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5. Exacerbation of DSS-induced colitis in mice lacking kinin B1 receptors through compensatory up-regulation of kinin B2 receptors: the role of tight junctions and intestinal homeostasis

Author

Marcon, R, Claudino, RF, Dutra, RC, Bento, AF, Schmidt, EC, Bouzon, ZL, Sordi, R, Morais, RLT, Pesquero, JB, and Calixto, JB

Subjects
Themed Section: Endothelin, Male, Mice, Knockout, Sulfonamides, Receptor, Bradykinin B2, Dextran Sulfate, Dioxoles, Bradykinin, Colitis, Receptor, Bradykinin B1, Tight Junctions, Up-Regulation, Bradykinin B1 Receptor Antagonists, Intestines, Mice, Inbred C57BL, Mice, Bradykinin B2 Receptor Antagonists, Animals, Cytokines, Homeostasis, Intestinal Mucosa, Peroxidase
Abstract

Kinins are pro-inflammatory peptides that are released during tissue injury, including that caused by inflammatory bowel disease. Herein, we assessed the role and underlying mechanisms through which the absence of kinin B(1) receptors exacerbates the development of dextran sulfate sodium (DSS)-induced colitis in mice.B(1) and B(2) receptor antagonists and B(1) receptor knockout mice (B1(-/-) ) were used to assess the involvement of B(1) and B(2) receptor signalling in a DSS-colitis. B(1) receptor, B(2) receptor, occludin and claudin-4 expression, cytokine levels and cell permeability were evaluated in colon from wild-type (WT) and B1(-/-) mice.DSS-induced colitis was significantly exacerbated in B1(-/-) compared with WT mice. IL-1β, IFN-γ, keratinocyte-derived chemokine and macrophage inflammatory protein-2 were markedly increased in the colon from DSS-treated B1(-/-) compared with DSS-treated WT mice. Treatment of WT mice with a selective B(1) receptor antagonist, DALBK or SSR240612, had no effect on DSS-induced colitis. Of note, B(2) receptor mRNA expression was significantly up-regulated in colonic tissue from the B1(-/-) mice after DSS administration. Moreover, treatment with a selective B(2) receptor antagonist prevented the exacerbation of colitis in B1(-/-) mice following DSS administration. The water- or DSS-treated B1(-/-) mice showed a decrease in occludin gene expression, which was partially prevented by the B(2) receptor antagonist.A loss of B(1) receptors markedly exacerbates the severity of DSS-induced colitis in mice. The increased susceptibility of B1(-/-) may be associated with compensatory overexpression of B(2) receptors, which, in turn, modulates tight junction expression.

Published
2012

7. Exacerbation of DSS-induced colitis in mice lacking kinin B1 receptors through compensatory up-regulation of kinin B2 receptors: the role of tight junctions and intestinal homeostasis.

Author

Marcon, R, Claudino, RF, Dutra, RC, Bento, AF, Schmidt, EC, Bouzon, ZL, Sordi, R, Morais, RLT, Pesquero, JB, and Calixto, JB

Subjects
DISEASE exacerbation, DEXTRAN sulfate, COLITIS, LABORATORY mice, KININS, TIGHT junctions, HOMEOSTASIS, INFLAMMATORY bowel diseases
Abstract

Background and Purpose Kinins are pro-inflammatory peptides that are released during tissue injury, including that caused by inflammatory bowel disease. Herein, we assessed the role and underlying mechanisms through which the absence of kinin B1 receptors exacerbates the development of dextran sulfate sodium ( DSS)-induced colitis in mice. Experimental Approach B1 and B2 receptor antagonists and B1 receptor knockout mice ( B1−/−) were used to assess the involvement of B1 and B2 receptor signalling in a DSS-colitis. B1 receptor, B2 receptor, occludin and claudin-4 expression, cytokine levels and cell permeability were evaluated in colon from wild-type ( WT) and B1−/− mice. Key Results DSS-induced colitis was significantly exacerbated in B1−/− compared with WT mice. IL-1β, IFN-γ, keratinocyte-derived chemokine and macrophage inflammatory protein-2 were markedly increased in the colon from DSS-treated B1−/− compared with DSS-treated WT mice. Treatment of WT mice with a selective B1 receptor antagonist, DALBK or SSR240612, had no effect on DSS-induced colitis. Of note, B2 receptor mRNA expression was significantly up-regulated in colonic tissue from the B1−/− mice after DSS administration. Moreover, treatment with a selective B2 receptor antagonist prevented the exacerbation of colitis in B1−/− mice following DSS administration. The water- or DSS-treated B1−/− mice showed a decrease in occludin gene expression, which was partially prevented by the B2 receptor antagonist. Conclusions and Implications A loss of B1 receptors markedly exacerbates the severity of DSS-induced colitis in mice. The increased susceptibility of B1−/− may be associated with compensatory overexpression of B2 receptors, which, in turn, modulates tight junction expression. [ABSTRACT FROM AUTHOR]

Published
2013
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8. Lung-brain crosstalk: Behavioral disorders and neuroinflammation in septic survivor mice.

