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20. The lack of PI3Kγ favors M1 macrophage polarization and does not prevent kidney diseases progression.

Author

Amano MT, Castoldi A, Andrade-Oliveira V, Latancia MT, Terra FF, Correa-Costa M, Breda CNS, Felizardo RJF, Pereira WO, da Silva MB, Miyagi MYS, Aguiar CF, Hiyane MI, Silva JS, Moura IC, and Camara NOS

Subjects
Animals, Disease Progression, Inflammation etiology, Interleukin-12 biosynthesis, Mice, Mice, Inbred C57BL, Ureteral Obstruction complications, Acute Kidney Injury prevention & control, Cell Polarity, Class Ib Phosphatidylinositol 3-Kinase physiology, Macrophages physiology, Renal Insufficiency, Chronic prevention & control
Abstract

Acute kidney injury (AKI) and chronic kidney disease (CKD) are major concerns in worldwide public health, and their pathophysiology involves immune cells activation, being macrophages one of the main players of both processes. It is suggested that metabolic pathways could contribute to macrophage modulation and phosphatidylinositol‑3 kinase (PI3K) pathway was shown to be activated in kidneys subjected to ischemia and reperfusion as well as unilateral ureteral obstruction (UUO). Although PI3K inhibition is mostly associated with anti-inflammatory response, its use in kidney injuries has been shown controversial results, which indicates the need for further studies. Our aim was to unveil the role of PI3Kγ in macrophage polarization and in kidney diseases development. We analyzed bone-marrow macrophages polarization from wild-type (WT) and PI3Kγ knockout (PI3K KO) animals. We observed increased expression of M1 (CD86, CCR7, iNOS, TNF, CXCL9, CXCL10, IL-12 and IL-23) and decreased of M2 (CD206, Arg-1, FIZZ1 and YM1) markers in the lack of PI3Kγ. And this modulation was accompanied by higher levels of inflammatory cytokines in PI3K KO M1 cells. PI3K KO mice had increased M1 in steady state kidneys, and no protection was observed in these mice after acute and chronic kidney insults. On the contrary, they presented higher levels of protein-to-creatinine ratio and Kim-1 expression and increased tubular injury. In conclusion, our findings demonstrated that the lack of PI3Kγ favors M1 macrophages polarization providing an inflammatory-prone environment, which does not prevent kidney diseases progression., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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21. Metformin exerts antitumor activity via induction of multiple death pathways in tumor cells and activation of a protective immune response.

Author

Pereira FV, Melo ACL, Low JS, de Castro ÍA, Braga TT, Almeida DC, Batista de Lima AGU, Hiyane MI, Correa-Costa M, Andrade-Oliveira V, Origassa CST, Pereira RM, Kaech SM, Rodrigues EG, and Câmara NOS

Abstract

The antitumor effect of metformin has been demonstrated in several types of cancer; however, the mechanisms involved are incompletely understood. In this study, we showed that metformin acts directly on melanoma cells as well as on the tumor microenvironment, particularly in the context of the immune response. In vitro , metformin induces a complex interplay between apoptosis and autophagy in melanoma cells. The anti-metastatic activity of metformin in vivo was assessed in several mouse models challenged with B16F10 cells. Metformin's activity was, in part, immune system-dependent, whereas its antitumor properties were abrogated in immunodeficient (NSG) mice. Metformin treatment increased the number of lung CD8-effector-memory T and CD4 + Foxp3 + IL-10 + T cells in B16F10-transplanted mice. It also decreased the levels of Gr-1 + CD11b + and RORγ + IL17 + CD4 + cells in B16F10-injected mice and the anti-metastatic effect was impaired in RAG-1 -/- mice challenged with B16F10 cells, suggesting an important role for T cells in the protection induced by metformin. Finally, metformin in combination with the clinical metabolic agents rapamycin and sitagliptin showed a higher antitumor effect. The metformin/sitagliptin combination was effective in a BRAFV600E/PTEN tamoxifen-inducible murine melanoma model. Taken together, these results suggest that metformin has a pronounced effect on melanoma cells, including the induction of a strong protective immune response in the tumor microenvironment, leading to tumor growth control, and the combination with other metabolic agents may increase this effect., Competing Interests: CONFLICTS OF INTEREST The authors declare no conflicts of interest.

Published
2018
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22. Protective role of NKT cells and macrophage M2-driven phenotype in bleomycin-induced pulmonary fibrosis.

Author

Grabarz F, Aguiar CF, Correa-Costa M, Braga TT, Hyane MI, Andrade-Oliveira V, Landgraf MA, and Câmara NOS

Subjects
Animals, Collagen metabolism, Cytokines metabolism, Disease Models, Animal, Galactosylceramides pharmacology, Inflammation metabolism, Lung metabolism, Macrophages drug effects, Macrophages metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Natural Killer T-Cells drug effects, Natural Killer T-Cells metabolism, Phenotype, Pulmonary Fibrosis metabolism, Th1 Cells metabolism, Th2 Cells metabolism, Transforming Growth Factor beta metabolism, Vimentin metabolism, Bleomycin pharmacology, Macrophages physiology, Natural Killer T-Cells physiology, Pulmonary Fibrosis chemically induced, Pulmonary Fibrosis physiopathology
Abstract

Pulmonary fibrosis is a result of an abnormal wound healing in lung tissue triggered by an excessive accumulation of extracellular matrix proteins, loss of tissue elasticity, and debit of ventilatory function. NKT cells are a major source of Th1 and Th2 cytokines and may be crucial in the polarization of M1/M2 macrophages in pulmonary fibrogenesis. Although there appears to be constant scientific progress in that field, pulmonary fibrosis still exhibits no current cure. From these facts, we hypothesized that NKT cells could influence the development of pulmonary fibrosis via modulation of macrophage activation. Wild type (WT) and NKT type I cell-deficient mice (Jα18 -/- ) were subjected to the protocol of bleomycin-induced pulmonary fibrosis with or without treatment with NKT cell agonists α-galactosylceramide and sulfatide. The participation of different cell populations, collagen deposition, and protein levels of different cytokines involved in inflammation and fibrosis was evaluated. The results indicate a benign role of NKT cells in Jα18 -/- mice and in wild-type α-galactosylceramide-sulfatide-treated groups. These animals presented lower levels of collagen deposition, fibrogenic molecules such as TGF-β and vimentin and improved survival rates. In contrast, WT mice developed a Th2-driven response augmenting IL-4, 5, and 13 protein synthesis and increased collagen deposition. Furthermore, the arginase-1 metabolic pathway was downregulated in wild-type NKT-activated and knockout mice indicating lower activity of M2 macrophages in lung tissue. Hence, our data suggest that NKT cells play a protective role in this experimental model by down modulating the Th2 milieu, inhibiting M2 polarization and finally preventing fibrosis.

Published
2018
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23. CCR2 contributes to the recruitment of monocytes and leads to kidney inflammation and fibrosis development.

