259 results on '"Alves-Filho JC"'
Search Results
2. Aryl hydrocarbon receptor activation increases survival in polymicrobial sepsis
- Author
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de Freitas, A, Donate, P Barbim, e Silva Castanheira, F Vargas, Borges, V, Nascimento, D Carvalho, Talbot, J, Alves-Filho, JC, and Cunha, FdeQueiróz
- Published
- 2014
- Full Text
- View/download PDF
3. IL-33/ST2 signalling contributes to carrageenin-induced innate inflammation and inflammatory pain: role of cytokines, endothelin-1 and prostaglandin E2
- Author
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Zarpelon, AC, primary, Cunha, TM, additional, Alves-Filho, JC, additional, Pinto, LG, additional, Ferreira, SH, additional, McInnes, IB, additional, Xu, D, additional, Liew, FY, additional, Cunha, FQ, additional, and Verri, WA, additional
- Published
- 2013
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4. Regulation of neutrophil chemotaxis by toll-like receptor 9 is important for sepsis survival
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Trevelin, SC, primary, Alves-Filho, JC, additional, Sônego, F, additional, Turato, W, additional, Nascimento, D, additional, Souto, FO, additional, Cunha, TM, additional, Gazzinelli, R, additional, and de Queiroz Cunha, F, additional
- Published
- 2010
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- View/download PDF
5. CCR2 drives neutrophil infiltration and elicits tissue damage in remote organs during sepsis
- Author
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Souto, FO, primary, Alves-Filho, JC, additional, Turato, WM, additional, Nascimento, DC, additional, Auxiliadora-Martins, M, additional, Basile-Filho, A, additional, and de Queiroz Cunha, F, additional
- Published
- 2010
- Full Text
- View/download PDF
6. IL-33 protects mice from sepsis by inhibiting TLR4 signaling
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Alves-Filho, JC, primary, Sonego, F, additional, Souto, FO, additional, Freitas, A, additional, Verri, WA, additional, Xu, D, additional, Cunha, FQ, additional, and Liew, FY, additional
- Published
- 2009
- Full Text
- View/download PDF
7. Fructose-1,6-bisphosphate reduces inflammatory pain-like behaviour in mice: role of adenosine acting on A1 receptors
- Author
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Valério, DA, primary, Ferreira, FI, additional, Cunha, TM, additional, Alves-Filho, JC, additional, Lima, FO, additional, De Oliveira, JR, additional, Ferreira, SH, additional, Cunha, FQ, additional, Queiroz, RH, additional, and Verri Jr, WA, additional
- Published
- 2009
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8. CCR2 expression on neutrophils leads to detrimental tissue infiltration during sepsis
- Author
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Souto, FO, primary, Alves-Filho, JC, additional, Freitas, A, additional, Spiller, F, additional, Martins, MA, additional, Basile-Filho, A, additional, and Cunha, FQ, additional
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- 2009
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9. Caspase-1-deficient mice are more resistant to severe sepsis
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Sônego, F, primary, Alves-Filho, JC, additional, Freitas, A, additional, Nascimento, DCB, additional, Zamboni, DS, additional, and Cunha, FQ, additional
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- 2009
- Full Text
- View/download PDF
10. The critical role of heme oxygenase in neutrophil migration impairment in polymicrobial sepsis
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Freitas, A, primary, Alves-Filho, JC, additional, Dal-Secco, D, additional, Spiller, F, additional, and Cunha, FQ, additional
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- 2007
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- View/download PDF
11. Toll-like receptor 2 induces chemokine receptor CXCR2 downregulation and neutrophil migration impairment in severe sepsis
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Alves-Filho, JC, primary, Freitas, A, additional, Spiller, F, additional, Souto, FO, additional, Paula-Neto, H, additional, Silva, JS, additional, and Cunha, FQ, additional
- Published
- 2007
- Full Text
- View/download PDF
12. IL-33/ ST2 signalling contributes to carrageenin-induced innate inflammation and inflammatory pain: role of cytokines, endothelin-1 and prostaglandin E2.
- Author
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Zarpelon, AC, Cunha, TM, Alves‐Filho, JC, Pinto, LG, Ferreira, SH, McInnes, IB, Xu, D, Liew, FY, Cunha, FQ, and Verri, WA
- Subjects
HYPERALGESIA ,CYTOKINES ,INFLAMMATION ,MYELOPEROXIDASE ,LEUCOCYTES ,LABORATORY mice - Abstract
Background and Purpose IL-33 signals through ST2 receptors and induces adaptive and innate inflammation. IL-33/ ST2 is involved in adaptive inflammation-induced pain. Here, we have investigated the contribution of IL-33/ ST2-triggered mechanisms to carrageenin-induced innate inflammation. Experimental Approach Carrageenin- and IL-33-induced inflammatory responses were assessed in BALB/c- ( WT) and ST2-deficient (
−/− ) mice as follows: oedema (plethysmometer), myeloperoxidase activity (colorimetric assay), mechanical hyperalgesia (electronic version of von Frey filaments), cytokine levels ( ELISA), PGE2 ( RIA), mRNA expression (quantitative PCR), drug treatments targeting leukocyte recruitment (fucoidin), TNF-α (infliximab), CXCL1 (antibody to CXCL1), IL-1 ( IL-1ra), endothelin ETA (clazosentan) and ETB ( BQ788) receptors and COX (indomethacin). Key Results Carrageenin injection increased ST2 and IL-33 mRNA expression and IL-33 production in paw skin samples. Carrageenin-induced paw oedema, hyperalgesia and myeloperoxidase activity were reduced in ST2−/− compared with WT mice, effects mimicked by IL-33 injection in the paw. Furthermore, IL-33-induced hyperalgesia was reduced by fucoidin suggesting a role for recruited leukocytes in its hyperalgesic effect. IL-33-induced hyperalgesia in naïve mice was reduced by treatments targeting TNF, CXCL1, IL-1, endothelin receptors and COX while carrageenin-induced ST2-dependent TNF-α, CXCL1, IL-1 β, IL-10 and PGE2 production and prepro ET-1 mRNA expression. Combining IL-33 and carrageenin at doses that were ineffective as single treatment induced significant hyperalgesia, oedema, myeloperoxidase activity and cytokine production in a ST2-dependent manner. Conclusions and Implications IL-33/ ST2 signalling triggers the production of inflammatory mediators contributing to carrageenin-induced inflammation. These data reinforces the importance of IL-33/ ST2 signalling as a target in innate inflammation and inflammatory pain. [ABSTRACT FROM AUTHOR]- Published
- 2013
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- View/download PDF
13. α1-Acid glycoprotein decreases neutrophil migration and increases susceptibility to sepsis in diabetic mice.
- Author
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Spiller F, Carlos D, Souto FO, de Freitas A, Soares FS, Vieira SM, Paula FJ, Alves-Filho JC, Cunha FQ, Spiller, Fernando, Carlos, Daniela, Souto, Fabrício O, de Freitas, Andressa, Soares, Fernanda S, Vieira, Silvio M, Paula, Francisco J A, Alves-Filho, José C, and Cunha, Fernando Q
- Abstract
The mechanisms underlying immune deficiency in diabetes are largely unknown. In the present study, we demonstrate that diabetic mice are highly susceptible to polymicrobial sepsis due to reduction in rolling, adhesion, and migration of leukocytes to the focus of infection. In addition, after sepsis induction, CXCR2 was strongly downregulated in neutrophils from diabetic mice compared with nondiabetic mice. Furthermore, CXCR2 downregulation was associated with increased G-protein-coupled receptor kinase 2 (GRK2) expression in these cells. Different from nondiabetic mice, diabetic animals submitted to mild sepsis displayed a significant augment in α1-acid glycoprotein (AGP) hepatic mRNA expression and serum protein levels. Administration of AGP in nondiabetic mice subjected to mild sepsis inhibited the neutrophil migration to the focus of infection, as well as induced l-selectin shedding and rise in CD11b of blood neutrophils. Insulin treatment of diabetic mice reduced mortality rate, prevented the failure of neutrophil migration, impaired GRK2-mediated CXCR2 downregulation, and decreased the generation of AGP. Finally, administration of AGP abolished the effect of insulin treatment in diabetic mice. Together, these data suggest that AGP may be involved in reduction of neutrophil migration and increased susceptibility to sepsis in diabetic mice. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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- View/download PDF
14. Inhibition of neutrophil migration by hemopexin leads to increased mortality due to sepsis in mice.
- Author
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Spiller F, Costa C, Souto FO, Vinchi F, Mestriner FL, Laure HJ, Alves-Filho JC, Freitas A, Rosa JC, Ferreira SH, Altruda F, Hirsch E, Greene LJ, Tolosano E, and Cunha FQ
- Abstract
RATIONALE: The reduction of neutrophil migration to the bacterial focus is associated with poor outcome in sepsis. OBJECTIVES: The objective of this study was to identify soluble substances in the blood of septic mice that inhibit neutrophil migration. METHODS: A pool of serum obtained from mice 2 hours after the induction of severe sepsis by cecal ligation and puncture inhibited the neutrophil migration. The proteins with inhibitory activity on neutrophil migration were isolated by Blue-Sepharose chromatography, high-performance liquid chromatography, and electrophoresis, and identified by mass spectrometry. MEASUREMENTS AND MAIN RESULTS: Hemopexin was identified as the serum component responsible for the inhibition of neutrophil migration. In sepsis, the pretreatment of wild-type mice with hemopexin inhibited neutrophil migration to the focus of infection and decreased the survival rate from 87.5 to 50.0%. Hemopexin-null mice subjected to severe sepsis presented normal neutrophil migration, low bacteremia, and an improvement of 40% in survival rate. Moreover, hemopexin inhibited the neutrophil chemotaxis response evoked by C5a or macrophage inflammatory protein-2 and induced a reduction of CXCR2 and L-selectin as well as the up-regulation of CD11b expression in neutrophil membranes. The inhibitory effect of hemopexin on neutrophil chemotaxis was prevented by serine protease inhibitors or ATP. In addition, serum levels of ATP were decreased 2 hours after severe sepsis. CONCLUSIONS: These data demonstrate for the first time the inhibitory role of hemopexin in neutrophil migration during sepsis and suggest that the therapeutic inhibition of hemopexin or its protease activity could improve neutrophil migration to the focus of infection and survival in sepsis. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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15. Phosphoinositide-3 kinase gamma activity contributes to sepsis and organ damage by altering neutrophil recruitment.