Author

Bonorino KC, Iria Kraus S, Henrique Cardoso Martins G, Jorge Probst J, Petry Moeke DM, Henrique Dos Santos Sumar A, Reis Casal Y, Rodolfo Moreira Borges Oliveira F, Sordi R, Assreuy J, Duarte da Silva M, and de Camargo Hizume Kunzler D

Abstract

Although studies have suggested an association between lung infections and increased risk of neuronal disorders (e.g., dementia, cognitive impairment, and depressive and anxious behaviors), its mechanisms remain unclear. Thus, an experimental mice model of pulmonary sepsis was developed to investigate the relationship between lung and brain inflammation. Male Swiss mice were randomly assigned to either pneumosepsis or control groups. Pneumosepsis was induced by intratracheal instillation of Klebsiella pneumoniae , while the control group received a buffer solution. The model's validation included assessing systemic markers, as well as tissue vascular permeability. Depression- and anxiety-like behaviors and cognitive function were assessed for 30 days in sepsis survivor mice, inflammatory profiles, including cytokine levels (lungs, hippocampus, and prefrontal cortex) and microglial activation (hippocampus), were examined. Pulmonary sepsis damaged distal organs, caused peripheral inflammation, and increased vascular permeability in the lung and brain, impairing the blood-brain barrier and resulting in bacterial dissemination. After sepsis induction, we observed an increase in myeloperoxidase activity in the lungs (up to seven days) and prefrontal cortex (up to 24 h), proinflammatory cytokines in the hippocampus and prefrontal cortex, and percentage of areas with cells positive for ionized calcium-binding adaptor molecule 1 (IBA-1) in the hippocampus. Also, depression- and anxiety-like behaviors and changes in short-term memory were observed even 30 days after sepsis induction, suggesting a crosstalk between inflammatory responses of lungs and brain., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Jamil Assrey reports financial support, equipment, drugs, or supplies, and writing assistance were provided by 10.13039/100017410INCT-INOVAMED. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published
2024
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9. Doxycycline reduces liver and kidney injuries in a rat hemorrhagic shock model.

Author

Sordi R, Bojko L, Oliveira FRMB, Rosales TO, Souza CF, Moreno LW, Ferreira Alves G, Vellosa JCR, Fernandes D, and Gomes JR

Abstract

Background: Hemorrhagic shock (HS), which causes insufficient tissue perfusion, can result in multiple organ failure (MOF) and death. This study aimed to evaluate whether doxycycline (DOX) protects cardiovascular, kidney, and liver tissue from damage in a rat model of HS. Immediately before the resuscitation, DOX (10 mg/kg; i.v.) was administered, and its protective effects were assessed 24 h later. Mean arterial pressure, renal blood flow, heart rate, vasoactive drug response, and blood markers such as urea, creatinine, AST, ALT, CPK, CPR, and NOx levels were determined., Results: We showed that DOX has a significant effect on renal blood flow and on urea, creatinine, AST, ALT, CPK, and NOx. Morphologically, DOX reduced the inflammatory process in the liver tissue., Conclusions: We conclude that DOX protects the liver and kidney against injury and dysfunction in a HS model and could be a strategy to reduce organ damage associated with ischemia-and-reperfusion injury., (© 2024. The Author(s).)

Published
2024
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10. Neuraminidase is a host-directed approach to regulate neutrophil responses in sepsis and COVID-19.

Author

de Oliveira Formiga R, Amaral FC, Souza CF, Mendes DAGB, Wanderley CWS, Lorenzini CB, Santos AA, Antônia J, Faria LF, Natale CC, Paula NM, Silva PCS, Fonseca FR, Aires L, Heck N, Starick MR, Queiroz-Junior CM, Santos FRS, de Souza FRO, Costa VV, Barroso SPC, Morrot A, Van Weyenbergh J, Sordi R, Alisson-Silva F, Cunha FQ, Rocha EL, Chollet-Martin S, Hurtado-Nedelec MM, Martin C, Burgel PR, Mansur DS, Maurici R, Macauley MS, Báfica A, Witko-Sarsat V, and Spiller F