Author

Braga TT, Correa-Costa M, Silva RC, Cruz MC, Hiyane MI, da Silva JS, Perez KR, Cuccovia IM, and Camara NOS

Subjects
Animals, Collagen metabolism, Cytokines metabolism, Fibrosis metabolism, Inflammation metabolism, Kidney metabolism, Kidney Diseases metabolism, Macrophages metabolism, Macrophages pathology, Male, Mice, Mice, Inbred C57BL, Monocytes metabolism, Fibrosis pathology, Inflammation pathology, Kidney pathology, Kidney Diseases pathology, Monocytes pathology, Receptors, CCR2 metabolism
Abstract

Chemokines are a large family of proteins that, once associated to its receptor on leukocytes, stimulate their movement and migration from blood to tissues. Once in the tissue, immune cells trigger inflammation that, when uncontrolled, leads to fibrosis development. Among the immune cells, macrophages take a special role in fibrosis formation, since macrophage depletion reflects less collagen deposition. The majority of tissue macrophages is derived from monocytes, especially monocytes expressing the chemokine receptor CCR2. Here, we investigated the role of infiltrating CCR2 + cells in the development of fibrosis, and specifically, the dynamic of infiltration of these cells into kidneys under chronic obstructive lesion. Using liposome-encapsulated clodronate, we observed that macrophage depletion culminated in less collagen deposition and reduced chemokines milieu that were released in the damaged kidney after obstructive nephropathy. We also obstructed the kidneys of CCL3 -/- , CCR2 -/- , CCR4 -/- , CCR5 -/- , and C57BL/6 mice and we found that among all animals, CCR2 -/- mice demonstrated the more robust protection, reflected by less inflammatory and Th17-related cytokines and less collagen formation. Next we evaluated the dynamic of CCR2 +/rfp cell infiltration and we observed that they adhere onto the vessels at early stages of disease, culminating in increased recruitment of CCR2 +/rfp cells at later stages. On the other hand, CCR2 rfp/rfp animals exhibited less fibrosis formation and reduced numbers of recruited cells at later stages. We have experimentally demonstrated that inflammatory CCR2 + cells that reach the injured kidney at initial stages after tissue damage are responsible for the fibrotic pattern observed at later time points in the context of UUO.

Published
2018
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24. Carbon monoxide protects the kidney through the central circadian clock and CD39.

Author

Correa-Costa M, Gallo D, Csizmadia E, Gomperts E, Lieberum JL, Hauser CJ, Ji X, Wang B, Câmara NOS, Robson SC, and Otterbein LE

Subjects
Animals, Antigens, CD genetics, Apyrase genetics, Disease Models, Animal, Humans, Kidney blood supply, Kidney metabolism, Kidney physiopathology, Kidney Diseases genetics, Kidney Diseases metabolism, Kidney Diseases physiopathology, Male, Mice, Mice, Inbred C57BL, Period Circadian Proteins genetics, Reperfusion Injury genetics, Reperfusion Injury metabolism, Antigens, CD metabolism, Apyrase metabolism, Carbon Monoxide administration & dosage, Kidney drug effects, Kidney Diseases drug therapy, Period Circadian Proteins metabolism, Reperfusion Injury prevention & control
Abstract

Ischemia reperfusion injury (IRI) is the predominant tissue insult associated with organ transplantation. Treatment with carbon monoxide (CO) modulates the innate immune response associated with IRI and accelerates tissue recovery. The mechanism has been primarily descriptive and ascribed to the ability of CO to influence inflammation, cell death, and repair. In a model of bilateral kidney IRI in mice, we elucidate an intricate relationship between CO and purinergic signaling involving increased CD39 ectonucleotidase expression, decreased expression of Adora1, with concomitant increased expression of Adora2a/2b. This response is linked to a >20-fold increase in expression of the circadian rhythm protein Period 2 (Per2) and a fivefold increase in serum erythropoietin (EPO), both of which contribute to abrogation of kidney IRI. CO is ineffective against IRI in Cd39 -/- and Per2 -/- mice or in the presence of a neutralizing antibody to EPO. Collectively, these data elucidate a cellular signaling mechanism whereby CO modulates purinergic responses and circadian rhythm to protect against injury. Moreover, these effects involve CD39- and adenosinergic-dependent stabilization of Per2. As CO also increases serum EPO levels in human volunteers, these findings continue to support therapeutic use of CO to treat IRI in association with organ transplantation, stroke, and myocardial infarction., Competing Interests: Conflict of interest statement: L.E.O. is a scientific consultant for Hillhurst Biopharmaceuticals and has stock options. E.G. is a founder of Hillhurst Biopharmaceuticals and owns stock.

Published
2018
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25. Soluble Uric Acid Activates the NLRP3 Inflammasome.

Author

Braga TT, Forni MF, Correa-Costa M, Ramos RN, Barbuto JA, Branco P, Castoldi A, Hiyane MI, Davanso MR, Latz E, Franklin BS, Kowaltowski AJ, and Camara NO

Subjects
Animals, Caspase 1 metabolism, Cells, Cultured, Disease Models, Animal, Fibrosis, Interleukin-1beta metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Myeloid Differentiation Factor 88 genetics, Myeloid Differentiation Factor 88 metabolism, NLR Family, Pyrin Domain-Containing 3 Protein genetics, Oxidation-Reduction, Reactive Oxygen Species metabolism, Voltage-Dependent Anion Channels metabolism, Inflammasomes metabolism, Kidney pathology, Kidney Diseases metabolism, Macrophages physiology, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Uric Acid metabolism
Abstract

Uric acid is a damage-associated molecular pattern (DAMP), released from ischemic tissues and dying cells which, when crystalized, is able to activate the NLRP3 inflammasome. Soluble uric acid (sUA) is found in high concentrations in the serum of great apes, and even higher in some diseases, before the appearance of crystals. In the present study, we sought to investigate whether uric acid, in the soluble form, could also activate the NLRP3 inflammasome and induce the production of IL-1β. We monitored ROS, mitochondrial area and respiratory parameters from macrophages following sUA stimulus. We observed that sUA is released in a hypoxic environment and is able to induce IL-1β release. This process is followed by production of mitochondrial ROS, ASC speck formation and caspase-1 activation. Nlrp3 -/- macrophages presented a protected redox state, increased maximum and reserve oxygen consumption ratio (OCR) and higher VDAC protein levels when compared to WT and Myd88 -/- cells. Using a disease model characterized by increased sUA levels, we observed a correlation between sUA, inflammasome activation and fibrosis. These findings suggest sUA activates the NLRP3 inflammasome. We propose that future therapeutic strategies for renal fibrosis should include strategies that block sUA or inhibit its recognition by phagocytes.

Published
2017
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26. Early infiltration of p40IL12(+)CCR7(+)CD11b(+) cells is critical for fibrosis development.