- Author
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Martin EL, Souza DG, Fagundes CT, Amaral FA, Assenzio B, Puntorieri V, Del Sorbo L, Fanelli V, Bosco M, Delsedime L, Pinho JF, Lemos VS, Souto FO, Alves-Filho JC, Cunha FQ, Slutsky AS, Ruckle T, Hirsch E, Teixeira MM, and Ranieri VM
- Abstract
RATIONALE: Sepsis is a leading cause of death in the intensive care unit, characterized by a systemic inflammatory response (SIRS) and bacterial infection, which can often induce multiorgan damage and failure. Leukocyte recruitment, required to limit bacterial spread, depends on phosphoinositide-3 kinase [gamma] (PI3K[gamma]) signaling in vitro; however, the role of this enzyme in polymicrobial sepsis has remained unclear. OBJECTIVES: This study aimed to determine the specific role of the kinase activity of PI3K[gamma] in the pathogenesis of sepsis and multiorgan damage. METHODS: PI3K[gamma] wild-type, knockout, and kinase-dead mice were exposed to cecal ligation and perforation-induced sepsis and assessed for survival; pulmonary, hepatic, and cardiovascular damage; coagulation derangements; systemic inflammation; bacterial spread; and neutrophil recruitment. Additionally, wild-type mice were treated either before or after the onset of sepsis with a PI3K[gamma] inhibitor and assessed for survival, neutrophil recruitment, and bacterial spread. MEASUREMENTS AND MAIN RESULTS: Both genetic and pharmaceutical PI3K[gamma] kinase inhibition significantly improved survival, reduced multiorgan damage, and limited bacterial decompartmentalization, while modestly affecting SIRS. Protection resulted from both neutrophil-independent mechanisms, involving improved cardiovascular function, and neutrophil-dependent mechanisms, through reduced susceptibility to neutrophil migration failure during severe sepsis by maintaining neutrophil surface expression of the chemokine receptor, CXCR2. Furthermore, PI3K[gamma] pharmacological inhibition significantly decreased mortality and improved neutrophil migration and bacterial control, even when administered during established septic shock. CONCLUSIONS: This study establishes PI3K[gamma] as a key molecule in the pathogenesis of septic infection and the transition from SIRS to organ damage and identifies it as a novel possible therapeutic target. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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16. Reduction of gap and adherens junction proteins and intercalated disc structural remodeling in the hearts of mice submitted to severe cecal ligation and puncture sepsis.
- Author
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Celes MRN, Torres-Dueñas D, Alves-Filho JC, Duarte DB, Cunha FQ, Rossi MA, Celes, Mara Rúbia N, Torres-Dueñas, Diego, Alves-Filho, José C, Duarte, Djane B, Cunha, Fernando Q, and Rossi, Marcos A
- Published
- 2007
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17. Protective effects of atorvastatin in rat models of acute pulmonary embolism: involvement of matrix metalloproteinase-9.
- Author
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Souza-Costa DC, Figueiredo-Lopes L, Alves-Filho JC, Semprini MC, Gerlach RF, Cunha FQ, and Tanus-Santos JE
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- 2007
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18. Turbulent flow/low wall shear stress and stretch differentially affect aorta remodeling in rats.
- Author
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Prado CM, Ramos SG, Alves-Filho JC, Elias J Jr., Cunha FQ, and Rossi MA
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- 2006
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19. Toll-like receptor 4 signaling leads to neutrophil migration impairment in polymicrobial sepsis.
- Author
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Alves-Filho JC, de Freitas A, Russo M, Cunha FQ, Alves-Filho, José C, de Freitas, Andressa, Russo, Momtchilo, and Cunha, Fernando Q
- Abstract
Objective: We have documented an impaired neutrophil migration toward the infectious focus in severe sepsis. This phenomenon appears to be mediated by nitric oxide, the release of which is stimulated by circulating inflammatory cytokines released by immune cells after stimulation by bacteria and/or their products. Toll-like receptor 4 (TLR4) is the major recognition receptor for lipopolysaccharide, a component of Gram-negative bacterial cell walls. In the present study, we investigated whether TLR4 is involved in the failure of neutrophil migration in mice subjected to polymicrobial or Gram-negative sepsis.Design: Controlled animal study.Setting: University research laboratory.Subjects: Male C3H/HeJ (TLR4-deficient) and C3H/HePas (TLR4-normal) mice.Interventions: Mice were subjected to sublethal or lethal polymicrobial sepsis, both induced by cecal ligation and puncture or intraperitoneal polymicrobial inoculation, and subjected to sublethal Gram-negative sepsis induced by intraperitoneal Salmonella typhimurium inoculation (GNI). Survival was monitored for 5 days. In separate experiments, mice were killed 6 hrs after sepsis induction, and intraperitoneal neutrophil migration, bacteremia, lung neutrophil sequestration, and levels of cytokines, chemokines, and nitrate were evaluated.Measurements and Results: TLR4-deficient (C3H/HeJ) mice presented incapacity to promote neutrophil recruitment to the infectious site after sublethal GNI, resulting in high mortality. However, TLR4 signaling is not essential to display neutrophil migration in sublethal polymicrobial sepsis induced by both cecal ligation and puncture and polymicrobial inoculation models, but surprisingly, it is crucial to establish the impairment of neutrophil migration in lethal polymicrobial sepsis, since TLR4-deficient mice that underwent lethal cecal ligation and puncture or polymicrobial inoculation did not present failure of neutrophil migration to infectious focus. As a consequence, these animals presented low bacteremia and a high survival rate and did not display systemic inflammation, determined by high levels of circulating cytokines and lung neutrophil sequestration and chemokine production.Conclusion: These results highlight the harmful role of TLR4 signaling in polymicrobial severe sepsis. [ABSTRACT FROM AUTHOR]- Published
- 2006
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20. IL-33/ST2 signalling contributes to carrageenin-induced innate inflammation and inflammatory pain: role of cytokines, endothelin-1 and prostaglandin E-2
- Author
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Zarpelon, AC, Cunha, TM, Alves-Filho, JC, Pinto, LG, Ferreira, SH, McInnes, IB, Xu, D, Liew, FY, Cunha, FQ, and Verri, WA
- Subjects
Inflammation ,Male ,Mice, Knockout ,Mice, Inbred BALB C ,Dose-Response Relationship, Drug ,Endothelin-1 ,Interleukins ,Pain ,Receptors, Interleukin ,Carrageenan ,Interleukin-33 ,Research Papers ,Interleukin-1 Receptor-Like 1 Protein ,Dinoprostone ,Disease Models, Animal ,Mice ,Animals ,Cytokines ,Female ,RNA, Messenger ,Inflammation Mediators ,Signal Transduction - Abstract
IL-33 signals through ST2 receptors and induces adaptive and innate inflammation. IL-33/ST2 is involved in adaptive inflammation-induced pain. Here, we have investigated the contribution of IL-33/ST2-triggered mechanisms to carrageenin-induced innate inflammation.Carrageenin- and IL-33-induced inflammatory responses were assessed in BALB/c- (WT) and ST2-deficient ((-/-) ) mice as follows: oedema (plethysmometer), myeloperoxidase activity (colorimetric assay), mechanical hyperalgesia (electronic version of von Frey filaments), cytokine levels (ELISA), PGE2 (RIA), mRNA expression (quantitative PCR), drug treatments targeting leukocyte recruitment (fucoidin), TNF-α (infliximab), CXCL1 (antibody to CXCL1), IL-1 (IL-1ra), endothelin ETA (clazosentan) and ETB (BQ788) receptors and COX (indomethacin).Carrageenin injection increased ST2 and IL-33 mRNA expression and IL-33 production in paw skin samples. Carrageenin-induced paw oedema, hyperalgesia and myeloperoxidase activity were reduced in ST2(-/-) compared with WT mice, effects mimicked by IL-33 injection in the paw. Furthermore, IL-33-induced hyperalgesia was reduced by fucoidin suggesting a role for recruited leukocytes in its hyperalgesic effect. IL-33-induced hyperalgesia in naïve mice was reduced by treatments targeting TNF, CXCL1, IL-1, endothelin receptors and COX while carrageenin-induced ST2-dependent TNF-α, CXCL1, IL-1β, IL-10 and PGE2 production and preproET-1 mRNA expression. Combining IL-33 and carrageenin at doses that were ineffective as single treatment induced significant hyperalgesia, oedema, myeloperoxidase activity and cytokine production in a ST2-dependent manner.IL-33/ST2 signalling triggers the production of inflammatory mediators contributing to carrageenin-induced inflammation. These data reinforces the importance of IL-33/ST2 signalling as a target in innate inflammation and inflammatory pain.
21. P600 Endothelial Nox2 is protective against sepsis-induced severe hypotension and systemic inflammatory response.
- Author
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Trevelin, S C, Santos, CX, Zhang, M, Sag, C, Cunha, TM, Alves-Filho, JC, Lopes, LR, Cunha, FQ, Ivetic, A, and Shah, AM
- Subjects
ENDOTHELIAL cells ,SEPSIS ,HYPOTENSION ,INFLAMMATION ,REGULATION of blood pressure ,PLETHYSMOGRAPHY - Abstract
Purpose: To investigate the role of endothelial Nox2 in sepsis-induced systemic inflammatory response and hypotension. Methods: All experiments were conduced in accordance with the Scientific Procedures Act. 1986 (UK Home Office). Mice with endothelial-target deletion of Nox2 were generated by crossing Nox2fl/fl mice with Tie2Cre transgenic animals. We compared Nox2fl/fl Tie2Cre+/− mice (Knockout,KO) with matched littermate Nox2fl/fl Tie2Cre-/- (Control) animals on a C57BL/6 background. Mice received an iv injection of lipopolysaccharide (LPS, 10mg/kg) or saline. Systolic and diastolic blood pressures were determined by tail-cuff plethysmography. A clinical severity score comprising signs of lethargy, piloerection, tremor, periorbital exudates, respiratory distress and diarrhoea was determined 2-hourly after LPS injection. After 12 hours sepsis, animals were euthanized and neutrophil sequestration in lungs was evaluated by myeloperoxidase assay. ROS production in mesenteric vessels was assessed by dihydroethidium- image assay and 3-nitrotyrosine staining was used as a readout of nitrosative stress. Levels of tumor necrosis factor alpha (TNF-alpha) were determined by enzymatic linked immunoabsorbent assay. Results: KO mice had lower ROS production in mesenteric vessels than controls after LPS injection. Despite similar basal values (94.46±2.1 vs 96.43±2.50mmHg for systolic blood pressure and 68.19±1.74 vs 69.26±2.56mmHg for diastolic pressure), KO mice had lower blood pressure than control mice, 6 hours after LPS injection (63.04±2.56 vs 76.70±1.38mmHg for systolic blood pressure and 48.24±2.77 vs 59.14±1.89 mmHg for diastolic pressure; p<0.05; n=9). The clinical severity scores were also more aggravate in KO mice compared to controls (p=0.0003, n=9). Mice with endothelial-target Nox2 deletion had higher number of neutrophils trapped in lungs (12480±207.4 vs 6489±75.09 cells/mg lung, p=0.0004, n=6), and increased levels of TNF-alpha in plasma (95.70±13.51 vs 33.69±11.59 pg/ml, p=0.0207, n=5) compared to controls. Interestingly, 3-nitrotyrosine staining in mesenteric vessels was higher in KO mice compared to controls. Conclusions: Endothelial cell Nox2 appears to be protective during sepsis by reducing the extent of hypotension, neutrophil sequestration in lungs and levels of TNF-alpha in plasma. The severe hypotension in KO mice during sepsis could be associated with evidence of greater nitrosative stress in mesenteric vessels than controls. The cellular mechanisms underlying the Nox2 protective effect are currently being investigated. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
22. IL-33/ ST2 signalling contributes to carrageenin-induced innate inflammation and inflammatory pain: role of cytokines, endothelin-1 and prostaglandin E2.