Subjects
Humans, Mice, Animals, Oseltamivir adverse effects, Zanamivir adverse effects, Neuraminidase metabolism, Neuraminidase pharmacology, Neutrophils, Matrix Metalloproteinase 9 metabolism, Reactive Oxygen Species, Lipopolysaccharides pharmacology, COVID-19, Sepsis chemically induced
Abstract

Background and Purpose: Neutrophil overstimulation plays a crucial role in tissue damage during severe infections. Because pathogen-derived neuraminidase (NEU) stimulates neutrophils, we investigated whether host NEU can be targeted to regulate the neutrophil dysregulation observed in severe infections., Experimental Approach: The effects of NEU inhibitors on lipopolysaccharide (LPS)-stimulated neutrophils from healthy donors or COVID-19 patients were determined by evaluating the shedding of surface sialic acids, cell activation, and reactive oxygen species (ROS) production. Re-analysis of single-cell RNA sequencing of respiratory tract samples from COVID-19 patients also was carried out. The effects of oseltamivir on sepsis and betacoronavirus-induced acute lung injury were evaluated in murine models., Key Results: Oseltamivir and zanamivir constrained host NEU activity, surface sialic acid release, cell activation, and ROS production by LPS-activated human neutrophils. Mechanistically, LPS increased the interaction of NEU1 with matrix metalloproteinase 9 (MMP-9). Inhibition of MMP-9 prevented LPS-induced NEU activity and neutrophil response. In vivo, treatment with oseltamivir fine-tuned neutrophil migration and improved infection control as well as host survival in peritonitis and pneumonia sepsis. NEU1 also is highly expressed in neutrophils from COVID-19 patients, and treatment of whole-blood samples from these patients with either oseltamivir or zanamivir reduced neutrophil overactivation. Oseltamivir treatment of intranasally infected mice with the mouse hepatitis coronavirus 3 (MHV-3) decreased lung neutrophil infiltration, viral load, and tissue damage., Conclusion and Implications: These findings suggest that interplay of NEU1-MMP-9 induces neutrophil overactivation. In vivo, NEU may serve as a host-directed target to dampen neutrophil dysfunction during severe infections., (© 2022 British Pharmacological Society.)

Published
2023
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11. The role of nitric oxide in sepsis-associated kidney injury.

Author

Oliveira FRMB, Assreuy J, and Sordi R

Subjects
Humans, Kidney metabolism, Microcirculation, Nitric Oxide, Nitric Oxide Synthase Type I metabolism, Nitric Oxide Synthase Type II metabolism, Nitric Oxide Synthase Type III metabolism, Protein Isoforms, Acute Kidney Injury etiology, Sepsis complications
Abstract

Sepsis is one of the leading causes of acute kidney injury (AKI), and several mechanisms including microcirculatory alterations, oxidative stress, and endothelial cell dysfunction are involved. Nitric oxide (NO) is one of the common elements to all these mechanisms. Although all three nitric oxide synthase (NOS) isoforms are constitutively expressed within the kidneys, they contribute in different ways to nitrergic signaling. While the endothelial (eNOS) and neuronal (nNOS) isoforms are likely to be the main sources of NO under basal conditions and participate in the regulation of renal hemodynamics, the inducible isoform (iNOS) is dramatically increased in conditions such as sepsis. The overexpression of iNOS in the renal cortex causes a shunting of blood to this region, with consequent medullary ischemia in sepsis. Differences in the vascular reactivity among different vascular beds may also help to explain renal failure in this condition. While most of the vessels present vasoplegia and do not respond to vasoconstrictors, renal microcirculation behaves differently from nonrenal vascular beds, displaying similar constrictor responses in control and septic conditions. The selective inhibition of iNOS, without affecting other isoforms, has been described as the ideal scenario. However, iNOS is also constitutively expressed in the kidneys and the NO produced by this isoform is important for immune defense. In this sense, instead of a direct iNOS inhibition, targeting the NO effectors such as guanylate cyclase, potassium channels, peroxynitrite, and S-nitrosothiols, may be a more interesting approach in sepsis-AKI and further investigation is warranted., (© 2022 The Author(s).)

Published
2022
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12. Inhibition of Macrophage Migration Inhibitory Factor Activity Attenuates Haemorrhagic Shock-Induced Multiple Organ Dysfunction in Rats.