Author

Braga TT, Correa-Costa M, Azevedo H, Silva RC, Cruz MC, Almeida ME, Hiyane MI, Moreira-Filho CA, Santos MF, Perez KR, Cuccovia IM, and Camara NO

Abstract

Introduction: Macrophages are heterogeneous and thus can be correlated with distinct tissue outcomes after injury. Conflicting data have indicated that the M2-related phenotype directly triggers fibrosis. Conversely, we hypothesize here that the inflammatory milieu provided by early infiltration of pro-inflammatory macrophages dictates tissue scarring after injury., Methods and Results: We first determined that tissue-localized macrophages exhibit a pro-inflammatory phenotype (p40IL12(+)CCR7(+)CD11b(+)) during the early phase of a chronic injury model, in contrast to a pro-resolving phenotype (Arg1(+)IL10(+)CD206(+)CD11b(+)) at a later stage. Then, we evaluated the effects of injecting macrophages differentiated in vitro in the presence of IFNγ + LPS or IL4 + IL13 or non-differentiated macrophages (hereafter, M0) on promoting inflammation and progression of chronic injury in macrophage-depleted mice. In addition to enhancing the expression of pro-inflammatory cytokines, the injection of M (IFNγ + LPS), but not M (IL4 + IL13) or M0, accentuated fibrosis while augmenting levels of anti-inflammatory molecules, increasing collagen deposition and impairing organ function. We observed a similar profile after injection of sorted CCR7(+)CD11b(+) cells and a more pronounced effect of M (IFNγ + LPS) cells originated from Stat6(-/-) mice. The injection of M (IFNγ + LPS) cells was associated with the up-regulation of inflammation- and fibrosis-related proteins (Thbs1, Mmp7, Mmp8, and Mmp13)., Conclusions: Our results suggest that pro-inflammatory macrophages promote microenvironmental changes that may lead to fibrogenesis by inducing an inflammatory milieu that alters a network of extracellular-related genes, culminating in tissue fibrosis.

Published
2016
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27. Gut Bacteria Products Prevent AKI Induced by Ischemia-Reperfusion.

Author

Andrade-Oliveira V, Amano MT, Correa-Costa M, Castoldi A, Felizardo RJ, de Almeida DC, Bassi EJ, Moraes-Vieira PM, Hiyane MI, Rodas AC, Peron JP, Aguiar CF, Reis MA, Ribeiro WR, Valduga CJ, Curi R, Vinolo MA, Ferreira CM, and Câmara NO

Subjects
Acute Kidney Injury metabolism, Animals, Bifidobacterium, Cell Line, Dendritic Cells metabolism, Drug Evaluation, Preclinical, Inflammation drug therapy, Male, Mice, Inbred C57BL, Oxidative Stress, Probiotics therapeutic use, Reperfusion Injury metabolism, Acute Kidney Injury prevention & control, Fatty Acids, Volatile therapeutic use, Reperfusion Injury prevention & control
Abstract

Short-chain fatty acids (SCFAs) are fermentation end products produced by the intestinal microbiota and have anti-inflammatory and histone deacetylase-inhibiting properties. Recently, a dual relationship between the intestine and kidneys has been unraveled. Therefore, we evaluated the role of SCFA in an AKI model in which the inflammatory process has a detrimental role. We observed that therapy with the three main SCFAs (acetate, propionate, and butyrate) improved renal dysfunction caused by injury. This protection was associated with low levels of local and systemic inflammation, oxidative cellular stress, cell infiltration/activation, and apoptosis. However, it was also associated with an increase in autophagy. Moreover, SCFAs inhibited histone deacetylase activity and modulated the expression levels of enzymes involved in chromatin modification. In vitro analyses showed that SCFAs modulated the inflammatory process, decreasing the maturation of dendritic cells and inhibiting the capacity of these cells to induce CD4(+) and CD8(+) T cell proliferation. Furthermore, SCFAs ameliorated the effects of hypoxia in kidney epithelial cells by improving mitochondrial biogenesis. Notably, mice treated with acetate-producing bacteria also had better outcomes after AKI. Thus, we demonstrate that SCFAs improve organ function and viability after an injury through modulation of the inflammatory process, most likely via epigenetic modification., (Copyright © 2015 by the American Society of Nephrology.)

Published
2015
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28. Formaldehyde inhalation during pregnancy abolishes the development of acute innate inflammation in offspring.

Author

Silva Ibrahim B, Miranda da Silva C, Barioni ÉD, Correa-Costa M, Drewes CC, Saraiva Câmara NO, Tavares-de-Lima W, Poliselli Farsky SH, and Lino-dos-Santos-Franco A

Subjects
Active Transport, Cell Nucleus, Acute Lung Injury chemically induced, Acute Lung Injury genetics, Acute Lung Injury immunology, Acute Lung Injury metabolism, Acute Lung Injury physiopathology, Animals, Cytokines genetics, Cytokines metabolism, Disease Models, Animal, Female, Gene Expression Regulation, Gestational Age, Inflammation Mediators metabolism, Lipopolysaccharides, Lung immunology, Lung metabolism, NF-kappa B genetics, NF-kappa B metabolism, Phagocytes drug effects, Phagocytes immunology, Phagocytes metabolism, Pneumonia chemically induced, Pneumonia genetics, Pneumonia immunology, Pneumonia metabolism, Pneumonia physiopathology, Pregnancy, RNA, Messenger metabolism, Rats, Wistar, Toll-Like Receptor 4 genetics, Toll-Like Receptor 4 metabolism, Trachea drug effects, Trachea physiopathology, Acute Lung Injury prevention & control, Air Pollutants toxicity, Formaldehyde toxicity, Immunity, Innate drug effects, Inhalation Exposure adverse effects, Lung drug effects, Maternal Exposure adverse effects, Pneumonia prevention & control, Prenatal Exposure Delayed Effects
Abstract

Formaldehyde (FA) is an environmental and occupational pollutant that induces programming mechanisms on the acquired immune host defense in offspring when exposed during the prenatal period. Hence, here we investigated whether the exposure of FA on pregnant rats could affect the development of an innate acute lung injury in offspring induced by lipopolissacaride (LPS) injection. Pregnant Wistar rats were exposed to FA (0.92 mg/m(3)) or vehicle (distillated water), both 1 h/day, 5 days/week, from 1 to 21 days of pregnancy. Non-manipulated rats were used as control. After 30 days of birth, the offspring was submitted to injection of LPS (Salmonella abortus equi, 5 mg/kg, i.p.). Systemic and lung inflammatory parameters were evaluated 24 h later. Exposure to FA during gestation abolished the development of acute lung injury in offspring, as observed by reduced number of leukocytes in the bronchoalveolar fluid (BAL), in the blood and in the bone marrow, and decreased myeloperoxidase activity in the lung. Moreover, phagocytes from BAL presented normal phagocytosis, but reduced oxidative burst. Alterations on the profile of inflammatory cytokines were evidenced by reduced mRNA levels of IL-6 and elevated levels of IL-10 and IFN gamma in the lung tissue. Indeed, mRNA levels of toll-likereceptor-4 and nuclear factor-kappa B translocation into the nucleus were also reduced. Additionally, hyperresponsiveness to methacholine was blunted in the trachea of offspring of FA exposed mothers. Together, our data clearly show that FA exposure in the prenatal period modifies the programming mechanisms of the innate defense in the offspring leading to impaired defense against infections., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published
2015
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29. Exposure to low doses of formaldehyde during pregnancy suppresses the development of allergic lung inflammation in offspring.