- Author
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Zarpelon, AC, Cunha, TM, Alves‐Filho, JC, Pinto, LG, Ferreira, SH, McInnes, IB, Xu, D, Liew, FY, Cunha, FQ, and Verri, WA
- Subjects
- *
HYPERALGESIA , *CYTOKINES , *INFLAMMATION , *MYELOPEROXIDASE , *LEUCOCYTES , *LABORATORY mice - Abstract
Background and Purpose IL-33 signals through ST2 receptors and induces adaptive and innate inflammation. IL-33/ ST2 is involved in adaptive inflammation-induced pain. Here, we have investigated the contribution of IL-33/ ST2-triggered mechanisms to carrageenin-induced innate inflammation. Experimental Approach Carrageenin- and IL-33-induced inflammatory responses were assessed in BALB/c- ( WT) and ST2-deficient (−/−) mice as follows: oedema (plethysmometer), myeloperoxidase activity (colorimetric assay), mechanical hyperalgesia (electronic version of von Frey filaments), cytokine levels ( ELISA), PGE2 ( RIA), mRNA expression (quantitative PCR), drug treatments targeting leukocyte recruitment (fucoidin), TNF-α (infliximab), CXCL1 (antibody to CXCL1), IL-1 ( IL-1ra), endothelin ETA (clazosentan) and ETB ( BQ788) receptors and COX (indomethacin). Key Results Carrageenin injection increased ST2 and IL-33 mRNA expression and IL-33 production in paw skin samples. Carrageenin-induced paw oedema, hyperalgesia and myeloperoxidase activity were reduced in ST2−/− compared with WT mice, effects mimicked by IL-33 injection in the paw. Furthermore, IL-33-induced hyperalgesia was reduced by fucoidin suggesting a role for recruited leukocytes in its hyperalgesic effect. IL-33-induced hyperalgesia in naïve mice was reduced by treatments targeting TNF, CXCL1, IL-1, endothelin receptors and COX while carrageenin-induced ST2-dependent TNF-α, CXCL1, IL-1 β, IL-10 and PGE2 production and prepro ET-1 mRNA expression. Combining IL-33 and carrageenin at doses that were ineffective as single treatment induced significant hyperalgesia, oedema, myeloperoxidase activity and cytokine production in a ST2-dependent manner. Conclusions and Implications IL-33/ ST2 signalling triggers the production of inflammatory mediators contributing to carrageenin-induced inflammation. These data reinforces the importance of IL-33/ ST2 signalling as a target in innate inflammation and inflammatory pain. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
23. Phosphoinositide-3 kinase gamma activity contributes to sepsis and organ damage by altering neutrophil recruitment
- Author
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Martino Bosco, Mauro M. Teixeira, Valeria Puntorieri, Emilio Hirsch, Fabricio O. Souto, V. Marco Ranieri, Virginia S. Lemos, Danielle G. Souza, Thomas Rückle, José C. Alves-Filho, Luisa Delsedime, Flávio A. Amaral, Barbara Assenzio, José Felippe Pinho, Fernando Q. Cunha, Caio T. Fagundes, Lorenzo Del Sorbo, Arthur S. Slutsky, E. L. Martin, Vito Fanelli, Martin EL, Souza DG, Fagundes CT, Amaral FA, Assenzio B, Puntorieri V, Del Sorbo L, Fanelli V, Bosco M, Delsedime L, Pinho JF, Lemos VS, Souto FO, Alves-Filho JC, Cunha FQ, Slutsky AS, Ruckle T, Hirsch E, Teixeira MM, and Ranieri VM.
- Subjects
Pulmonary and Respiratory Medicine ,Multiple Organ Failure ,Kaplan-Meier Estimate ,Critical Care and Intensive Care Medicine ,Systemic inflammation ,Sepsis is a leading cause of death in the intensive care unit, characterized by a systemic inflammatory response (SIRS) and bacterial infection, which can often induce multiorgan damage and failure. Leukocyte recruitment, required to limit bacterial spread, depends on phosphoinositide-3 kinase γ (PI3Kγ) signaling in vitro ,Sepsis ,Pathogenesis ,Mice ,Phosphatidylinositol 3-Kinases ,Intensive care ,medicine ,Animals ,Class Ib Phosphatidylinositol 3-Kinase ,Kinase activity ,Enzyme Inhibitors ,however, the role of this enzyme in polymicrobial sepsis has remained unclear ,Phosphoinositide-3 Kinase Inhibitors ,Mice, Knockout ,Lung ,Phosphoinositide 3-kinase ,biology ,business.industry ,Kinase ,medicine.disease ,Systemic Inflammatory Response Syndrome ,Isoenzymes ,Mice, Inbred C57BL ,Chemotaxis, Leukocyte ,Disease Models, Animal ,medicine.anatomical_structure ,Neutrophil Infiltration ,Immunology ,biology.protein ,medicine.symptom ,business ,Signal Transduction - Abstract
RATIONALE: Sepsis is a leading cause of death in the intensive care unit, characterized by a systemic inflammatory response (SIRS) and bacterial infection, which can often induce multiorgan damage and failure. Leukocyte recruitment, required to limit bacterial spread, depends on phosphoinositide-3 kinase γ (PI3Kγ) signaling in vitro; however, the role of this enzyme in polymicrobial sepsis has remained unclear. OBJECTIVES: This study aimed to determine the specific role of the kinase activity of PI3Kγ in the pathogenesis of sepsis and multiorgan damage. METHODS: PI3Kγ wild-type, knockout, and kinase-dead mice were exposed to cecal ligation and perforation-induced sepsis and assessed for survival; pulmonary, hepatic, and cardiovascular damage; coagulation derangements; systemic inflammation; bacterial spread; and neutrophil recruitment. Additionally, wild-type mice were treated either before or after the onset of sepsis with a PI3Kγ inhibitor and assessed for survival, neutrophil recruitment, and bacterial spread. MEASUREMENTS AND MAIN RESULTS: Both genetic and pharmaceutical PI3Kγ kinase inhibition significantly improved survival, reduced multiorgan damage, and limited bacterial decompartmentalization, while modestly affecting SIRS. Protection resulted from both neutrophil-independent mechanisms, involving improved cardiovascular function, and neutrophil-dependent mechanisms, through reduced susceptibility to neutrophil migration failure during severe sepsis by maintaining neutrophil surface expression of the chemokine receptor, CXCR2. Furthermore, PI3Kγ pharmacological inhibition significantly decreased mortality and improved neutrophil migration and bacterial control, even when administered during established septic shock. CONCLUSIONS: This study establishes PI3Kγ as a key molecule in the pathogenesis of septic infection and the transition from SIRS to organ damage and identifies it as a novel possible therapeutic target.
- Published
- 2010
24. Molecular mechanisms of zymosan-induced inflammasome activation in macrophages.
- Author
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Silva RL, Lopes AH, Becerra A, Fonseca MM, Maganin A, Saraiva ALL, Cunha FQ, Alves-Filho JC, Zamboni DS, and Cunha TM
- Subjects
- Animals, Mice, Myeloid Differentiation Factor 88 metabolism, Toll-Like Receptor 2 metabolism, Mice, Inbred C57BL, Macrophages, Peritoneal metabolism, Macrophages, Peritoneal drug effects, Carrier Proteins metabolism, Cytoskeletal Proteins metabolism, Macrophages metabolism, Macrophages drug effects, Glycolysis drug effects, Phagocytosis drug effects, Zymosan, Inflammasomes metabolism, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Interleukin-1beta metabolism, Caspase 1 metabolism, CARD Signaling Adaptor Proteins metabolism, Lectins, C-Type metabolism, Adenosine Triphosphate metabolism
- Abstract
Zymosan is a β-glucan-rich component derived from the cell walls of Saccharomyces cerevisiae extensively used in research for its potent immunomodulatory properties. It can prompt inflammatory responses such as peritonitis and arthritis, and is particularly used to study the immune response to fungal particles. Although the zymosan induced-release of the proinflammatory cytokine IL-1β by macrophages is an essential mechanism for combating fungal infection and inducing inflammation, the exact processes leading to its release remain not well understood. In this study, we uncover the intracellular mechanisms involved in zymosan induced-release of active IL-1β by peritoneal macrophages. Zymosan initiates pro-IL-1β formation through TLR2/MyD88 activation; however, Dectin-1 activation only amplify the conversion of pro-IL-1β into its active form. The conversion of inactive to active IL-1β upon zymosan stimulation depends on the NLRP3, ASC, and caspase-1 driven by the decrease in intracellular potassium ions. Notably, zymosan-induced activation of caspase-1 does not require phagocytosis. Instead, zymosan induces a rapid drop in the intracellular ATP concentration, which occurs concomitant with caspase-1 and IL-1β activation. Accordingly, disruption of glycolytic flux during zymosan stimulation promotes an additional reduction of intracellular ATP and concurrently amplifies the activation of caspase-1 and IL-1β. These results reveal that fungal recognition by macrophages results in a metabolic dysfunction, leading to a decrease of intracellular ATP associated with inflammasome activation., Competing Interests: Declaration of competing interest Authors have no competing interest., (Copyright © 2024 Elsevier Inc. All rights reserved.)