Author

Patel NM, Yamada N, Oliveira FRMB, Stiehler L, Zechendorf E, Hinkelmann D, Kraemer S, Stoppe C, Collino M, Collotta D, Alves GF, Ramos HP, Sordi R, Marzi I, Relja B, Marx G, Martin L, and Thiemermann C

Subjects
Animals, Humans, Multiple Organ Failure etiology, Multiple Organ Failure prevention & control, NF-kappa B metabolism, NLR Family, Pyrin Domain-Containing 3 Protein, Rats, Macrophage Migration-Inhibitory Factors, Multiple Trauma complications, Shock, Hemorrhagic complications, Shock, Hemorrhagic drug therapy
Abstract

Objective: The aim of this study was to investigate (a) macrophage migration inhibitory factor (MIF) levels in polytrauma patients and rats after haemorrhagic shock (HS), (b) the potential of the MIF inhibitor ISO-1 to reduce multiple organ dysfunction syndrome (MODS) in acute (short-term and long-term follow-up) HS rat models and (c) whether treatment with ISO-1 attenuates NF-κB and NLRP3 activation in HS., Background: The MODS caused by an excessive systemic inflammatory response following trauma is associated with a high morbidity and mortality. MIF is a pleiotropic cytokine which can modulate the inflammatory response, however, its role in trauma is unknown., Methods: The MIF levels in plasma of polytrauma patients and serum of rats with HS were measured by ELISA. Acute HS rat models were performed to determine the influence of ISO-1 on MODS. The activation of NF-κB and NLRP3 pathways were analysed by western blot in the kidney and liver., Results: We demonstrated that (a) MIF levels are increased in polytrauma patients on arrival to the emergency room and in rats after HS, (b) HS caused organ injury and/or dysfunction and hypotension (post-resuscitation) in rats, while (c) treatment of HS-rats with ISO-1 attenuated the organ injury and dysfunction in acute HS models and (d) reduced the activation of NF-κB and NLRP3 pathways in the kidney and liver., Conclusion: Our results point to a role of MIF in the pathophysiology of trauma-induced organ injury and dysfunction and indicate that MIF inhibitors may be used as a potential therapeutic approach for MODS after trauma and/or haemorrhage., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Patel, Yamada, Oliveira, Stiehler, Zechendorf, Hinkelmann, Kraemer, Stoppe, Collino, Collotta, Alves, Ramos, Sordi, Marzi, Relja, Marx, Martin and Thiemermann.)

Published
2022
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13. Pharmacological Inhibition of FAK-Pyk2 Pathway Protects Against Organ Damage and Prolongs the Survival of Septic Mice.

Author

Alves GF, Aimaretti E, Einaudi G, Mastrocola R, de Oliveira JG, Collotta D, Porchietto E, Aragno M, Cifani C, Sordi R, Thiemermann C, Fernandes D, and Collino M

Subjects
Animals, Cytokines metabolism, Disease Models, Animal, Inflammation physiopathology, Ligation, Male, Mice, Mice, Inbred C57BL, Multiple Organ Failure drug therapy, Multiple Organ Failure physiopathology, Random Allocation, Sepsis, Survival Rate, Focal Adhesion Kinase 1 antagonists & inhibitors, Focal Adhesion Kinase 2 antagonists & inhibitors, Inflammation drug therapy, Mitogen-Activated Protein Kinases antagonists & inhibitors, Protein Kinase Inhibitors pharmacology
Abstract

Sepsis and septic shock are associated with high mortality and are considered one of the major public health concerns. The onset of sepsis is known as a hyper-inflammatory state that contributes to organ failure and mortality. Recent findings suggest a potential role of two non-receptor protein tyrosine kinases, namely Focal adhesion kinase (FAK) and Proline-rich tyrosine kinase 2 (Pyk2), in the inflammation associated with endometriosis, cancer, atherosclerosis and asthma. Here we investigate the role of FAK-Pyk2 in the pathogenesis of sepsis and the potential beneficial effects of the pharmacological modulation of this pathway by administering the potent reversible dual inhibitor of FAK and Pyk2, PF562271 (PF271) in a murine model of cecal ligation and puncture (CLP)-induced sepsis. Five-month-old male C57BL/6 mice underwent CLP or Sham surgery and one hour after the surgical procedure, mice were randomly assigned to receive PF271 (25 mg/kg, s.c.) or vehicle. Twenty-four hours after surgery, organs and plasma were collected for analyses. In another group of mice, survival rate was assessed every 12 h over the subsequent 5 days. Experimental sepsis led to a systemic cytokine storm resulting in the formation of excessive amounts of both pro-inflammatory cytokines (TNF-α, IL-1β, IL-17 and IL-6) and the anti-inflammatory cytokine IL-10. The systemic inflammatory response was accompanied by high plasma levels of ALT, AST (liver injury), creatinine, (renal dysfunction) and lactate, as well as a high, clinical severity score. All parameters were attenuated following PF271 administration. Experimental sepsis induced an overactivation of FAK and Pyk2 in liver and kidney, which was associated to p38 MAPK activation, leading to increased expression/activation of several pro-inflammatory markers, including the NLRP3 inflammasome complex, the adhesion molecules ICAM-1, VCAM-1 and E-selectin and the enzyme NOS-2 and myeloperoxidase. Treatment with PF271 inhibited FAK-Pyk2 activation, thus blunting the inflammatory abnormalities orchestrated by sepsis. Finally, PF271 significantly prolonged the survival of mice subjected to CLP-sepsis. Taken together, our data show for the first time that the FAK-Pyk2 pathway contributes to sepsis-induced inflammation and organ injury/dysfunction and that the pharmacological modulation of this pathway may represents a new strategy for the treatment of sepsis., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Alves, Aimaretti, Einaudi, Mastrocola, de Oliveira, Collotta, Porchietto, Aragno, Cifani, Sordi, Thiemermann, Fernandes and Collino.)