Author

Maiellaro M, Correa-Costa M, Vitoretti LB, Gimenes Júnior JA, Câmara NO, Tavares-de-Lima W, Farsky SH, and Lino-dos-Santos-Franco A

Subjects
Air Pollutants toxicity, Alveolitis, Extrinsic Allergic chemically induced, Alveolitis, Extrinsic Allergic metabolism, Alveolitis, Extrinsic Allergic prevention & control, Animals, Asthma chemically induced, Asthma immunology, Asthma metabolism, Asthma prevention & control, Birth Weight drug effects, Cytokines genetics, Cytokines metabolism, Female, Fetal Development drug effects, Formaldehyde toxicity, Gene Expression Regulation drug effects, Lung immunology, Lung metabolism, Maternal Exposure adverse effects, Oxidants toxicity, Oxidative Stress drug effects, Pregnancy, Rats, Rats, Wistar, Respiratory Mucosa drug effects, Respiratory Mucosa immunology, Respiratory Mucosa metabolism, Trachea drug effects, Trachea immunology, Trachea metabolism, Alveolitis, Extrinsic Allergic immunology, Disease Models, Animal, Disease Resistance drug effects, Formaldehyde administration & dosage, Lung drug effects, Oxidants administration & dosage, Prenatal Exposure Delayed Effects
Abstract

Formaldehyde (FA) is an environmental and occupational pollutant, and its toxic effects on the immune system have been shown. Nevertheless, no data are available regarding the programming mechanisms after FA exposure and its repercussions for the immune systems of offspring. In this study, our objective was to investigate the effects of low-dose exposure of FA on pregnant rats and its repercussion for the development of allergic lung inflammation in offspring. Pregnant Wistar rats were assigned in 3 groups: P (rats exposed to FA (0.75 ppm, 1 h/day, 5 days/week, for 21 days)), C (rats exposed to vehicle of FA (distillated water)) and B (rats non-manipulated). After 30 days of age, the offspring was sensitised with ovalbumin (OVA)-alum and challenged with aerosolized OVA (1%, 15 min, 3 days). After 24 h the OVA challenge the parameters were evaluated. Our data showed that low-dose exposure to FA during pregnancy induced low birth weight and suppressed the development of allergic lung inflammation and tracheal hyperresponsiveness in offspring by mechanisms mediated by reduced anaphylactic antibodies synthesis, IL-6 and TNF-alpha secretion. Elevated levels of IL-10 were found. Any systemic alteration was detected in the exposed pregnant rats, although oxidative stress in the uterine environment was evident at the moment of the delivery based on elevated COX-1 expression and reduced cNOS and SOD-2 in the uterus. Therefore, we show the putative programming mechanisms induced by FA on the immune system for the first time and the mechanisms involved may be related to oxidative stress in the foetal microenvironment., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2014
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30. Heme oxygenase-1: a metabolic nike.

Author

Wegiel B, Nemeth Z, Correa-Costa M, Bulmer AC, and Otterbein LE

Subjects
Animals, Biosynthetic Pathways, Carbon Monoxide physiology, Cell Respiration, Diabetes Mellitus enzymology, Heme metabolism, Hemeproteins metabolism, Humans, Iron metabolism, Mitochondria metabolism, Neoplasms enzymology, Heme Oxygenase-1 physiology
Abstract

Significance: Heme degradation, which was described more than 30 years ago, is still very actively explored with many novel discoveries on its role in various disease models every year., Recent Advances: The heme oxygenases (HO) are metabolic enzymes that utilize NADPH and oxygen to break apart the heme moiety liberating biliverdin (BV), carbon monoxide (CO), and iron. Heme that is derived from hemoproteins can be toxic to the cells and if not removed immediately, it causes cell apoptosis and local inflammation. Elimination of heme from the milieu enables generation of three products that influences numerous metabolic changes in the cell., Critical Issues: CO has profound effects on mitochondria and cellular respiration and other hemoproteins to which it can bind and affect their function, while BV and bilirubin (BR), the substrate and product of BV, reductase, respectively, are potent antioxidants. Sequestration of iron into ferritin and its recycling in the tissues is a part of the homeodynamic processes that control oxidation-reduction in cellular metabolism. Further, heme is an important component of a number of metabolic enzymes, and, therefore, HO-1 plays an important role in the modulation of cellular bioenergetics., Future Directions: In this review, we describe the cross-talk between heme oxygenase-1 (HO-1) and its products with other metabolic pathways. HO-1, which we have labeled Nike, the goddess who personified victory, dictates triumph over pathophysiologic conditions, including diabetes, ischemia, and cancer.

Published
2014
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31. Activation of platelet-activating factor receptor exacerbates renal inflammation and promotes fibrosis.

Author

Correa-Costa M, Andrade-Oliveira V, Braga TT, Castoldi A, Aguiar CF, Origassa CS, Rodas AC, Hiyane MI, Malheiros DM, Rios FJ, Jancar S, and Câmara NO

Subjects
Animals, Azepines, Collagen metabolism, Disease Models, Animal, Fibrosis, Kidney pathology, Mice, Mice, Inbred BALB C, Mice, Knockout, Nephritis metabolism, Platelet Membrane Glycoproteins antagonists & inhibitors, Receptors, G-Protein-Coupled antagonists & inhibitors, Renal Insufficiency, Chronic pathology, Triazoles, Ureteral Obstruction, Kidney metabolism, Platelet Membrane Glycoproteins metabolism, Receptors, G-Protein-Coupled metabolism, Renal Insufficiency, Chronic metabolism
Abstract

Platelet-activating factor (PAF) is a lipid mediator with important pro-inflammatory effects, being synthesized by several cell types including kidney cells. Although there is evidence of its involvement in acute renal dysfunction, its role in progressive kidney injury is not completely known. In the present study, we investigated the role of PAF receptor (PAFR) in an experimental model of chronic renal disease. Wild-type (WT) and PAFR knockout (KO) mice underwent unilateral ureter obstruction (UUO), and at kill time, urine and kidney tissue was collected. PAFR KO animals compared with WT mice present: (a) less renal dysfunction, evaluated by urine protein/creatinine ratio; (b) less fibrosis evaluated by collagen deposition, type I collagen, Lysyl Oxidase-1 (LOX-1) and transforming growth factor β (TGF-β) gene expression, and higher expression of bone morphogenetic protein 7 (BMP-7) (3.3-fold lower TGF-β/BMP-7 ratio); (c) downregulation of extracellular matrix (ECM) and adhesion molecule-related machinery genes; and (d) lower levels of pro-inflammatory cytokines. These indicate that PAFR engagement by PAF or PAF-like molecules generated during UUO potentiates renal dysfunction and fibrosis and might promote epithelial-to-mesenchymal transition (EMT). Also, early blockade of PAFR after UUO leads to a protective effect, with less fibrosis deposition. In conclusion, PAFR signaling contributes to a pro-inflammatory environment in the model of obstructive nephropathy, favoring the fibrotic process, which lately will generate renal dysfunction and progressive organ failure.

Published
2014
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32. Macrophage trafficking as key mediator of adenine-induced kidney injury.