- Published
- 2024
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25. The DNA sensor AIM2 mediates psoriasiform inflammation by inducing type 3 immunity.
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Varela Martins T, Silva de Melo BM, Toller-Kawahisa JE, da Silva GVL, Aníbal Silva CE, Paiva IM, Públio GA, Rosa MH, da Silva Souza C, Zamboni DS, Cunha FQ, Cunha TM, Ryffel B, Riteau N, and Alves-Filho JC
- Subjects
- Animals, Humans, Mice, Inflammation metabolism, Inflammation genetics, Inflammation immunology, DNA, Mitochondrial genetics, DNA, Mitochondrial metabolism, Male, Female, Mice, Knockout, Skin pathology, Skin metabolism, Skin immunology, Interleukin-23 metabolism, Interleukin-23 genetics, Psoriasis genetics, Psoriasis immunology, Psoriasis chemically induced, Psoriasis pathology, Psoriasis metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Imiquimod toxicity, Keratinocytes metabolism, Keratinocytes immunology, Disease Models, Animal, Interleukin-17 metabolism, Interleukin-17 genetics, Inflammasomes metabolism, Inflammasomes genetics, Inflammasomes immunology
- Abstract
Psoriasis is a chronic and recurrent inflammatory skin disease characterized by abnormal proliferation and differentiation of keratinocytes and activation of immune cells. However, the molecular driver that triggers this immune response in psoriatic skin remains unclear. The inflammation-related gene absent in melanoma 2 (AIM2) was identified as a susceptibility gene/locus associated with psoriasis. In this study, we investigated the role of AIM2 in the pathophysiology of psoriasis. We found elevated levels of mitochondrial DNA in patients with psoriasis, along with high expression of AIM2 in both the human psoriatic epidermis and a mouse model of psoriasis induced by topical imiquimod (IMQ) application. Genetic ablation of AIM2 reduced the development of IMQ-induced psoriasis by decreasing the production of type 3 cytokines (such as IL-17A and IL-23) and infiltration of immune cells into the inflammatory site. Furthermore, we demonstrate that IL-17A induced AIM2 expression in keratinocytes. Finally, the genetic absence of inflammasome components downstream AIM2, ASC, and caspase-1 alleviated IMQ-induced skin inflammation. Collectively, our data show that AIM2 is involved in developing psoriasis through its canonical activation.
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- 2024
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26. Tartrolon D induces immunogenic cell death in melanoma.
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Brito TL, Edson EA, Dias Florêncio KG, Machado-Neto JA, Garnique ADMB, Mesquita Luiz JP, Cunha FQ, Alves-Filho JC, Haygood M, and Wilke DV
- Subjects
- Humans, Cell Line, Tumor, Animals, Apoptosis drug effects, Mice, Autophagy drug effects, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Endoplasmic Reticulum Stress drug effects, Endoplasmic Reticulum Stress immunology, Cell Proliferation drug effects, Cell Survival drug effects, HEK293 Cells, Calreticulin metabolism, Immunogenic Cell Death drug effects, Melanoma immunology, Melanoma pathology, Melanoma drug therapy
- Abstract
Tartrolon D (TRL) is produced by Teredinibacter turnerae, a symbiotic cellulose-degrading bacteria in shipworm gills. Immunogenic cell death (ICD) induction contributes to a better and longer-lasting response to anticancer treatment. Tumor cells undergoing ICD trigger activation of the immune system, as a vaccine., Aims: This study aimed to evaluate ICD induction by TRL., Main Methods: Cell viability was evaluated by SRB assay. Cell stress, cell death, ICD features and antigen-presenting molecules were evaluated by flow cytometry and immunoblot., Key Findings: TRL showed antiproliferative activity on 7 tumor cell lines (L929, HCT 116, B16-F10, WM293A, SK-MEL-28, PC-3M, and MCF-7) and a non-tumor cell (HEK293A), with an inhibition concentration mean (IC
50 ) ranging from 0.03 μM to 13 μM. Metastatic melanomas, SK-MEL-28, B16-F10, and WM293A, were more sensitive cell lines, with IC50 ranging from 0.07 to 1.2 μM. TRL induced apoptosis along with autophagy and endoplasmic reticulum stress and release of typical damage-associated molecular patterns (DAMPs) of ICD such calreticulin, ERp57, and HSP70 exposure, and HMGB1 release. Additionally, melanoma B16-F10 exposed to TRL increased expression of antigen-presenting molecules MHC II and CD1d and induced activation of splenocytes of C57BL/6 mice., Significance: In spite of recent advances provided by target therapy and immunotherapy, advanced metastatic melanoma is incurable for more than half of patients. ICD inducers yield better and long-lasting responses to anticancer treatment. Our findings shed light on an anticancer candidate of marine origin that induces ICD in melanoma., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)- Published
- 2024
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27. Mineralocorticoid receptor antagonism partially prevents dysfunction of T cell maturation in rats chronically treated with ethanol.
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Dourado TMH, Nascimento DC, Rosa MH, Assis VO, Pimenta GF, Alves-Filho JC, and Tirapelli CR
- Abstract
Ethanol consumption induces thymic atrophy and affects T cell maturation in the thymus. However, the mechanisms underlying such effects still need to be fully understood. We attempted to investigate the role of mineralocorticoid receptors (MR) on ethanol-induced thymic atrophy, T cell maturation dysfunction, and the role of oxidative stress in such responses. Male Wistar Hannover rats were treated with ethanol (20%; in volume ratio) and/or potassium canrenoate, an antagonist of MR (MRA; 30 mg/kg/day, gavage) for five weeks. Blockade of MR prevented ethanol-induced increases in the number of double-positive (CD4
+ CD8+ ), CD8+ single-positive (CD4- CD8+ ), CD4+ single-positive (CD4+ CD8- ), and Foxp3+ CD4+ (Treg) cells in the thymus. Ethanol increased NOX2-derived superoxide (O2 •- ), lipoperoxidation, and superoxide dismutase (SOD) activity in the thymus. Pretreatment with the MRA fully prevented these responses. Apocynin, an antioxidant, prevented ethanol-induced increases in the number of double-positive and CD8+ single-positive cells but failed to prevent the rise in the number of CD4+ single-positive and Treg cells induced by ethanol. Apocynin, but not the MRA, prevented thymic atrophy induced by ethanol. Our findings provided novel evidence for the participation of MR in thymic dysfunction induced by ethanol consumption. Oxidative stress mediates the increase in double-positive and CD8+ single-positive cells in response to MR activation, while positive regulation of CD4+ single-positive and Treg cells is independent of oxidative stress. Oxidative stress is a significant mechanism of thymic atrophy associated with ethanol consumption, but this response is independent of MR activation., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)- Published
- 2024
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28. Macrophage-derived human resistin promotes perivascular adipose tissue dysfunction in experimental inflammatory arthritis.
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Fedoce AG, Veras FP, Rosa MH, Schneider AH, Paiva IM, Machado MR, Freitas-Filho EG, Silva JF, Machado CC, Alves-Filho JC, Cunha FQ, N Z Ramalho L, Louzada-Junior P, Bonavia AS, and Tostes RC
- Subjects
- Animals, Humans, Mice, Mice, Knockout, Male, Resistin metabolism, Resistin genetics, Adipose Tissue metabolism, Macrophages metabolism, Mice, Inbred C57BL, Arthritis, Experimental metabolism
- Abstract
Cardiovascular disease (CVD) is the leading cause of death in rheumatoid arthritis (RA). Resistin is an adipokine that induces adipose tissue inflammation and activation of monocytes/macrophages via adenylate cyclase-associated protein-1 (CAP1). Resistin levels are increased in RA and might cause perivascular adipose tissue (PVAT) dysfunction, leading to vascular damage and CVD. This study aimed to investigate the role of resistin in promoting PVAT dysfunction by increasing local macrophage and inflammatory cytokines content in antigen-induced arthritis (AIA). Resistin pharmacological effects were assessed by using C57Bl/6J wild-type (WT) mice, humanized resistin mice expressing human resistin in monocytes-macrophages (hRTN
+ /- /- ), and resistin knockout mice (RTN- /- ) with AIA and respective controls. We investigated AIA disease activity and functional, cellular, and molecular parameters of the PVAT. Resistin did not contribute to AIA disease activity and its concentrations were augmented in the PVAT and plasma of WT AIA and hRTN+ /- /- AIA animals. In vitro exposure of murine arteries to resistin impaired vascular function by decreasing the anti-contractile effect of PVAT. WT AIA mice and hRTN+ /- /- AIA mice exhibited PVAT dysfunction and knockdown of resistin prevented it. Macrophage-derived cytokines, markers of types 1 and 2 macrophages, and CAP1 expression were increased in the PVAT of resistin humanized mice with AIA, but not in knockout mice for resistin. This study reveals that macrophage-derived resistin promotes PVAT inflammation and dysfunction regardless of AIA disease activity. Resistin might represent a translational target to reduce RA-driven vascular dysfunction and CVD., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Inc.)- Published
- 2024
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29. Neutrophil Virucidal Activity Against SARS-CoV-2 Is Mediated by Neutrophil Extracellular Traps.
