Involvement of peptidylarginine deiminase 4 in eosinophil extracellular trap formation and contribution to citrullinated histone signal in thrombi

Background: Extracellular traps formed by neutrophils (NETs) and eosinophils (EETs) have been described in coronary thrombi, contributing to thrombus stability. A key mechanism during NET formation is histone modification by the enzyme PAD4. Citrullinated histones, the product of PAD4 activity, are often attributed to neutrophils. Eosinophils also express high levels of PAD4. Objectives: We aimed to explore the contribution of PAD4 to EET formation. Methods: We performed immunohistological analyses on thrombi, including a large, intact, and eosinophil-containing thrombus retrieved from the right coronary artery using an aspiration catheter and stroke thrombi from thrombectomy retrieval. We studied eosinophils for their capability to form PAD4-dependent EETs in response to strong ET-inducing agonists as well as activated platelets and bacteria. Results: Histopathology and immunofluorescence microscopy identified a coronary thrombus rich in platelets and neutrophils, with distinct areas containing von Willebrand factor and citrullinated histone H3 (H3Cit). Eosinophils were also identified in leukocyte-rich areas. The majority of the H3Cit+ signal colocalized with myeloperoxidase, but some colocalized with eosinophil peroxidase, indicating EETs. Eosinophils isolated from healthy volunteers produced H3Cit+ EETs, indicating an involvement of PAD4 activity. The selective PAD4 inhibitor GSK484 blocked this process, supporting PAD4 dependence of H3Cit+ EET release. Citrullinated histones were also present in EETs produced in response to live Staphylococci. However, limited evidence for EETs was found in mouse models of venous thrombosis or infective endocarditis. Conclusion: As in NETosis, PAD4 can catalyze the formation of EETs. Inhibition of PAD4 decreases EET formation, supporting the future utility of PAD4 inhibitors as possible antithrombotic agents

Platelet Serotonin Aggravates Myocardial Ischemia/Reperfusion Injury via Neutrophil Degranulation

Background: Platelets store large amounts of serotonin that they release during thrombus formation or acute inflammation. This facilitates hemostasis and modulates the inflammatory response. Methods: Infarct size, heart function, and inflammatory cell composition were analyzed in mouse models of myocardial reperfusion injury with genetic and pharmacological depletion of platelet serotonin. These studies were complemented by in vitro serotonin stimulation assays of platelets and leukocytes in mice and men, and by measuring plasma serotonin levels and leukocyte activation in patients with acute coronary syndrome. Results: Platelet-derived serotonin induced neutrophil degranulation with release of myeloperoxidase and hydrogen peroxide (H2O2) and increased expression of membrane-bound leukocyte adhesion molecule CD11b, leading to enhanced inflammation in the infarct area and reduced myocardial salvage. In patients hospitalized with acute coronary syndrome, plasmatic serotonin levels correlated with CD11b expression on neutrophils and myeloperoxidase plasma levels. Long-term serotonin reuptake inhibition - reported to protect patients with depression from cardiovascular events - resulted in the depletion of platelet serotonin stores in mice. These mice displayed a reduction in neutrophil degranulation and preserved cardiac function. In line, patients with depression using serotonin reuptake inhibition, presented with suppressed levels of CD11b surface expression on neutrophils and lower myeloperoxidase levels in blood. Conclusions: Taken together, we identify serotonin as a potent therapeutic target in neutrophil-dependent thromboinflammation during myocardial reperfusion injury.Fil: Mauler, Maximilian. No especifíca;Fil: Herr, Nadine. No especifíca;Fil: Schoenichen, Claudia. No especifíca;Fil: Witsch, Thilo. No especifíca;Fil: Marchini, Timoteo Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Houssay. Instituto de Bioquímica y Medicina Molecular. Universidad de Buenos Aires. Facultad Medicina. Instituto de Bioquímica y Medicina Molecular; ArgentinaFil: Härdtner, Carmen. No especifíca;Fil: Koentges, Christoph. No especifíca;Fil: Kienle, Korbinian. Max Planck Institute Of Immunobiology And Epigenetics; AlemaniaFil: Ollivier, Véronique. Inserm; FranciaFil: Schell, Maximilian. No especifíca;Fil: Dorner, Ludwig. No especifíca;Fil: Wippel, Christopher. No especifíca;Fil: Stallmann, Daniela. No especifíca;Fil: Normann, Claus. No especifíca;Fil: Bugger, Heiko. No especifíca;Fil: Walther, Paul. Universitat Ulm; AlemaniaFil: Wolf, Dennis. La Jolla Institute for Allergy and Immunology; Estados UnidosFil: Ahrens, Ingo. No especifíca;Fil: Lämmermann, Tim. Max Planck Institute Of Immunobiology And Epigenetics; AlemaniaFil: Ho-Tin-Noé, Benoît. Inserm; FranciaFil: Ley, Klaus. La Jolla Institute for Allergy and Immunology; Estados UnidosFil: Bode, Christoph. No especifíca;Fil: Hilgendorf, Ingo. No especifíca;Fil: Duerschmied, Daniel. No especifíca