Author

Correa-Costa M, Braga TT, Felizardo RJ, Andrade-Oliveira V, Perez KR, Cuccovia IM, Hiyane MI, da Silva JS, and Câmara NO

Subjects
Acute Kidney Injury chemically induced, Acute Kidney Injury genetics, Animals, Chemokine CCL3 genetics, Flow Cytometry, Kidney drug effects, Macrophages drug effects, Mice, Mice, Knockout, Nephritis, Interstitial metabolism, Receptors, CCR5 genetics, Acute Kidney Injury metabolism, Adenine toxicity, Chemokine CCL3 metabolism, Kidney metabolism, Macrophages metabolism, Receptors, CCR5 metabolism
Abstract

Macrophages play a special role in the onset of several diseases, including acute and chronic kidney injuries. In this sense, tubule interstitial nephritis (TIN) represents an underestimated insult, which can be triggered by different stimuli and, in the absence of a proper regulation, can lead to fibrosis deposition. Based on this perception, we evaluated the participation of macrophage recruitment in the development of TIN. Initially, we provided adenine-enriched food to WT and searched for macrophage presence and action in the kidney. Also, a group of animals were depleted of macrophages with the clodronate liposome while receiving adenine-enriched diet. We collected blood and renal tissue from these animals and renal function, inflammation, and fibrosis were evaluated. We observed higher expression of chemokines in the kidneys of adenine-fed mice and a substantial protection when macrophages were depleted. Then, we specifically investigated the role of some key chemokines, CCR5 and CCL3, in this TIN experimental model. Interestingly, CCR5 KO and CCL3 KO animals showed less renal dysfunction and a decreased proinflammatory profile. Furthermore, in those animals, there was less profibrotic signaling. In conclusion, we can suggest that macrophage infiltration is important for the onset of renal injury in the adenine-induced TIN.

Published
2014
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33. Low-level laser therapy decreases renal interstitial fibrosis.

Author

Oliveira FA, Moraes AC, Paiva AP, Schinzel V, Correa-Costa M, Semedo P, Castoldi A, Cenedeze MA, Oliveira RS, Bastos MG, Câmara NO, and Sanders-Pinheiro H

Subjects
Animals, Biopsy, Needle, Disease Models, Animal, Immunohistochemistry, Kidney Diseases pathology, Kidney Diseases radiotherapy, Male, Rats, Rats, Wistar, Sensitivity and Specificity, Treatment Outcome, Low-Level Light Therapy methods, Nephritis, Interstitial pathology, Nephritis, Interstitial radiotherapy
Abstract

Objective: the purpose of this study was to investigate the effect of low-level laser therapy (LLLT) on chronic kidney disease (CKD) in a model of unilateral ureteral obstruction (UUO)., Background Data: Regardless of the etiology, CKD involves progressive widespread tissue fibrosis, tubular atrophy, and loss of kidney function. This process also occurs in kidney allograft. At present, effective therapies for this condition are lacking. We investigated the effects of LLLT on the interstitial fibrosis that occurs after experimental UUO in rats., Methods: The occluded kidney of half of the 32 Wistar rats that underwent UUO received a single intraoperative dose of LLLT (AlGaAs laser, 780 nm, 22.5 J/cm(2), 30 mW, 0.75 W/cm(2), 30 sec on each of nine points). After 14 days, renal fibrosis was assessed by Sirius red staining under polarized light. Immunohistochemical analyses quantitated the renal tissue cells that expressed fibroblast (FSP-1) and myofibroblast (α-SMA) markers. Reverse transcriptase polymerase chain reaction (RT-PCR) was performed to determine the mRNA expression of interleukin (IL)-6, monocyte chemotactic protein-1 (MCP-1), transforming growth factor (TGF)-β1 and Smad3., Results: The UUO and LLLT animals had less fibrosis than the UUO animals, as well having decreased expression inflammatory and pro-fibrotic markers., Conclusions: For the first time, we showed that LLLT had a protective effect regarding renal interstitial fibrosis. It is conceivable that by attenuating inflammation, LLLT can prevent tubular activation and transdifferentiation, which are the two processes that mainly drive the renal fibrosis of the UUO model.

Published
2012
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34. MyD88 signaling pathway is involved in renal fibrosis by favoring a TH2 immune response and activating alternative M2 macrophages.

Author

Braga TT, Correa-Costa M, Guise YF, Castoldi A, de Oliveira CD, Hyane MI, Cenedeze MA, Teixeira SA, Muscara MN, Perez KR, Cuccovia IM, Pacheco-Silva A, Gonçalves GM, and Camara NO

Subjects
Animals, Cytokines metabolism, Fibrosis, Hematopoiesis, Interleukin-12 metabolism, Interleukin-4 deficiency, Kidney immunology, Kidney physiopathology, Kidney Diseases immunology, Kidney Diseases pathology, Kidney Diseases physiopathology, Kidney Function Tests, Ligation, Macrophages pathology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Toll-Like Receptor 2 metabolism, Toll-Like Receptor 4 metabolism, Ureter pathology, Ureteral Obstruction complications, Ureteral Obstruction immunology, Ureteral Obstruction pathology, Immunity immunology, Kidney pathology, Macrophage Activation immunology, Macrophages immunology, Myeloid Differentiation Factor 88 metabolism, Signal Transduction immunology, Th2 Cells immunology
Abstract

Inflammation contributes to the pathogenesis of chronic kidney disease (CKD). Molecules released by the inflamed injured tissue can activate toll-like receptors (TLRs), thereby modulating macrophage and CD4(+) T-cell activity. We propose that in renal fibrogenesis, M2 macrophages are recruited and activated in a T helper subset 2 cell (T(H)2)-prone inflammatory milieu in a MyD88-dependent manner. Mice submitted to unilateral ureteral ligation (UUO) demonstrated an increase in macrophage infiltration with collagen deposition after 7 d. Conversely, TLR2, TLR4 and MyD88 knockout (KO) mice had an improved renal function together with diminished T(H)2 cytokine production and decreased fibrosis formation. Moreover, TLR2, TLR4 and MyD88 KO animals exhibited less M2 macrophage infiltration, namely interleukin (IL)-10(+) and CD206(+) CD11b(high) cells, at 7 d after surgery. We evaluated the role of a T(H)2 cytokine in this context, and observed that the absence of IL-4 was associated with better renal function, decreased IL-13 and TGF-β levels, reduced arginase activity and a decrease in fibrosis formation when compared with IL-12 KO and wild-type (WT) animals. Indeed, the better renal outcomes and the decreased fibrosis formation were restricted to the deficiency of IL-4 in the hematopoietic compartment. Finally, macrophage depletion, rather than the absence of T cells, led to reduced lesions of the glomerular filtration barrier and decreased collagen deposition. These results provide evidence that future therapeutic strategies against renal fibrosis should be accompanied by the modulation of the M1:M2 and T(H)1:T(H)2 balance, as T(H)2 and M2 cells are predictive of fibrosis toward mechanisms that are sensed by innate immune response and triggered in a MyD88-dependent pathway.

Published
2012
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35. Inflammatory milieu as an early marker of kidney injury in offspring rats from diabetic mothers.