Published
2022
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14. The role of potassium channels in the endothelial dysfunction induced by periodontitis.

Author

Olchanheski LR Jr, Sordi R, Oliveira JG, Alves GF, Mendes RT, Santos FA, and Fernandes D

Subjects
Acetylcholine pharmacology, Alveolar Bone Loss metabolism, Alveolar Bone Loss physiopathology, Animals, Arterial Pressure drug effects, Arterial Pressure physiology, C-Reactive Protein analysis, Cyclooxygenase Inhibitors pharmacology, Ligation, Male, NG-Nitroarginine Methyl Ester pharmacology, Nitroprusside pharmacology, Peroxidase analysis, Potassium Channel Blockers pharmacology, Potassium Channels drug effects, Prostaglandin-Endoperoxide Synthases drug effects, Random Allocation, Rats, Wistar, Time Factors, Vasodilation drug effects, Vasodilator Agents pharmacology, Nitric Oxide metabolism, Periodontitis metabolism, Periodontitis physiopathology, Potassium Channels metabolism, Prostaglandin-Endoperoxide Synthases metabolism, Vasodilation physiology
Abstract

Objective: Periodontitis is associated with endothelial dysfunction, which is clinically characterized by a reduction in endothelium-dependent relaxation. However, we have previously shown that impairment in endothelium-dependent relaxation is transient. Therefore, we evaluated which mediators are involved in endothelium-dependent relaxation recovery., Material and Methods: Rats were subjected to ligature-induced experimental periodontitis. Twenty-one days after the procedure, the animals were prepared for blood pressure recording, and the responses to acetylcholine or sodium nitroprusside were obtained before and 30 minutes after injection of a nitric oxide synthase inhibitor (L-NAME), cyclooxygenase inhibitor (Indomethacin, SC-550 and NS- 398), or calcium-dependent potassium channel blockers (apamin plus TRAM- 34). The maxilla and mandible were removed for bone loss analysis. Blood and gingivae were obtained for C-reactive protein (CRP) and myeloperoxidase (MPO) measurement, respectively., Results: Experimental periodontitis induces bone loss and an increase in the gingival MPO and plasmatic CRP. Periodontitis also reduced endothelium-dependent vasodilation, a hallmark of endothelial dysfunction, 14 days after the procedure. However, the response was restored at day 21. We found that endothelium-dependent vasodilation at day 21 in ligature animals was mediated, at least in part, by the activation of endothelial calcium-activated potassium channels., Conclusions: Periodontitis induces impairment in endothelial-dependent relaxation; this impairment recovers, even in the presence of periodontitis. The recovery is mediated by the activation of endothelial calcium-activated potassium channels in ligature animals. Although important for maintenance of vascular homeostasis, this effect could mask the lack of NO, which has other beneficial properties.

Published
2018
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15. Inhibition of IκB Kinase at 24 Hours After Acute Kidney Injury Improves Recovery of Renal Function and Attenuates Fibrosis.