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Dos Ramos Almeida CJL, Veras FP, Paiva IM, Schneider AH, da Costa Silva J, Gomes GF, Costa VF, Silva BMS, Caetite DB, Silva CMS, Salina ACG, Martins R, Bonilha CS, Cunha LD, Jamur MC, da Silva LLP, Arruda E, Zamboni DS, Louzada-Junior P, de Oliveira RDR, Alves-Filho JC, Cunha TM, and de Queiroz Cunha F
- Subjects
- Animals, Humans, Mice, Epithelial Cells virology, Viral Load, Deoxyribonuclease I metabolism, Extracellular Traps, Neutrophils immunology, SARS-CoV-2, COVID-19 immunology, COVID-19 virology, Mice, Transgenic, Angiotensin-Converting Enzyme 2 metabolism, Virus Replication drug effects
- Abstract
Background: Inflammation in the lungs and other vital organs in COVID-19 is characterized by the presence of neutrophils and a high concentration of neutrophil extracellular traps (NETs), which seems to mediate host tissue damage. However, it is not known whether NETs could have virucidal activity against SARS-CoV-2., Methods: We investigated whether NETs could prevent SARS-CoV-2 replication in neutrophils and epithelial cells and what the consequence of NETs degradation would be in K18-humanized ACE2 transgenic mice infected with SARS-CoV-2., Results: Here, by immunofluorescence microscopy, we observed that viral particles colocalize with NETs in neutrophils isolated from patients with COVID-19 or healthy individuals and infected in vitro. The inhibition of NETs production increased virus replication in neutrophils. In parallel, we observed that NETs inhibited virus abilities to infect and replicate in epithelial cells after 24 hours of infection. Degradation of NETs with DNase I prevented their virucidal effect in vitro. Using K18-humanized ACE2 transgenic mice, we observed a higher viral load in animals treated with DNase I. However, the virucidal effect of NETs was not dependent on neutrophil elastase or myeloperoxidase activity., Conclusions: Our results provide evidence of the role of NETosis as a mechanism of SARS-CoV-2 viral capture and inhibition., Competing Interests: Potential conflicts of interest. All authors: No reported conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2023. Published by Oxford University Press on behalf of Infectious Diseases Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)
- Published
- 2024
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30. Paediatric sepsis survivors are resistant to sepsis-induced long-term immune dysfunction.
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Colón DF, Wanderley CW, Turato WM, Borges VF, Franchin M, Castanheira FVS, Nascimento D, Prado D, Haruo Fernandes de Lima M, Volpon LC, Kavaguti SK, Carlotti AP, Carmona F, Franklin BS, Cunha TM, Alves-Filho JC, and Cunha FQ
- Subjects
- Humans, Mice, Animals, Child, Immunity, Innate, Lymphocytes metabolism, Lymphocytes pathology, Immunosuppression Therapy, Interleukin-33, Sepsis
- Abstract
Background and Purpose: Sepsis-surviving adult individuals commonly develop immunosuppression and increased susceptibility to secondary infections, an outcome mediated by the axis IL-33/ILC2s/M2 macrophages/Tregs. Nonetheless, the long-term immune consequences of paediatric sepsis are indeterminate. We sought to investigate the role of age in the genesis of immunosuppression following sepsis., Experimental Approach: Here, we compared the frequency of Tregs, the activation of the IL-33/ILC2s axis in M2 macrophages and the DNA methylation of epithelial lung cells from post-septic infant and adult mice. Likewise, sepsis-surviving mice were inoculated intranasally with Pseudomonas aeruginosa or by subcutaneous inoculation of the B16 melanoma cell line. Finally, blood samples from sepsis-surviving patients were collected and the concentration of IL-33 and Tregs frequency were assessed., Key Results: In contrast to 6-week-old mice, 2-week-old mice were resistant to secondary infection and did not show impairment in tumour controls upon melanoma challenge. Mechanistically, increased IL-33 levels, Tregs expansion, and activation of ILC2s and M2-macrophages were observed in 6-week-old but not 2-week-old post-septic mice. Moreover, impaired IL-33 production in 2-week-old post-septic mice was associated with increased DNA methylation in lung epithelial cells. Notably, IL-33 treatment boosted the expansion of Tregs and induced immunosuppression in 2-week-old mice. Clinically, adults but not paediatric post-septic patients exhibited higher counts of Tregs and seral IL-33 levels., Conclusion and Implications: These findings demonstrate a crucial and age-dependent role for IL-33 in post-sepsis immunosuppression. Thus, a better understanding of this process may lead to differential treatments for adult and paediatric sepsis., (© 2023 British Pharmacological Society.)
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- 2024
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31. Isolation and primary culture of human abdominal aorta smooth muscle cells from brain-dead donors: an experimental model for vascular diseases.
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Corsi CAC, Sares CTG, Mestriner F, Michelon-Barbosa J, Dugaich VF, Martins TV, Násare AM, Rosales RRC, Jordani MC, Alves-Filho JC, Dos Reis RB, Ribeiro MS, and Becari C
- Subjects
- Humans, Brain Death metabolism, Brain Death pathology, Muscle, Smooth, Vascular metabolism, Models, Theoretical, Myocytes, Smooth Muscle, Brain, Cells, Cultured, Aorta, Abdominal, Vascular Diseases metabolism, Vascular Diseases pathology
- Abstract
Primary cell cultures are essential tools for elucidating the physiopathological mechanisms of the cardiovascular system. Therefore, a primary culture growth protocol of cardiovascular smooth muscle cells (VSMCs) obtained from human abdominal aortas was standardized. Ten abdominal aorta samples were obtained from patients diagnosed with brain death who were organ and tissue donors with family consent. After surgical ablation to capture the aorta, the aortic tissue was removed, immersed in a Custodiol® solution, and kept between 2 and 8 °C. In the laboratory, in a sterile environment, the tissue was fragmented and incubated in culture plates containing an enriched culture medium (DMEM/G/10% fetal bovine serum, L-glutamine, antibiotics and antifungals) and kept in an oven at 37 °C and 5% CO
2 . The aorta was removed after 24 h of incubation, and the culture medium was changed every six days for twenty days. Cell growth was confirmed through morphological analysis using an inverted optical microscope (Nikon®) and immunofluorescence for smooth muscle alpha-actin and nuclei. The development of the VSMCs was observed, and from the twelfth day, differentiation, long cytoplasmic projections, and adjacent cell connections occurred. On the twentieth day, the morphology of the VSMCs was confirmed by actin fiber immunofluorescence, which is a typical characteristic of VSMCs. The standardization allowed VSMC growth and the replicability of the in vitro test, providing a protocol that mimics natural physiological environments for a better understanding of the cardiovascular system. Its use is intended for investigation, tissue bioengineering, and pharmacological treatments., (© 2023. The Author(s), under exclusive licence to Springer Nature B.V.)- Published
- 2024
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32. Neutrophil extracellular traps mediate bone erosion in rheumatoid arthritis by enhancing RANKL-induced osteoclastogenesis.
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Schneider AH, Taira TM, Públio GA, da Silva Prado D, Donate Yabuta PB, Dos Santos JC, Machado CC, de Souza FFL, Rodrigues Venturini LG, de Oliveira RDR, Cunha TM, Alves-Filho JC, Louzada-Júnior P, Aparecida da Silva T, Fukada SY, and Cunha FQ
- Subjects
- Humans, Animals, Mice, Osteoprotegerin metabolism, Osteoprotegerin pharmacology, Osteogenesis, Toll-Like Receptor 4 metabolism, Toll-Like Receptor 9 metabolism, Osteoclasts metabolism, Deoxyribonucleases metabolism, RANK Ligand metabolism, Extracellular Traps metabolism, Arthritis, Rheumatoid metabolism
- Abstract
Background and Purpose: Rheumatoid arthritis (RA) is a chronic autoimmune disease that can cause bone erosion due to increased osteoclastogenesis. Neutrophils involvement in osteoclastogenesis remains uncertain. Given that neutrophil extracellular traps (NETs) can act as inflammatory mediators in rheumatoid arthritis, we investigated the role of NETs in stimulating bone loss by potentiating osteoclastogenesis during arthritis., Experimental Approach: The level of NETs in synovial fluid from arthritis patients was assessed. Bone loss was evaluated by histology and micro-CT in antigen-induced arthritis (AIA)-induced WT mice treated with DNase or in Padi4-deficient mice (Padi4
flox/flox LysMCRE ). The size and function of osteoclasts and the levels of RANKL and osteoprotegerin (OPG) released by osteoblasts that were incubated with NETs were measured. The expression of osteoclastogenic marker genes and protein levels were evaluated by qPCR and western blotting. To assess the participation of TLR4 and TLR9 in osteoclastogenesis, cells from Tlr4-/- and Tlr9-/- mice were cultured with NETs., Key Results: Rheumatoid arthritis patients had higher levels of NETs in synovial fluid than osteoarthritis patients, which correlated with increased levels of RANKL/OPG. Moreover, patients with bone erosion had higher levels of NETs. Inhibiting NETs with DNase or Padi4 deletion alleviated bone loss in arthritic mice. Consistently, NETs enhanced RANKL-induced osteoclastogenesis that was dependent on TLR4 and TLR9 and increased osteoclast resorptive functions in vitro. In addition, NETs stimulated the release of RANKL and inhibited osteoprotegerin in osteoblasts, favouring osteoclastogenesis., Conclusions and Implications: Inhibiting NETs could be an alternative strategy to reduce bone erosion in arthritis patients., (© 2023 British Pharmacological Society.)- Published
- 2024
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33. Enoxaparin improves COVID-19 by reducing Neutrophils Extracellular Traps (NETs) production.
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Córneo ES, Veras FP, Gomes GF, Schneider AH, Manuella B, Almeida CJLR, Silva CM, Martins RB, Batah SS, Simon CS, Prestes GDS, Alves-Filho JC, Arruda E, Louzada-Junior P, de Oliveira RDR, Fabro AT, Cunha TM, Cunha FQ, and Dal-Pizzol F
- Subjects
- Humans, Animals, Neutrophils, Enoxaparin pharmacology, SARS-CoV-2, COVID-19, Extracellular Traps
- Abstract
Background: COVID-19 causes consequences such as imbalance of the immune system and thrombotic events. During the infection process, NETs in excess induce a pro-inflammatory response and disseminated intravascular coagulation. We evaluated the role of enoxaparin as a potential inhibitor of NETs., Methods: K18-hACE2 animals infected with the SARS-CoV-2 virus and a group of 23 individuals admitted to the hospital with COVID-19 treated with enoxaparin or without treatment and controls without the disease were included., Results: Enoxaparin decreased the levels of NETs, reduced the signs of the disease and mitigated lung damage in the animals infected with SARS-CoV-2. These effects were partially associated with prevention of SARS-CoV-2 entry and NETs synthesis. Clinical data revealed that treatment with enoxaparin decreased the levels of inflammatory markers, the levels of NETs in isolated neutrophils and the organ dysfunction., Conclusion: This study provides evidence for the beneficial effects of enoxaparin in COVID-19 in addition to its anticoagulant role., Competing Interests: Declaration of Competing Interest The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)
- Published
- 2023
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34. T cell-specific P2RX7 favors lung parenchymal CD4 + T cell accumulation in response to severe lung infections.