Author

Correa-Costa M, Landgraf MA, Cavanal MF, Semedo P, Vieira DA, De Marco DT, Hirata AE, Câmara NO, and Gil FZ

Subjects
Acute Kidney Injury diagnosis, Acute Kidney Injury etiology, Animals, Arginine administration & dosage, Arginine toxicity, Biomarkers metabolism, Diabetes Mellitus, Experimental complications, Diabetes Mellitus, Experimental diagnosis, Early Diagnosis, Female, Inflammation Mediators toxicity, Male, Pregnancy, Pregnancy Complications diagnosis, Pregnancy Complications etiology, Prenatal Exposure Delayed Effects diagnosis, Prenatal Exposure Delayed Effects etiology, Random Allocation, Rats, Rats, Wistar, Acute Kidney Injury pathology, Diabetes Mellitus, Experimental pathology, Inflammation Mediators administration & dosage, Pregnancy Complications pathology, Prenatal Exposure Delayed Effects pathology
Abstract

The present study investigated the early presence of inflammatory response in renal tissue of young offspring from diabetic mothers. The effect of L-arginine (L-arg) supplementation was also investigated. The offspring was divided into four groups: group CO (controls); group DO (diabetic offspring); group CA (CO receiving 2% L-arg solution) and group DA (DO receiving the 2% L-arg solution). Glycemia, arterial pressure and renal function were evaluated; gene and protein expression of pro-inflammatory cytokines were also measured. Blood pressure levels were significantly increased in 2 and 6 month-old DO rats, whereas L-arg administration caused a significant decrease in the DA group, at both ages. DO rats showed a significantly blunted glycemic response to exogenous insulin. In 2 month-old DO animals, renal protein expression of pro-inflammatory molecules was significantly increased. At six months of age, we also observed an increase in gene expression of pro-inflammatory molecules, whereas L-arg supplementation prevented this increase at both ages. Our data suggest that activation of inflammatory pathways is present early in the kidney of DO rats, and that L-arg can attenuate the expression of these markers of tissue inflammation. Our results also reinforce the concept that intrauterine environmental factors are a fundamental determinant in the development of metabolic and vascular diseases later in life., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2012
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36. Cytoprotection behind heme oxygenase-1 in renal diseases.

Author

Correa-Costa M, Amano MT, and Câmara NO

Abstract

Renal insults are considered a public health problem and are linked to increased rates of morbidity and mortality worldwide. The heme oxygenase (HO) system consists of evolutionary specialized machinery that degrades free heme and produces carbon monoxide, biliverdin and free iron. In this sense, the inducible isoform HO-1 seems to develop an important role and is widely studied. The reaction involved with the HO-1 molecule provides protection to injured tissue, directly by reducing the toxic heme molecule and indirectly by the release of its byproducts. The up regulation of HO-1 enzyme has largely been described as providing antioxidant, antiapoptotic, anti-inflammatory and immunomodulatory properties. Several works have explored the importance of HO-1 in renal diseases and they have provided consistent evidence that its overexpression has beneficial effects in such injuries. So, in this review we will focus on the role of HO-1 in kidney insults, exploring the protective effects of its up regulation and the enhanced deleterious effects of its inhibition or gene deletion.

Published
2012
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37. Transcriptome analysis of renal ischemia/reperfusion injury and its modulation by ischemic pre-conditioning or hemin treatment.

Author

Correa-Costa M, Azevedo H, Amano MT, Gonçalves GM, Hyane MI, Cenedeze MA, Renesto PG, Pacheco-Silva A, Moreira-Filho CA, and Câmara NO

Subjects
Acute Kidney Injury drug therapy, Acute Kidney Injury metabolism, Animals, Gene Expression Regulation drug effects, Hemin administration & dosage, Male, Mice, Reperfusion Injury drug therapy, Reperfusion Injury metabolism, Reproducibility of Results, Signal Transduction, Acute Kidney Injury genetics, Gene Expression Profiling, Hemin pharmacology, Ischemic Preconditioning, Kidney blood supply, Reperfusion Injury genetics
Abstract

Ischemia/reperfusion injury (IRI) is a leading cause of acute renal failure. The definition of the molecular mechanisms involved in renal IRI and counter protection promoted by ischemic pre-conditioning (IPC) or Hemin treatment is an important milestone that needs to be accomplished in this research area. We examined, through an oligonucleotide microarray protocol, the renal differential transcriptome profiles of mice submitted to IRI, IPC and Hemin treatment. After identifying the profiles of differentially expressed genes observed for each comparison, we carried out functional enrichment analysis to reveal transcripts putatively involved in potential relevant biological processes and signaling pathways. The most relevant processes found in these comparisons were stress, apoptosis, cell differentiation, angiogenesis, focal adhesion, ECM-receptor interaction, ion transport, angiogenesis, mitosis and cell cycle, inflammatory response, olfactory transduction and regulation of actin cytoskeleton. In addition, the most important overrepresented pathways were MAPK, ErbB, JAK/STAT, Toll and Nod like receptors, Angiotensin II, Arachidonic acid metabolism, Wnt and coagulation cascade. Also, new insights were gained about the underlying protection mechanisms against renal IRI promoted by IPC and Hemin treatment. Venn diagram analysis allowed us to uncover common and exclusively differentially expressed genes between these two protective maneuvers, underscoring potential common and exclusive biological functions regulated in each case. In summary, IPC exclusively regulated the expression of genes belonging to stress, protein modification and apoptosis, highlighting the role of IPC in controlling exacerbated stress response. Treatment with the Hmox1 inducer Hemin, in turn, exclusively regulated the expression of genes associated with cell differentiation, metabolic pathways, cell cycle, mitosis, development, regulation of actin cytoskeleton and arachidonic acid metabolism, suggesting a pleiotropic effect for Hemin. These findings improve the biological understanding of how the kidney behaves after IRI. They also illustrate some possible underlying molecular mechanisms involved in kidney protection observed with IPC or Hemin treatment maneuvers.

Published
2012
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38. TLR2, TLR4 and the MYD88 signaling pathway are crucial for neutrophil migration in acute kidney injury induced by sepsis.

Author

Castoldi A, Braga TT, Correa-Costa M, Aguiar CF, Bassi ÊJ, Correa-Silva R, Elias RM, Salvador F, Moraes-Vieira PM, Cenedeze MA, Reis MA, Hiyane MI, Pacheco-Silva Á, Gonçalves GM, and Saraiva Câmara NO

Subjects
Acute Kidney Injury genetics, Acute Kidney Injury pathology, Animals, Cytokines immunology, Gene Deletion, Kidney immunology, Kidney metabolism, Kidney pathology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Myeloid Differentiation Factor 88 genetics, Neutrophil Infiltration, Neutrophils immunology, Neutrophils metabolism, Neutrophils pathology, Signal Transduction, Toll-Like Receptor 2 genetics, Toll-Like Receptor 4 genetics, Acute Kidney Injury etiology, Acute Kidney Injury immunology, Myeloid Differentiation Factor 88 immunology, Sepsis complications, Toll-Like Receptor 2 immunology, Toll-Like Receptor 4 immunology
Abstract

The aim of this study was to investigate the role of TLR2, TLR4 and MyD88 in sepsis-induced AKI. C57BL/6 TLR2(-/-), TLR4(-/-) and MyD88(-/-) male mice were subjected to sepsis by cecal ligation and puncture (CLP). Twenty four hours later, kidney tissue and blood samples were collected for analysis. The TLR2(-/-), TLR4(-/-) and MyD88(-/-) mice that were subjected to CLP had preserved renal morphology, and fewer areas of hypoxia and apoptosis compared with the wild-type C57BL/6 mice (WT). MyD88(-/-) mice were completely protected compared with the WT mice. We also observed reduced expression of proinflammatory cytokines in the kidneys of the knockout mice compared with those of the WT mice and subsequent inhibition of increased vascular permeability in the kidneys of the knockout mice. The WT mice had increased GR1(+low) cells migration compared with the knockout mice and decreased in GR1(+high) cells migration into the peritoneal cavity. The TLR2(-/-), TLR4(-/-), and MyD88(-/-) mice had lower neutrophil infiltration in the kidneys. Depletion of neutrophils in the WT mice led to protection of renal function and less inflammation in the kidneys of these mice. Innate immunity participates in polymicrobial sepsis-induced AKI, mainly through the MyD88 pathway, by leading to an increased migration of neutrophils to the kidney, increased production of proinflammatory cytokines, vascular permeability, hypoxia and apoptosis of tubular cells.