Author

Johnson FL, Patel NSA, Purvis GSD, Chiazza F, Chen J, Sordi R, Hache G, Merezhko VV, Collino M, Yaqoob MM, and Thiemermann C

Subjects
Actins metabolism, Acute Kidney Injury enzymology, Acute Kidney Injury pathology, Acute Kidney Injury physiopathology, Animals, Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, Creatinine blood, Disease Models, Animal, Fibrosis, I-kappa B Kinase metabolism, Kidney enzymology, Kidney pathology, Kidney physiopathology, Macrophages drug effects, Macrophages metabolism, Macrophages pathology, Male, Myofibroblasts drug effects, Myofibroblasts metabolism, Myofibroblasts pathology, NF-kappa B metabolism, Rats, Wistar, Signal Transduction drug effects, Smad2 Protein metabolism, Smad3 Protein metabolism, Time Factors, Transforming Growth Factor beta metabolism, Acute Kidney Injury drug therapy, I-kappa B Kinase antagonists & inhibitors, Kidney drug effects, Protein Kinase Inhibitors pharmacology
Abstract

Background: Acute kidney injury (AKI) is a major risk factor for the development of chronic kidney disease. Nuclear factor-κB is a nuclear transcription factor activated post-ischemia, responsible for the transcription of proinflammatory proteins. The role of nuclear factor-κB in the renal fibrosis post-AKI is unknown., Methods and Results: We used a rat model of AKI caused by unilateral nephrectomy plus contralateral ischemia (30 minutes) and reperfusion injury (up to 28 days) to show impairment of renal function (peak: 24 hours), activation of nuclear factor-κB (peak: 48 hours), and fibrosis (28 days). In humans, AKI is diagnosed by a rise in serum creatinine. We have discovered that the IκB kinase inhibitor IKK16 (even when given at peak serum creatinine) still improved functional and structural recovery and reduced myofibroblast formation, macrophage infiltration, transforming growth factor-β expression, and Smad2/3 phosphorylation. AKI resulted in fibrosis within 28 days (Sirius red staining, expression of fibronectin), which was abolished by IKK16. To confirm the efficacy of IKK16 in a more severe model of fibrosis, animals were subject to 14 days of unilateral ureteral obstruction, resulting in tubulointerstitial fibrosis, myofibroblast formation, and macrophage infiltration, all of which were attenuated by IKK16., Conclusions: Inhibition of IκB kinase at peak creatinine improves functional recovery, reduces further injury, and prevents fibrosis., (© 2017 The Authors. Published on behalf of the American Heart Association, Inc., by Wiley.)

Published
2017
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16. Neuronal Nitric Oxide Synthase is Involved in Vascular Hyporeactivity and Multiple Organ Dysfunction Associated with Hemorrhagic Shock.

Author

Sordi R, Chiazza F, Collino M, Assreuy J, and Thiemermann C

Subjects
Amidines pharmacology, Animals, Indazoles pharmacology, Interleukin-6 metabolism, Male, Multiple Organ Failure enzymology, NF-kappa B metabolism, Neutrophil Infiltration drug effects, Nitric Oxide Synthase Type I antagonists & inhibitors, Rats, Rats, Wistar, Tumor Necrosis Factor-alpha metabolism, Multiple Organ Failure etiology, Multiple Organ Failure metabolism, Nitric Oxide Synthase Type I metabolism, Shock, Hemorrhagic complications, Shock, Hemorrhagic metabolism
Abstract

Severe hemorrhage can lead to global ischemia and hemorrhagic shock (HS), resulting in multiple organ failure (MOF) and death. Restoration of blood flow and re-oxygenation is associated with an exacerbation of tissue injury and inflammatory response. The neuronal nitric oxide synthase (nNOS) has been implicated in vascular collapse and systemic inflammation of septic shock; however, the role of nNOS in HS is poorly understood. The aim of this study was to evaluate the role of nNOS in the MOF associated with HS.Rats were subjected to HS under anesthesia. Mean arterial pressure was reduced to 30  mmHg for 90  min, followed by resuscitation with shed blood. Rats were randomly treated with two chemically distinct nNOS inhibitors [ARL 17477 (1 mg/kg) and 7-nitroindazol (5 mg/kg)] or vehicle upon resuscitation. Four hours later, parameters of organ injury and dysfunction were assessed.HS was associated with MOF development. Inhibition of nNOS activity at resuscitation protected rats against the MOF and vascular dysfunction. In addition, treatment of HS rats with nNOS inhibitors attenuated neutrophil infiltration into target organs and decreased the activation of NF-κB, iNOS expression, NO production, and nitrosylation of proteins. Furthermore, nNOS inhibition also reduced the levels of pro-inflammatory cytokines TNF-α and IL-6 in HS rats.In conclusion, two distinct inhibitors of nNOS activity reduced the MOF, vascular dysfunction, and the systemic inflammation associated with HS. Thus, nNOS inhibitors may be useful as an adjunct therapy before fluids and blood administration in HS patients to avoid the MOF associated with reperfusion injury during resuscitation.

Published
2016
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17. Inhibition of IκB Kinase Attenuates the Organ Injury and Dysfunction Associated with Hemorrhagic Shock.