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Santiago-Carvalho I, Almeida-Santos G, Macedo BG, Barbosa-Bomfim CC, Almeida FM, Pinheiro Cione MV, Vardam-Kaur T, Masuda M, Van Dijk S, Melo BM, Silva do Nascimento R, da Conceição Souza R, Peixoto-Rangel AL, Coutinho-Silva R, Hirata MH, Alves-Filho JC, Álvarez JM, Lassounskaia E, Borges da Silva H, and D'Império-Lima MR
- Subjects
- Animals, Humans, Mice, CD4-Positive T-Lymphocytes, Lung pathology, Receptors, Chemokine metabolism, Influenza, Human metabolism, Tuberculosis pathology
- Abstract
CD4
+ T cells are key components of the immune response during lung infections and can mediate protection against tuberculosis (TB) or influenza. However, CD4+ T cells can also promote lung pathology during these infections, making it unclear how these cells control such discrepant effects. Using mouse models of hypervirulent TB and influenza, we observe that exaggerated accumulation of parenchymal CD4+ T cells promotes lung damage. Low numbers of lung CD4+ T cells, in contrast, are sufficient to protect against hypervirulent TB. In both situations, lung CD4+ T cell accumulation is mediated by CD4+ T cell-specific expression of the extracellular ATP (eATP) receptor P2RX7. P2RX7 upregulation in lung CD4+ T cells promotes expression of the chemokine receptor CXCR3, favoring parenchymal CD4+ T cell accumulation. Our findings suggest that direct sensing of lung eATP by CD4+ T cells is critical to induce tissue CD4+ T cell accumulation and pathology during lung infections., Competing Interests: Declaration of interests H.B.d.S. is an advisor for the International Genomics Consortium., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)- Published
- 2023
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35. Editorial: Sepsis: studying the immune system to highlight biomarkers for diagnosis, prognosis and personalized treatments.
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Cutrin JC, Alves-Filho JC, and Ryffel B
- Subjects
- Humans, Prognosis, Biomarkers, Immune System, Sepsis diagnosis, Sepsis therapy
- Abstract
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.
- Published
- 2023
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36. A clinically-relevant STING agonist restrains human T H 17 cell inflammatory profile.
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Damasceno LEA, Cunha TM, Cunha FQ, Sparwasser T, and Alves-Filho JC
- Subjects
- Humans, Mice, Animals, Signal Transduction, Disease Models, Animal, Th17 Cells, Inflammation metabolism, Colitis pathology
- Abstract
The STING signaling pathway has gained attention over the last few years due to its ability to incite antimicrobial and antitumoral immunity. Conversely, in mouse models of autoimmunity such as colitis and multiple sclerosis, where T
H 17 cells are implicated in tissue inflammation, STING activation has been associated with the attenuation of immunogenic responses. In this line, STING was found to limit murine TH 17 pro-inflammatory program in vitro. Here we demonstrate that 2'3'-c-di-AM(PS)2 (Rp,Rp), a STING agonist that has been undergoing clinical trials for antitumor immunotherapy, activates the STING signalosome in differentiating human TH 17 cells. Of particular interest, 2'3'-c-di-AM(PS)2 (Rp,Rp) reduces IL-17A production and IL23R expression by human TH 17 cells while it favors the generation of regulatory T (Treg ) cells. These findings suggest that STING agonists may be promising approaches for treating human TH 17-mediated chronic inflammation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)- Published
- 2023
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37. S100A9 Drives the Chronification of Psoriasiform Inflammation by Inducing IL-23/Type 3 Immunity.
- Author
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Silva de Melo BM, Veras FP, Zwicky P, Lima D, Ingelfinger F, Martins TV, da Silva Prado D, Schärli S, Publio G, Hiroki CH, Melo PH, Saraiva A, Norbiato T, Lima L, Ryffel B, Vogl T, Roth J, Waisman A, Nakaya HI, da Silva Souza C, Cunha FQ, Cunha TM, Becher B, and Alves-Filho JC
- Subjects
- Humans, Animals, Mice, Skin pathology, Keratinocytes metabolism, Inflammation pathology, Calgranulin B genetics, Interleukin-23 genetics, Interleukin-23 metabolism, Disease Models, Animal, Psoriasis
- Abstract
Psoriasis is a chronic inflammatory skin disorder driven by the IL-23/type 3 immune response. However, molecular mechanisms sustaining the chronicity of inflammation and psoriatic lesions remain elusive. Combining systematic analyses of several transcriptomic datasets, we delineated gene signatures across human psoriatic skin, identifying S100A9 as one of the most up-regulated genes, which was confirmed in lesioned skin from patients with psoriasis and preclinical psoriasiform skin inflammation models. Genetic ablation or pharmacologic inhibition of S100A9 alleviated Aldara-induced skin inflammation. By single-cell mapping of human psoriatic skin and bone marrow chimeric mice experiments, we identified keratinocytes as the major source of S100A9. Mechanistically, S100A9 induced IL-23 production by dendritic cells, driving the IL-23/type 3 immunity in psoriasiform skin inflammation. In addition, the cutaneous IL-23/IL-17 axis induced epidermal S100A9 expression in human and experimental psoriasis. Thus, we showed an autoregulatory circuit between keratinocyte-derived S100A9 and IL-23/type 3 immunity during psoriasiform inflammation, identifying a crucial function of S100A9 in the chronification of psoriasis., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)
- Published
- 2023
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38. The metabolic function of pyruvate kinase M2 regulates reactive oxygen species production and microbial killing by neutrophils.
- Author
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Toller-Kawahisa JE, Hiroki CH, Silva CMS, Nascimento DC, Públio GA, Martins TV, Damasceno LEA, Veras FP, Viacava PR, Sukesada FY, Day EA, Zotta A, Ryan TAJ, Moreira da Silva R, Cunha TM, Lopes NP, Cunha FQ, O'Neill LAJ, and Alves-Filho JC
- Subjects
- Reactive Oxygen Species metabolism, Phosphorylation, Glycolysis, Pyruvate Kinase genetics, Pyruvate Kinase metabolism, Neutrophils metabolism
- Abstract
Neutrophils rely predominantly on glycolytic metabolism for their biological functions, including reactive oxygen species (ROS) production. Although pyruvate kinase M2 (PKM2) is a glycolytic enzyme known to be involved in metabolic reprogramming and gene transcription in many immune cell types, its role in neutrophils remains poorly understood. Here, we report that PKM2 regulates ROS production and microbial killing by neutrophils. Zymosan-activated neutrophils showed increased cytoplasmic expression of PKM2. Pharmacological inhibition or genetic deficiency of PKM2 in neutrophils reduced ROS production and Staphylococcus aureus killing in vitro. In addition, this also resulted in phosphoenolpyruvate (PEP) accumulation and decreased dihydroxyacetone phosphate (DHAP) production, which is required for de novo synthesis of diacylglycerol (DAG) from glycolysis. In vivo, PKM2 deficiency in myeloid cells impaired the control of infection with Staphylococcus aureus. Our results fill the gap in the current knowledge of the importance of lower glycolysis for ROS production in neutrophils, highlighting the role of PKM2 in regulating the DHAP and DAG synthesis to promote ROS production in neutrophils., (© 2023. The Author(s).)
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- 2023
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39. C5aR1 signaling triggers lung immunopathology in COVID-19 through neutrophil extracellular traps.
- Author
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Silva BM, Gomes GF, Veras FP, Cambier S, Silva GV, Quadros AU, Caetité DB, Nascimento DC, Silva CM, Silva JC, Damasceno S, Schneider AH, Beretta F, Batah SS, Castro IM, Paiva IM, Rodrigues T, Salina A, Martins R, Cebinelli GC, Bibo NL, Jorge DM, Nakaya HI, Zamboni DS, Leiria LO, Fabro AT, Alves-Filho JC, Arruda E, Louzada-Junior P, Oliveira RD, Cunha LD, Van Mol P, Vanderbeke L, Feys S, Wauters E, Brandolini L, Aramini A, Cunha FQ, Köhl J, Allegretti M, Lambrechts D, Wauters J, Proost P, and Cunha TM
- Subjects
- Humans, Animals, Mice, COVID-19 Drug Treatment, SARS-CoV-2 metabolism, Lung pathology, Complement C5a genetics, Complement C5a metabolism, COVID-19 genetics, COVID-19 pathology, Extracellular Traps metabolism
- Abstract
Patients with severe COVID-19 develop acute respiratory distress syndrome (ARDS) that may progress to cytokine storm syndrome, organ dysfunction, and death. Considering that complement component 5a (C5a), through its cellular receptor C5aR1, has potent proinflammatory actions and plays immunopathological roles in inflammatory diseases, we investigated whether the C5a/C5aR1 pathway could be involved in COVID-19 pathophysiology. C5a/C5aR1 signaling increased locally in the lung, especially in neutrophils of critically ill patients with COVID-19 compared with patients with influenza infection, as well as in the lung tissue of K18-hACE2 Tg mice (Tg mice) infected with SARS-CoV-2. Genetic and pharmacological inhibition of C5aR1 signaling ameliorated lung immunopathology in Tg-infected mice. Mechanistically, we found that C5aR1 signaling drives neutrophil extracellular traps-dependent (NETs-dependent) immunopathology. These data confirm the immunopathological role of C5a/C5aR1 signaling in COVID-19 and indicate that antagonists of C5aR1 could be useful for COVID-19 treatment.
- Published
- 2023
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40. Neuron-associated macrophage proliferation in the sensory ganglia is associated with peripheral nerve injury-induced neuropathic pain involving CX3CR1 signaling.