Published
2012
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39. Oxidative stress and modification of renal vascular permeability are associated with acute kidney injury during P. berghei ANKA infection.

Author

Elias RM, Correa-Costa M, Barreto CR, Silva RC, Hayashida CY, Castoldi A, Gonçalves GM, Braga TT, Barboza R, Rios FJ, Keller AC, Cenedeze MA, Hyane MI, D'Império-Lima MR, Figueiredo-Neto AM, Reis MA, Marinho CR, Pacheco-Silva A, and Câmara NO

Subjects
Acute Kidney Injury pathology, Animals, Apoptosis, Cell Adhesion, Cell Hypoxia, Endothelial Cells parasitology, Endothelial Cells pathology, Erythrocytes parasitology, Erythrocytes pathology, Heme metabolism, Inflammation complications, Kidney blood supply, Kidney parasitology, Kidney pathology, Mice, Mice, Inbred BALB C, Reactive Oxygen Species metabolism, Acute Kidney Injury complications, Acute Kidney Injury metabolism, Capillary Permeability, Kidney metabolism, Malaria complications, Oxidative Stress, Plasmodium berghei pathogenicity
Abstract

Malaria associated-acute kidney injury (AKI) is associated with 45% of mortality in adult patients hospitalized with severe form of the disease. However, the causes that lead to a framework of malaria-associated AKI are still poorly characterized. Some clinical studies speculate that oxidative stress products, a characteristic of Plasmodium infection, as well as proinflammatory response induced by the parasite are involved in its pathophysiology. Therefore, we aimed to investigate the development of malaria-associated AKI during infection by P. berghei ANKA, with special attention to the role played by the inflammatory response and the involvement of oxidative stress. For that, we took advantage of an experimental model of severe malaria that showed significant changes in the renal pathophysiology to investigate the role of malaria infection in the renal microvascular permeability and tissue injury. Therefore, BALB/c mice were infected with P. berghei ANKA. To assess renal function, creatinine, blood urea nitrogen, and ratio of proteinuria and creatininuria were evaluated. The products of oxidative stress, as well as cytokine profile were quantified in plasma and renal tissue. The change of renal microvascular permeability, tissue hypoxia and cellular apoptosis were also evaluated. Parasite infection resulted in renal dysfunction. Furthermore, we observed increased expression of adhesion molecule, proinflammatory cytokines and products of oxidative stress, associated with a decrease mRNA expression of HO-1 in kidney tissue of infected mice. The measurement of lipoprotein oxidizability also showed a significant increase in plasma of infected animals. Together, our findings support the idea that products of oxidative stress, as well as the immune response against the parasite are crucial to changes in kidney architecture and microvascular endothelial permeability of BALB/c mice infected with P. berghei ANKA.

Published
2012
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40. Formaldehyde induces lung inflammation by an oxidant and antioxidant enzymes mediated mechanism in the lung tissue.

Author

Lino-dos-Santos-Franco A, Correa-Costa M, Durão AC, de Oliveira AP, Breithaupt-Faloppa AC, Bertoni Jde A, Oliveira-Filho RM, Câmara NO, Marcourakis T, and Tavares-de-Lima W

Subjects
Animals, Catalase metabolism, Glutathione Peroxidase metabolism, Glutathione Reductase metabolism, Glutathione Transferase metabolism, Inflammation enzymology, Inhalation Exposure adverse effects, Lung enzymology, Male, Nitric Oxide Synthase metabolism, Oxidation-Reduction drug effects, Oxidative Stress drug effects, Rats, Rats, Wistar, Superoxide Dismutase metabolism, Formaldehyde toxicity, Inflammation chemically induced, Lung drug effects
Abstract

Formaldehyde (FA) is an indoor and outdoor pollutant widely used by many industries, and its exposure is associated with inflammation and oxidative stress in the airways. Our previous studies have demonstrated the role of reactive oxygen species (ROS) in lung inflammation induced by FA inhalation but did not identify source of the ROS. In the present study, we investigate the effects of FA on the activities and gene expression of glutathione peroxidase (GPX), glutathione reductase (GR), glutathione S-transferase (GST), superoxide dismutase (SOD) 1 and 2, catalase (CAT), nitric oxide synthase (iNOS and cNOS) and cyclooxygenase (COX) 1 and 2. The hypothesized link between NADPH-oxidase, nitric oxide synthase and cyclooxygenase, the lung inflammation after FA inhalation was also investigated. For experiments, male Wistar rats were submitted to FA inhalation (1%, 90 min daily) for 3 consecutive days. The treatments with apocynin and indomethacin before the FA exposure reduced the number of neutrophils recruited into the lung. Moreover, the treatments with apocynin and indomethacin blunted the effect of FA on the generation of IL-1β, while the treatments with L-NAME and apocynin reduced the generation of IL-6 by lung explants when compared to the untreated group. FA inhalation increased the levels of NO and hydrogen peroxide by BAL cells cultured and the treatments with apocynin and l-NAME reduced these generations. FA inhalation did not modify the activities of GPX, GR, GST and CAT but reduced the activity of SOD when compared to the naïve group. Significant increases in SOD-1 and -2, CAT, iNOS, cNOS and COX-1 expression were observed in the FA group compared to the naïve group. The treatments with apocynin, indomethacin and L-NAME reduced the gene expression of antioxidant and oxidant enzymes. In conclusion, our results indicate that FA causes a disruption of the physiological balance between oxidant and antioxidant enzymes in lung tissue, most likely favoring the oxidant pathways and thus positively modulating lung inflammation., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published
2011
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41. Pivotal role of Toll-like receptors 2 and 4, its adaptor molecule MyD88, and inflammasome complex in experimental tubule-interstitial nephritis.