Author

Sordi R, Chiazza F, Johnson FL, Patel NS, Brohi K, Collino M, and Thiemermann C

Subjects
Animals, Humans, I-kappa B Proteins antagonists & inhibitors, Kidney injuries, Kidney metabolism, Kidney pathology, Lipopolysaccharides toxicity, Liver injuries, Liver metabolism, Liver pathology, Lung Injury genetics, Multiple Organ Failure complications, Multiple Organ Failure pathology, Multiple Organ Failure therapy, NF-KappaB Inhibitor alpha, Phosphorylation, Rats, Shock, Hemorrhagic complications, Shock, Hemorrhagic pathology, Shock, Hemorrhagic therapy, Signal Transduction, I-kappa B Proteins genetics, Multiple Organ Failure genetics, NF-kappa B genetics, Shock, Hemorrhagic genetics
Abstract

Nuclear factor-kappa B (NF-κB) activation is widely implicated in multiple organ failure (MOF); however, a direct inhibitor of IκB kinase (IKK), which plays a pivotal role in the activation of NF-κB, has not been investigated in shock. Thus, the aim of the present work was to investigate the effects of an IKK inhibitor on the MOF associated with hemorrhagic shock (HS). Therefore, rats were subjected to HS and were resuscitated with the shed blood. Rats were treated with the inhibitor of IKK or vehicle at resuscitation. Four hours later, blood and organs were assessed for organ injury and signaling events involved in the activation of NF-κB. Additionally, survival following serum deprivation was assessed in HK-2 cells treated with the inhibitor of IKK. HS resulted in renal dysfunction, lung, liver and muscular injury, and increases in serum inflammatory cytokines. Kidney and liver tissue from HS rats revealed increases in phosphorylation of IKKαβ and IκBα, nuclear translocation of NF-κB and expression of inducible isoform of nitric oxide synthase (iNOS). IKK16 treatment upon resuscitation attenuated NF-κB activation and activated the Akt survival pathway, leading to a significant attenuation of all of the above parameters. Furthermore, IKK16 exhibited cytoprotective effects in human kidney cells. In conclusion, the inhibitor of IKK complex attenuated the MOF associated with HS. This effect may be due to the inhibition of the NF-κB pathway and activation of the survival kinase Akt. Thus, the inhibition of the IKK complex might be an effective strategy for the prevention of MOF associated with HS.

Published
2015
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18. 'Preconditioning' with low dose lipopolysaccharide aggravates the organ injury / dysfunction caused by hemorrhagic shock in rats.

Author

Sordi R, Chiazza F, Patel NS, Doyle RA, Collino M, and Thiemermann C

Subjects
Animals, Cytokines blood, Kidney metabolism, Kidney pathology, Liver metabolism, Liver pathology, Male, NF-kappa B metabolism, Nitric Oxide Synthase Type II metabolism, Rats, Wistar, Shock, Hemorrhagic blood, Shock, Hemorrhagic pathology, Lipopolysaccharides pharmacology, Shock, Hemorrhagic immunology
Abstract

Methods: Male rats were 'pretreated' with phosphate-buffered saline (PBS; i.p.) or LPS (1 mg/kg; i.p.) 24 h prior to HS. Mean arterial pressure (MAP) was maintained at 30 ± 2 mmHg for 90 min or until 25% of the shed blood had to be re-injected to sustain MAP. This was followed by resuscitation with the remaining shed blood. Four hours after resuscitation, parameters of organ dysfunction and systemic inflammation were assessed., Results: HS resulted in renal dysfunction, and liver and muscular injury. At a first glance, LPS preconditioning attenuated organ dysfunction. However, we discovered that HS-rats that had been preconditioned with LPS (a) were not able to sustain a MAP at 30 mmHg for more than 50 min and (b) the volume of blood withdrawn in these animals was significantly less than in the PBS-control group. This effect was associated with an enhanced formation of the nitric oxide (NO) derived from inducible NO synthase (iNOS). Thus, a further control group in which all animals were resuscitated after 50 min of hemorrhage was performed. Then, LPS preconditioning aggravated both circulatory failure and organ dysfunction. Most notably, HS-rats pretreated with LPS exhibited a dramatic increase in NF-κB activation and pro-inflammatory cytokines., Conclusion: In conclusion, LPS preconditioning predisposed animals to an earlier vascular decompensation, which may be mediated by an excess of NO production secondary to induction of iNOS and activation of NF-κB. Moreover, LPS preconditioning increased the formation of pro-inflammatory cytokines, which is likely to have contributed to the observed aggravation of organ injury/dysfunction caused by HS.