- Author
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Guimarães RM, Aníbal-Silva CE, Davoli-Ferreira M, Gomes FIF, Mendes A, Cavallini MCM, Fonseca MM, Damasceno S, Andrade LP, Colonna M, Rivat C, Cunha FQ, Alves-Filho JC, and Cunha TM
- Subjects
- Mice, Animals, Ganglia, Spinal, Macrophages, Ganglia, Sensory, Sensory Receptor Cells, Cell Proliferation, Hyperalgesia, Peripheral Nerve Injuries complications, Neuralgia
- Abstract
Resident macrophages are distributed across all tissues and are highly heterogeneous due to adaptation to different tissue-specific environments. The resident macrophages of the sensory ganglia (sensory neuron-associated macrophages, sNAMs) are in close contact with the cell body of primary sensory neurons and might play physiological and pathophysiological roles. After peripheral nerve injury, there is an increase in the population of macrophages in the sensory ganglia, which have been implicated in different conditions, including neuropathic pain development. However, it is still under debate whether macrophage accumulation in the sensory ganglia after peripheral nerve injury is due to the local proliferation of resident macrophages or a result of blood monocyte infiltration. Here, we confirmed that the number of macrophages increased in the sensory ganglia after the spared nerve injury (SNI) model in mice. Using different approaches, we found that the increase in the number of macrophages in the sensory ganglia after SNI is a consequence of the proliferation of resident CX3CR1
+ macrophages, which participate in the development of neuropathic pain, but not due to infiltration of peripheral blood monocytes. These proliferating macrophages are the source of pro-inflammatory cytokines such as TNF and IL-1b. In addition, we found that CX3CR1 signaling is involved in the sNAMs proliferation and neuropathic pain development after peripheral nerve injury. In summary, these results indicated that peripheral nerve injury leads to sNAMs proliferation in the sensory ganglia in a CX3CR1-dependent manner accounting for neuropathic pain development. In conclusion, sNAMs proliferation could be modulated to change pathophysiological conditions such as chronic neuropathic pain., Competing Interests: RG, CA, MD, FG, AM, MC, MF, SD, LA, MC, CR, FC, JA, TC No competing interests declared, (© 2023, Guimarães, Aníbal-Silva et al.)- Published
- 2023
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41. Colchicine reduces the activation of NLRP3 inflammasome in COVID-19 patients.
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Amaral NB, Rodrigues TS, Giannini MC, Lopes MI, Bonjorno LP, Menezes PISO, Dib SM, Gigante SLG, Benatti MN, Rezek UC, Emrich-Filho LL, Sousa BA, Almeida SCL, Luppino-Assad R, Veras FP, Schneider AH, Leiria LOS, Cunha LD, Alves-Filho JC, Cunha TM, Arruda E, Miranda CH, Pazin-Filho A, Auxiliadora-Martins M, Borges MC, Fonseca BAL, Bollela VR, Del-Ben CM, Cunha FQ, Santana RC, Vilar FC, Zamboni DS, Louzada-Junior P, and Oliveira RDR
- Subjects
- Humans, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Interleukin-18, NLR Proteins, Colchicine therapeutic use, Interleukin-1beta metabolism, Inflammasomes metabolism, COVID-19
- Abstract
Objective: To evaluate whether colchicine treatment was associated with the inhibition of NLRP3 inflammasome activation in patients with COVID-19., Methods: We present a post hoc analysis from a double-blinded placebo-controlled randomized clinical trial (RCT) on the effect of colchicine for the treatment of COVID-19. Serum levels of NOD-like receptor protein 3 (NLRP3) inflammasome products-active caspase-1 (Casp1p20), IL-1β, and IL-18-were assessed at enrollment and after 48-72 h of treatment in patients receiving standard-of-care (SOC) plus placebo vs. those receiving SOC plus colchicine. The colchicine regimen was 0.5 mg tid for 5 days, followed by 0.5 mg bid for another 5 days., Results: Thirty-six patients received SOC plus colchicine, and thirty-six received SOC plus placebo. Colchicine reduced the need for supplemental oxygen and the length of hospitalization. On Days 2-3, colchicine lowered the serum levels of Casp1p20 and IL-18, but not IL-1β., Conclusion: Treatment with colchicine inhibited the activation of the NLRP3 inflammasome, an event triggering the 'cytokine storm' in COVID-19., Trial Registration Numbers: RBR-8jyhxh., (© 2023. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)
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- 2023
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42. Plasmin and plasminogen prevent sepsis severity by reducing neutrophil extracellular traps and systemic inflammation.
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Vago JP, Zaidan I, Perucci LO, Brito LF, Teixeira LC, Silva CMS, Miranda TC, Melo EM, Bruno AS, Queiroz-Junior CM, Sugimoto MA, Tavares LP, Grossi LC, Borges IN, Schneider AH, Baik N, Schneider AH, Talvani A, Ferreira RG, Alves-Filho JC, Nobre V, Teixeira MM, Parmer RJ, Miles LA, and Sousa LP
- Subjects
- Mice, Animals, Fibrinolysin, Plasminogen, Interleukin-6 metabolism, Inflammation metabolism, Fibrin metabolism, Extracellular Traps metabolism, Sepsis metabolism
- Abstract
Sepsis is a lethal syndrome characterized by systemic inflammation and abnormal coagulation. Despite therapeutic advances, sepsis mortality remains substantially high. Herein, we investigated the role of the plasminogen/plasmin (Plg/Pla) system during sepsis. Plasma levels of Plg were significantly lower in mice subjected to severe compared with nonsevere sepsis, whereas systemic levels of IL-6, a marker of sepsis severity, were higher in severe sepsis. Plg levels correlated negatively with IL-6 in both septic mice and patients, whereas plasminogen activator inhibitor-1 levels correlated positively with IL-6. Plg deficiency render mice susceptible to nonsevere sepsis induced by cecal ligation and puncture (CLP), resulting in greater numbers of neutrophils and M1 macrophages, liver fibrin(ogen) deposition, lower efferocytosis, and increased IL-6 and neutrophil extracellular trap (NET) release associated with organ damage. Conversely, inflammatory features, fibrin(ogen), and organ damage were substantially reduced, and efferocytosis was increased by exogenous Pla given during CLP- and LPS-induced endotoxemia. Plg or Pla protected mice from sepsis-induced lethality and enhanced the protective effect of antibiotics. Mechanistically, Plg/Pla-afforded protection was associated with regulation of NET release, requiring Pla-protease activity and lysine binding sites. Plg/Pla are important host-protective players during sepsis, controlling local and systemic inflammation and collateral organ damage.
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- 2023
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43. HBP/O-GlcNAcylation Metabolic Axis Regulates Bone Resorption Outcome.
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Taira TM, Ramos-Junior ES, Melo PH, Costa-Silva CC, Alteen MG, Vocadlo DJ, Dias WB, Cunha FQ, Alves-Filho JC, Søe K, and Fukada SY
- Subjects
- Mice, Humans, Animals, Hexosamines metabolism, Biosynthetic Pathways, Osteoclasts metabolism, Transcription Factors metabolism, Bone Resorption metabolism, Periapical Periodontitis
- Abstract
Osteoclasts play a key role in the regulation of bone mass and are highly active metabolically. Here we show that a metabolic reprogramming toward the hexosamine biosynthetic pathway (HBP) is required not only for osteoclast differentiation but also to determine the bone resorption mode during physiological and pathological bone remodeling. We found that pharmacological inhibition of O-GlcNAc transferase (OGT) significantly reduced protein O-GlcNAcylation and osteoclast differentiation. Accordingly, genetic deletion of OGT also inhibited osteoclast formation and downregulated critical markers related to osteoclasts differentiation and function (NFATc1, α
v integrin, cathepsin K). Indeed, cells treated with OSMI-1, an OGT inhibitor, also reduced nuclear translocation of NFATc1. Furthermore, the addition of exogenous N-acetylglucosamine (GlcNAc) strongly increased osteoclast formation and demineralization ability. Strikingly, our data show for the first time that O-GlcNAcylation facilitates an aggressive trench resorption mode in human cells. The incubation of osteoclasts with exogenous GlcNAc increases the percentage of erosion by trench while having no effect on pit resorption mode. Through time-lapse recording, we documented that osteoclasts making trenches moving across the bone surface are sensitive to GlcNAcylation. Finally, osteoclast-specific Ogt -deficient mice show increased bone density and reduced inflammation-induced bone loss during apical periodontitis model. We show that osteoclast-specific Og t-deficient mice are less susceptible to develop bacterial-induced periapical lesion. Consistent with this, Ogt -deleted mice showed a decreased number of tartrate-resistant acid phosphatase-positive cells lining the apical periodontitis site. In summary, here we describe a hitherto undiscovered role of the HBP/O-GlcNAcylation axis tuning resorption mode and dictating bone resorption outcome.- Published
- 2023
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44. Expression of B lymphocyte-induced maturation protein 1 (Blimp-1) in keratinocyte and cytokine signalling drives human Th17 response in psoriasis.
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da Costa LCO, Gardinassi LG, Veras FP, Milanezi C, Ramalho LNZ, Benevides L, Alves-Filho JC, da Silva JS, and da Silva Souza C
- Subjects
- Humans, Positive Regulatory Domain I-Binding Factor 1 genetics, Keratinocytes, Skin, Th17 Cells pathology, Interleukin-6, Psoriasis genetics, Psoriasis pathology
- Abstract
Transcriptional factor B lymphocyte-induced maturation protein 1 (Blimp-1) is pivotally implicated in T helper 17 (Th17) cell differentiation. This study investigated expression of the Blimp-1 protein, positive regulatory domain 1 (PRDM1), and cytokine genes in psoriasis (PsO). Affected (AS-PsO) and non-affected skin (nAS-PsO) samples were used to assess gene and protein expressions by reverse transcription-quantitative PCR (RT-qPCR), and immunostaining and confocal microscopy, respectively; the normalised public transcriptomic data permitted differential gene expression analyses. On RT-qPCR, PRDM1 and IL17A transcripts showed higher expression in AS-PsO than in nAS-PsO (n = 34) (p < 0.001; p < 0.0001, respectively). Confocal microscopy showed Blimp-1 protein expression in epidermal layer keratinocytes in AS-PsO, but not in nAS-PsO. Bioinformatic analysis of the transcriptomic dataset GSE13355 corroborated the increased PRDM1, signal transducer and activator of transcription 3 (STAT3), IL12B, TNF, IL17A, IL6, IL1B, IL22, and IL10 gene expression in AS-PsO, when compared to normal skin and nAS-PsO (p < 0.001). PRDM1 expression correlated positively (p < 0.0001) with that of IL17A (r = 0.7), IL1B (r = 0.67), IL12B (r = 0.6), IL6 (r = 0.59), IL22 (r = 0.53), IL23A (r = 0.47), IL21 (r = 0.47), IL27 (r = 0.34), IL23R (r = 0.32), S100 calcium binding protein A9 (r = 0.63), and lipocalin 2 (r = 0.50), and negatively with that of TGFB1 (r = - 0.28) and RORC (r = - 0.60). Blimp-1 may be critical in the pathogenesis of PsO dysregulation involving the Th17 inflammatory pathway. This knowledge may accelerate the development of new treatments., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)
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- 2023
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45. Targeting neutrophils extracellular traps (NETs) reduces multiple organ injury in a COVID-19 mouse model.
