameters, galactose was injected 1h or 24h previously to the testing. For biochemical assessment, animals were decapitated 1h, 3h or 24h after galactose or saline injection; hippocampus and cerebral cortex were dissected. Results showed that galactose impairs the memory formation process in aversive memory (inhibitory avoidance task) and recognition memory (novel object recognition task) in rats. The activity of AChE was increased, whereas the gene expression of this enzyme was decreased in hippocampus, but not in cerebral cortex. These findings suggest that these changes in AChE may, at least in part, to lead to memory impairment caused by galactose. Taken together, our results can help understand the etiopathology of classical galactosemia., (Copyright © 2016 ISDN. Published by Elsevier Ltd. All rights reserved.)

Published
2016
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16. Resveratrol Regulates the Quiescence-Like Induction of Activated Stellate Cells by Modulating the PPARγ/SIRT1 Ratio.

Author

de Souza IC, Martins LA, de Vasconcelos M, de Oliveira CM, Barbé-Tuana F, Andrade CB, Pettenuzzo LF, Borojevic R, Margis R, Guaragna R, and Guma FC

Subjects
Animals, Cell Proliferation, Fibrosis pathology, Gene Expression Regulation drug effects, Hepatic Stellate Cells metabolism, Humans, Kupffer Cells metabolism, Lipogenesis drug effects, Liver metabolism, Mice, Myoblasts metabolism, PPAR gamma metabolism, RNA, Messenger biosynthesis, Resveratrol, Sirtuin 1 metabolism, Stilbenes administration & dosage, Vitamin A metabolism, Fibrosis genetics, Lipid Droplets metabolism, PPAR gamma biosynthesis, Sirtuin 1 biosynthesis
Abstract

The activation of hepatic stellate cell (HSC), from a quiescent cell featuring cytoplasmic lipid droplets to a proliferative myofibroblast, plays an important role in liver fibrosis development. The GRX line is an activated HSC model that can be induced by all-trans-retinol to accumulate lipid droplets. Resveratrol is known for activating Sirtuin1 (SIRT1), a NAD(+)-dependent deacetylase that suppresses the activity of peroxisome proliferator-activated receptor gamma (PPARγ), an important adipogenic transcription factor involved in the quiescence maintenance of HSC. We evaluated the effects of 0.1 μM of resveratrol in retinol-induced GRX quiescence by investigating the interference of SIRT1 and PPARγ on cell lipogenesis. GRX lipid accumulation was evaluated through Oil-red O staining, triacylglycerides quantification, and [(14)C] acetate incorporation into lipids. mRNA expression and protein content of SIRT1 and PPARγ were measured by RT-PCR and immunoblotting, respectively. Resveratrol-mediated SIRT1 stimuli did not induce lipogenesis and reduced the retinol-mediated fat-storing capacity in GRX. In order to support our results, we established a cell culture model of transgenic super expression of PPARγ in GRX cells (GRXPγ). Resveratrol reduced lipid droplets accumulation in GRXPγ cells. These results suggest that the PPARγ/SIRT1 ratio plays an important role in the fate of HSC. Thus, whenever the PPARγ activity is greater than SIRT1 activity the lipogenesis is enabled., (© 2015 Wiley Periodicals, Inc.)

Published
2015
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17. The interplay between apoptosis, mitophagy and mitochondrial biogenesis induced by resveratrol can determine activated hepatic stellate cells death or survival.

Author

Meira Martins LA, Vieira MQ, Ilha M, de Vasconcelos M, Biehl HB, Lima DB, Schein V, Barbé-Tuana F, Borojevic R, and Guma FC

Subjects
Animals, Cell Line, Hepatic Stellate Cells drug effects, Mice, Resveratrol, Antioxidants pharmacology, Apoptosis, Hepatic Stellate Cells metabolism, Mitophagy, Organelle Biogenesis, Stilbenes pharmacology
Abstract

Resveratrol has been the focus of numerous studies reporting opposite effects that depend on its concentration. The GRX is an activated hepatic stellate cells model used to study liver fibrosis development and resolution. We recently showed that GRX treatment with RSV (0.1-50 µM) for 24 h triggered dose-dependent pro-oxidant effects, resulting in cytotoxicity and cell damage only at the highest concentration. Here, we evaluated whether the pro-oxidant effect of resveratrol treatment is accompanied by alterations on the GRX mitochondrial metabolism, and whether the concomitantly autophagy/mitophagy induction can influence on cell death or survival. We demonstrated that all concentrations of resveratrol promoted an increase of GRX cell death signals, altering the mitochondrial dynamics and function. Cells treated with all resveratrol concentrations presented higher autophagy/mitophagy features, but only treatments with 1 and 10 µM of resveratrol-induced mitochondrial biogenesis. Since cell damage was higher and there was no mitochondrial biogenesis in GRX treated with 50 µM of resveratrol, we suggest that these cells failed to remove and replace all damaged mitochondria. In conclusion, the cytotoxic effect of resveratrol that effectively promotes cell death could be related to the interrelation between the concomitant induction of apoptosis, autophagy/mitophagy and mitochondrial biogenesis in GRX.

Published
2015
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