Published
2015
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19. Pneumonia-induced sepsis in mice: temporal study of inflammatory and cardiovascular parameters.

Author

Sordi R, Menezes-de-Lima O, Della-Justina AM, Rezende E, and Assreuy J

Subjects
Animals, Bacterial Load, Bronchoalveolar Lavage Fluid, Cytokines metabolism, Disease Models, Animal, Humans, Klebsiella Infections immunology, Klebsiella Infections mortality, Leukocytes, Lung immunology, Lung metabolism, Male, Mice, Myocardium immunology, Myocardium metabolism, Nitrates metabolism, Nitric Oxide metabolism, Nitric Oxide Synthase Type II metabolism, Nitrites metabolism, Pneumonia, Bacterial immunology, Pneumonia, Bacterial microbiology, Pneumonia, Bacterial mortality, Sepsis immunology, Sepsis microbiology, Sepsis mortality, Spleen immunology, Spleen metabolism, Klebsiella Infections pathology, Klebsiella pneumoniae immunology, Pneumonia, Bacterial pathology, Sepsis pathology
Abstract

The aim of the present work is to provide a better comprehension of the pneumonia-induced sepsis model through temporal evaluation of several parameters, and thus identify the main factors that determine mortality in this model. Klebsiella pneumoniae was inoculated intratracheally in anesthetized Swiss male mice. Inflammatory and cardiovascular parameters were evaluated 6, 24 and 48 h after the insult. The results show that severity of infection and the mortality correlated with the amount of bacteria. Six, 24 and 48 h after inoculation, animals presented pathological changes in lungs, increase in cell number in the bronchoalveolar lavage, leukopenia, increase in TNF-α and IL-1β levels, hypotension and hyporesponsiveness to vasoconstrictors, the two latter characteristics of severe sepsis and septic shock. Significant numbers of bacteria in spleen and heart homogenates indicated infection spreading. Interestingly, NOS-2 expression appeared late after bacteria inoculation, whereas levels of NOS-1 and NOS-3 were unchanged. The high NOS-2 expression coincided with an exacerbated NO production in the infection focus and in plasma, as judging by nitrate + nitrite levels. This study shows that K. pneumoniae inoculation induces a systemic inflammatory response and cardiovascular alterations, which endures at least until 48 h. K. pneumoniae-induced lung infection is a clinically relevant animal model of sepsis and a better understanding of this model may help to increase the knowledge about sepsis pathophysiology., (© 2013 The Authors. International Journal of Experimental Pathology © 2013 International Journal of Experimental Pathology.)

Published
2013
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20. Selective inhibition of cyclooxygenase-2: risks and benefits.

Author

Mendes RT, Stanczyk CP, Sordi R, Otuki MF, dos Santos FA, and Fernandes D

Subjects
Cardiovascular Diseases chemically induced, Cyclooxygenase 2 Inhibitors adverse effects, Humans, Risk Assessment, Cyclooxygenase 2 Inhibitors therapeutic use
Abstract

The cyclooxygenase (COX) inhibitors are the most common drugs used worldwide. COX corresponds to an evolutionarily conserved class of enzymes and has two main isoforms: COX-1, which is largely associated with physiological functions, and COX-2, which is largely associated with pathological functions. Their subproducts have an important role in inflammation and pain perception. The COX-2 selective inhibition was designed to minimize gastrointestinal complications of non-selective inhibition. However, this exclusive COX-2 inhibition was associated with serious cardiovascular events, for causing an imbalance between prostacyclin and thromboxane production. The objective of this study is to discuss the mechanisms underlying the cardiovascular effects, pointing out the advantages and disadvantages of the selective or nonselective COX inhibitors.

Published
2012

21. Anti-Mycobacterium tuberculosis activity of fungus Phomopsis stipata.

Author

de Prince KA, Sordi R, Pavan FR, Barreto Santos AC, Araujo AR, Leite SR, and Leite CQ

Abstract

Our purpose was to determine the anti-Mycobacterium tuberculosis activity of the metabolites produced by the endophitic fungus Phomopsis stipata (Lib.) B. Sutton, (Diaporthaceae), cultivated in different media. The antimycobacterial activity was assessed through the Resazurin Microtiter Assay (REMA) and the cytotoxicity test performed on macrophage cell line. The extracts derived from fungi grown on Corn Medium and Potato Dextrose Broth presented the smallest values of Minimum Inhibitory Concentration (MIC) and low cytotoxicity, which implies a high selectivity index. This is the first report on the chemical composition and antitubercular activity of metabolites of P. stipata, as well as the influence of culture medium on these properties.

Published
2012
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