Author

Correa-Costa M, Braga TT, Semedo P, Hayashida CY, Bechara LR, Elias RM, Barreto CR, Silva-Cunha C, Hyane MI, Gonçalves GM, Brum PC, Fujihara C, Zatz R, Pacheco-Silva A, Zamboni DS, and Camara NO

Subjects
Adenine administration & dosage, Adenine pharmacology, Allopurinol pharmacology, Allopurinol therapeutic use, Animals, Diet, Disease Progression, Inflammasomes drug effects, Inflammation pathology, Kidney Tubules metabolism, Mice, Mice, Knockout, Nephritis, Interstitial drug therapy, Nephritis, Interstitial prevention & control, Signal Transduction drug effects, Xanthine Dehydrogenase antagonists & inhibitors, Xanthine Dehydrogenase metabolism, Inflammasomes metabolism, Kidney Tubules pathology, Myeloid Differentiation Factor 88 metabolism, Nephritis, Interstitial metabolism, Nephritis, Interstitial pathology, Toll-Like Receptor 2 metabolism, Toll-Like Receptor 4 metabolism
Abstract

Tubule-interstitial nephritis (TIN) results in decreased renal function and interstitial inflammation, which ultimately leads to fibrosis. Excessive adenine intake can cause TIN because xanthine dehydrogenase (XDH) can convert this purine into an insoluble compound, which precipitates in the tubuli. Innate immune sensors, such as Toll-like receptors (TLR) and inflammasome complex, play a crucial role in the initiation of inflammation. The aim of this study was to evaluate the roles of TLR-2 and -4, Myd88 and inflammasome complex in an experimental model of TIN. Here, we show that wild-type (WT) mice fed adenine-enriched food exhibited significant renal dysfunction and enhanced cellular infiltration accompanied by collagen deposition. They also presented higher gene and protein expression of pro-inflammatory cytokines. In contrast, TLR-2, -4, MyD88, ASC and Caspase-1 KO mice showed renoprotection associated with expression of inflammatory molecules at levels comparable to controls. Furthermore, treatment of WT animals with allopurinol, an XDH inhibitor, led to reduced levels of uric acid, oxidative stress, collagen deposition and a downregulation of the NF-kB signaling pathway. We concluded that MyD88 signaling and inflammasome participate in the development of TIN. Furthermore, inhibition of XDH seems to be a promising way to therapeutically target the developing inflammatory process.

Published
2011
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42. Induction of heme oxygenase-1 can halt and even reverse renal tubule-interstitial fibrosis.

Author

Correa-Costa M, Semedo P, Monteiro AP, Silva RC, Pereira RL, Gonçalves GM, Marques GD, Cenedeze MA, Faleiros AC, Keller AC, Shimizu MH, Seguro AC, Reis MA, Pacheco-Silva A, and Câmara NO

Subjects
Animals, Disease Models, Animal, Disease Progression, Enzyme-Linked Immunosorbent Assay methods, Gene Expression Profiling, Immunohistochemistry methods, Inflammation, Kidney Diseases pathology, Male, Models, Biological, Rats, Rats, Sprague-Dawley, Transforming Growth Factor beta metabolism, Fibrosis metabolism, Heme Oxygenase-1 biosynthesis, Hemin pharmacology, Kidney Tubules metabolism
Abstract

Background: The tubule-interstitial fibrosis is the hallmark of progressive renal disease and is strongly associated with inflammation of this compartment. Heme-oxygenase-1 (HO-1) is a cytoprotective molecule that has been shown to be beneficial in various models of renal injury. However, the role of HO-1 in reversing an established renal scar has not yet been addressed., Aim: We explored the ability of HO-1 to halt and reverse the establishment of fibrosis in an experimental model of chronic renal disease., Methods: Sprague-Dawley male rats were subjected to unilateral ureteral obstruction (UUO) and divided into two groups: non-treated and Hemin-treated. To study the prevention of fibrosis, animals were pre-treated with Hemin at days -2 and -1 prior to UUO. To investigate whether HO-1 could reverse established fibrosis, Hemin therapy was given at days 6 and 7 post-surgery. After 7 and/or 14 days, animals were sacrificed and blood, urine and kidney tissue samples were collected for analyses. Renal function was determined by assessing the serum creatinine, inulin clearance, proteinuria/creatininuria ratio and extent of albuminuria. Arterial blood pressure was measured and fibrosis was quantified by Picrosirius staining. Gene and protein expression of pro-inflammatory and pro-fibrotic molecules, as well as HO-1 were performed., Results: Pre-treatment with Hemin upregulated HO-1 expression and significantly reduced proteinuria, albuminuria, inflammation and pro-fibrotic protein and gene expressions in animals subjected to UUO. Interestingly, the delayed treatment with Hemin was also able to reduce renal dysfunction and to decrease the expression of pro-inflammatory molecules, all in association with significantly reduced levels of fibrosis-related molecules and collagen deposition. Finally, TGF-β protein production was significantly lower in Hemin-treated animals., Conclusion: Treatment with Hemin was able both to prevent the progression of fibrosis and to reverse an established renal scar. Modulation of inflammation appears to be the major mechanism behind HO-1 cytoprotection.

Published
2010
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43. Mesenchymal stem cells attenuate renal fibrosis through immune modulation and remodeling properties in a rat remnant kidney model.

Author

Semedo P, Correa-Costa M, Antonio Cenedeze M, Maria Avancini Costa Malheiros D, Antonia dos Reis M, Shimizu MH, Seguro AC, Pacheco-Silva A, and Saraiva Camara NO

Subjects
Animals, Cell Differentiation, Cytokines genetics, Cytokines immunology, Disease Models, Animal, Female, Fibrosis genetics, Fibrosis immunology, Fibrosis physiopathology, Fibrosis surgery, Gene Expression Regulation, Kidney Diseases genetics, Kidney Diseases physiopathology, Kidney Function Tests, Male, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Rats, Rats, Wistar, Cellular Reprogramming, Kidney Diseases immunology, Kidney Diseases pathology, Mesenchymal Stem Cells immunology
Abstract

Mesenchymal stem cells (MSCs) have regenerative properties in acute kidney injury, but their role in chronic kidney diseases is still unknown. More specifically, it is not known whether MSCs halt fibrosis. The purpose of this work was to investigate the role of MSCs in fibrogenesis using a model of chronic renal failure. MSCs were obtained from the tibias and femurs of male Wistar-EPM rats. Female Wistar rats were subjected to the remnant model, and 2|x|10(5) MSCs were intravenously administrated to each rat every other week for 8 weeks or only once and followed for 12 weeks. SRY gene expression was observed in female rats treated with male MSCs, and immune localization of CD73(+)CD90(+) cells at 8 weeks was also assessed. Serum and urine analyses showed an amelioration of functional parameters in MSC-treated animals at 8 weeks, but not at 12 weeks. Masson's trichrome and Sirius red staining demonstrated reduced levels of fibrosis in MSC-treated animals. These results were corroborated by reduced vimentin, type I collagen, transforming growth factor beta, fibroblast specific protein 1 (FSP-1), monocyte chemoattractant protein 1, and Smad3 mRNA expression and alpha smooth muscle actin and FSP-1 protein expression. Renal interleukin (IL)-6 and tumor necrosis factor alpha mRNA expression levels were significantly decreased after MSC treatment, whereas IL-4 and IL-10 expression levels were increased. All serum cytokine expression levels were decreased in MSC-treated animals. Taken together, these results suggested that MSC therapy can indeed modulate the inflammatory response that follows the initial phase of a chronic renal injury. The immunosuppressive and remodeling properties of MSCs may be involved in the decreased fibrosis in the kidney.

Published
2009
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44. [A maxillary second molar with five canals].

Author

Herrero Moraes S, Correa Costa ME, and Carlos Ribeiro J

Subjects
Adult, Humans, Male, Tooth Root anatomy & histology, Dental Pulp Cavity anatomy & histology, Molar anatomy & histology
Published
1988

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