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Veras FP, Gomes GF, Silva BMS, Caetité DB, Almeida CJLR, Silva CMS, Schneider AH, Corneo ES, Bonilha CS, Batah SS, Martins R, Arruda E, Fabro AT, Alves-Filho JC, Cunha TM, and Cunha FQ
- Subjects
- Animals, Humans, Mice, SARS-CoV-2, COVID-19 Drug Treatment, Disease Models, Animal, Neutrophils, Deoxyribonuclease I pharmacology, Deoxyribonuclease I therapeutic use, COVID-19, Extracellular Traps, Acute Lung Injury
- Abstract
Background: COVID-19 is characterized by severe acute lung injury, which is associated with neutrophil infiltration and the release of neutrophil extracellular traps (NETs). COVID-19 treatment options are scarce. Previous work has shown an increase in NETs release in the lung and plasma of COVID-19 patients suggesting that drugs that prevent NETs formation or release could be potential therapeutic approaches for COVID-19 treatment., Methods: Here, we report the efficacy of NET-degrading DNase I treatment in a murine model of COVID-19. SARS-CoV-2-infected K18-hACE2 mice were performed for clinical sickness scores and lung pathology. Moreover, the levels of NETs were assessed and lung injuries were by histopathology and TUNEL assay. Finally, the injury in the heart and kidney was assessed by histopathology and biochemical-specific markers., Results: DNase I decreased detectable levels of NETs, improved clinical disease, and reduced lung, heart, and kidney injuries in SARS-CoV-2-infected K18-hACE2 mice. Furthermore, our findings indicate a potentially deleterious role for NETs lung tissue in vivo and lung epithelial (A549) cells in vitro, which might explain part of the pathophysiology of severe COVID-19. This deleterious effect was diminished by the treatment with DNase I., Conclusions: Together, our results support the role of NETs in COVID-19 immunopathology and highlight NETs disruption pharmacological approaches as a potential strategy to ameliorate COVID-19 clinical outcomes., (© 2023. The Author(s).)
- Published
- 2023
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46. Gut microbiota in pregnancy, please don't change me now.
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Nascimento DC and Alves-Filho JC
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- Pregnancy, Humans, Female, Dysbiosis, Gastrointestinal Microbiome physiology, Sepsis
- Abstract
Pregnancy predisposes women to develop severe sepsis. However, the mechanisms regulating this remain unclear. In this issue of Immunity, Chen et al. describe the critical role of gut dysbiosis during pregnancy in driving excessive macrophage pyroptosis, increasing susceptibility to sepsis., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)
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- 2023
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47. Tissue-specific metabolic profile drives iNKT cell function during obesity and liver injury.
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Aguiar CF, Corrêa-da-Silva F, Gonzatti MB, Angelim MK, Pretti MA, Davanzo GG, Castelucci BG, Monteiro LB, Castro G, Virgilio-da-Silva JV, Ribeiro G, Jaccomo V, Pereira Andrade MC, Costa WL, Gambarini V, Terra FF, Alves-Filho JC, Saraiva Câmara NO, Boroni M, Keller AC, and Moraes-Vieira PM
- Subjects
- Inflammation, Liver, Metabolome, Obesity, Animals, Mice, AMP-Activated Protein Kinases, Natural Killer T-Cells
- Abstract
Invariant natural killer T (iNKT) cells are a distinct population of lymphocytes characterized by their reactivity to glycolipids presented by CD1d. iNKT cells are found throughout the body, and little is known about their tissue-specific metabolic regulation. Here, we show that splenic and hepatic iNKT cells are metabolically comparable and rely on glycolytic metabolism to support their activation. Deletion of the pyruvate kinase M2 (Pkm2) gene in splenic and hepatic iNKT cells impairs their response to specific stimulation and their ability to mitigate acute liver injury. In contrast, adipose tissue (AT) iNKT cells exhibit a distinctive immunometabolic profile, with AMP-activated protein kinase (AMPK) being necessary for their function. AMPK deficiency impairs AT-iNKT physiology, blocking their capacity to maintain AT homeostasis and their ability to regulate AT inflammation during obesity. Our work deepens our understanding on the tissue-specific immunometabolic regulation of iNKT cells, which directly impacts the course of liver injury and obesity-induced inflammation., Competing Interests: Declaration of interests The authors declare that they have no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)
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- 2023
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48. Pyruvate kinase M2 mediates IL-17 signaling in keratinocytes driving psoriatic skin inflammation.
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Veras FP, Publio GA, Melo BM, Prado DS, Norbiato T, Cecilio NT, Hiroki C, Damasceno LEA, Jung R, Toller-Kawahisa JE, Martins TV, Assunção SF, Lima D, Alves MG, Vieira GV, Tavares LA, Alves-Rezende ALR, Karbach SH, Nakaya HI, Cunha TM, Souza CS, Cunha FQ, Sales KU, Waisman A, and Alves-Filho JC
- Subjects
- Mice, Animals, Interleukin-17 metabolism, Pyruvate Kinase metabolism, Keratinocytes metabolism, Inflammation metabolism, Skin metabolism, Dermatitis, Psoriasis chemically induced
- Abstract
Psoriasis is an inflammatory skin disease characterized by keratinocyte proliferation and inflammatory cell infiltration induced by IL-17. However, the molecular mechanism through which IL-17 signaling in keratinocytes triggers skin inflammation remains not fully understood. Pyruvate kinase M2 (PKM2), a glycolytic enzyme, has been shown to have non-metabolic functions. Here, we report that PKM2 mediates IL-17A signaling in keratinocytes triggering skin psoriatic inflammation. We find high expression of PKM2 in the epidermis of psoriatic patients and mice undergoing psoriasis models. Specific depletion of PKM2 in keratinocytes attenuates the development of experimental psoriasis by reducing the production of pro-inflammatory mediators. Mechanistically, PKM2 forms a complex with Act1 and TRAF6 regulating NF-κB transcriptional signaling downstream of the IL-17 receptor. As IL-17 also induces PKM2 expression in keratinocytes, our findings reveal a sustained signaling circuit critical for the psoriasis-driving effects of IL-17A, suggesting that PKM2 is a potential therapeutic target for psoriasis., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)
- Published
- 2022
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49. Meningeal dendritic cells drive neuropathic pain through elevation of the kynurenine metabolic pathway in mice.
- Author
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Maganin AG, Souza GR, Fonseca MD, Lopes AH, Guimarães RM, Dagostin A, Cecilio NT, Mendes AS, Gonçalves WA, Silva CE, Fernandes Gomes FI, Mauriz Marques LM, Silva RL, Arruda LM, Santana DA, Lemos H, Huang L, Davoli-Ferreira M, Santana-Coelho D, Sant'Anna MB, Kusuda R, Talbot J, Pacholczyk G, Buqui GA, Lopes NP, Alves-Filho JC, Leão RM, O'Connor JC, Cunha FQ, Mellor A, and Cunha TM
- Subjects
- Animals, Mice, Quinolinic Acid metabolism, Metabolic Networks and Pathways, Dendritic Cells metabolism, Indoleamine-Pyrrole 2,3,-Dioxygenase metabolism, Kynurenine metabolism, Neuralgia
- Abstract
Neuropathic pain is one of the most important clinical consequences of injury to the somatosensory system. Nevertheless, the critical pathophysiological mechanisms involved in neuropathic pain development are poorly understood. In this study, we found that neuropathic pain is abrogated when the kynurenine metabolic pathway (KYNPATH) initiated by the enzyme indoleamine 2,3-dioxygenase 1 (IDO1) is ablated pharmacologically or genetically. Mechanistically, it was found that IDO1-expressing dendritic cells (DCs) accumulated in the dorsal root leptomeninges and led to an increase in kynurenine levels in the spinal cord. In the spinal cord, kynurenine was metabolized by kynurenine-3-monooxygenase-expressing astrocytes into the pronociceptive metabolite 3-hydroxykynurenine. Ultimately, 3-hydroxyanthranilate 3,4-dioxygenase-derived quinolinic acid formed in the final step of the canonical KYNPATH was also involved in neuropathic pain development through the activation of the glutamatergic N-methyl-D-aspartate receptor. In conclusion, these data revealed a role for DCs driving neuropathic pain development through elevation of the KYNPATH. This paradigm offers potential new targets for drug development against this type of chronic pain.
- Published
- 2022
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50. PD-1/PD-L1 Inhibition Enhances Chemotherapy-Induced Neuropathic Pain by Suppressing Neuroimmune Antinociceptive Signaling.
- Author
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Wanderley CWS, Maganin AGM, Adjafre B, Mendes AS, Silva CEA, Quadros AU, Luiz JPM, Silva CMS, Silva NR, Oliveira FFB, Gomes FIF, Restrepo JLJ, Speck-Hernandez CA, Turaça F, Silva GVL, Pigatto GR, Nakaya HI, Mota JM, Barroso-Sousa R, Alves-Filho JC, Cunha TM, and Cunha FQ
- Subjects
- Rats, Humans, Mice, Animals, Programmed Cell Death 1 Receptor, Rats, Sprague-Dawley, Paclitaxel, Analgesics adverse effects, Antineoplastic Agents, Phytogenic adverse effects, Neuralgia chemically induced, Neuralgia metabolism
- Abstract
Cytotoxic agents synergize with immune checkpoint inhibitors and improve outcomes for patients with several cancer types. Nonetheless, a parallel increase in the incidence of dose-limiting side effects, such as peripheral neuropathy, is often observed. Here, we investigated the role of the programmed cell death-1 (PD-1)/programmed death-ligand 1 (PD-L1) axis in the modulation of paclitaxel-induced neuropathic pain. We found that human and mouse neural tissues, including the dorsal root ganglion (DRG), expressed basal levels of PD-1 and PD-L1. During the development of paclitaxel-induced neuropathy, an increase in PD-L1 expression was observed in macrophages from the DRG. This effect depended on Toll-like receptor 4 activation by paclitaxel. Furthermore, PD-L1 inhibited pain behavior triggered by paclitaxel or formalin in mice, suggesting that PD-1/PD-L1 signaling attenuates peripheral neuropathy development. Consistent with this, we observed that the combined use of anti-PD-L1 plus paclitaxel increased mechanical allodynia and chronic neuropathy development induced by single agents. This effect was associated with higher expression of inflammatory markers (Tnf, Il6, and Cx3cr1) in peripheral nervous tissue. Together, these results suggest that PD-1/PD-L1 inhibitors enhance paclitaxel-induced neuropathic pain by suppressing PD-1/PD-L1 antinociceptive signaling., (©2022 American Association for Cancer Research.)
- Published
- 2022
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- View/download PDF
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