Extrazellulärer Matrix-Metabolismus bei Bronchopulmonaler Dysplasie mit Fokus auf Lysyl Hydroxylasen und Transglutaminasen

Bronchopulmonary dysplasia is a complication of premature birth characterized byimpaired alveolar development. Remodeling of the ECM is a driving force foralveolarization and, if pertubated, may impair septation, suggesting dysregulation ofECM remodeling enzymes that drive collagen fiber formation and maturation: theprocollagen-lysine, 2-oxoglutarate 5-dioxygenases (Plod) family, also known as lysylhydroxylases (which catalyzes glycosylation and hydroxylation of collagen), and thetransglutaminases Tgm1 and Tgm2, which cross-link ECM components.Expressions of Plod1, Plod2, Plod3, Tgm1 and Tgm2 were determined using apopular mouse model of BPD, in which mouse pups are exposed to hyperoxia (85%O2) or normoxia (21% O2) for 28 days after birth. The lungs of these mice wereharvested at various time-points and assessed for Plod and Tgm expression andlocalization by semi-quantitative RT-PCR, immunoblotting and immunohistochemistry.Increased expressions of Plods and Tgms could be observed at the geneand protein levels under hyperoxic conditions compared to normoxic conditions.The data suggest that BPD is characterized by elevated levels of ECM-stabilizingmolecules, which may make the ECM more resistant to remodeling. This overstabilizedstate of the ECM may, at least in part, underlie the arrested septationobserved both in the lungs of infants with BPD, and in animal models of BPD.Bronchopulmonale Dysplasie ist eine Komplikation bei Frühgeborenen, welche durcheine fehlgesteuerte Entwicklung der Lungenalveolen charakterisiert ist. Der Umbau der ECM ist die treibende Kraft für die Bildung der Alveolen und kann, falls er behindert wird, zu einer Beeinträchtigung der alveolären Septierung führen. Dies lässt auf eine Fehlregulation der für den Umbau der ECM verantwortlichen Enzyme bei der Entstehung der BPD schließen: Die Prokollagen-Lysin, 2-Oxoglutarat 5-Dioxygenase (Plod) Familie, auch bekannt als Lysyl Hydroxylasen (welche die Glykosylierung und Hydroxylierung von Kollagenmolekülen katalysieren) und die Transglutaminasen Tgm1 und Tgm2, welche die ECM Komponenten quervernetzen.Um die Expression von Plod1, Plod2, Plod3, Tgm1 und Tgm2 zu untersuchen, wurdeein gängiges Maus-Modell der BPD benutzt, bei dem neugeborene Mäuse in denersten 28 postnatalen Tagen entweder hohen Sauerstoff-Konzentrationen (85% O2)oder normalen Sauerstoff-Konzentrationen (21% O2) ausgesetzt wurden. Die Lungendieser Mäuse wurden zu verschiedenen Zeitpunkten entnommen und mittelssemiquantitativer RT-PCR, Western-Blot und Immunhistochemie hinsichtlich derPlod- und Tgm-Expression und -Lokalisation untersucht.Unter dem Einfluss von hohen Sauerstoffkonzentrationen konnte eine Steigerung derPlod- und Tgm-Expression sowohl auf Gen- als auch auf Proteinebene beobachtetwerden, verglichen mit der Expression in der Kontrolle unter normalenSauerstoffkonzentrationen.Diese Daten deuten darauf hin, dass BPD durch eine gesteigerte Synthese vonECM-stabilisierenden Enzymen gekennzeichnet ist, was möglicherweise zu einerBehinderung des notwendigen Umbaus der ECM führt. Dieser über-stabilisierte Zustand könnte, zumindest teilweise, der frühzeitigen Terminierung der alveolärenSeptierung zu Grunde liegen, welche sowohl in den Lungen der an BPDverstorbenen Kinder, als auch in BPD Tiermodellen beobachtet wurde

Recombinant Human ADAMTS13 Treatment Improves Myocardial Remodeling and Functionality After Pressure Overload Injury in Mice

A disintegrin-like metalloproteinase with thrombospondin motif type 1 member 13 (ADAMTS13), the von Willebrand factor-cleaving enzyme, decreases leukocyte and platelet recruitment and, thus, reduces thrombosis and inflammation. Recombinant human ADAMTS13 (rhADAMTS13) is a novel drug candidate for ischemia/reperfusion injury and has shown short-term benefits in mouse models of myocardial injury, but long-term outcome has not been investigated.status: publishe

Recombinant Human ADAMTS13 Treatment Improves Myocardial Remodeling and Functionality After Pressure Overload Injury in Mice

Background: A disintegrin‐like metalloproteinase with thrombospondin motif type 1 member 13 (ADAMTS13), the von Willebrand factor–cleaving enzyme, decreases leukocyte and platelet recruitment and, thus, reduces thrombosis and inflammation. Recombinant human ADAMTS13 (rhADAMTS13) is a novel drug candidate for ischemia/reperfusion injury and has shown short‐term benefits in mouse models of myocardial injury, but long‐term outcome has not been investigated. Methods and Results: We evaluated the impact of rhADAMTS13 on cardiac remodeling, scarring, and contractile function, under chronic left ventricular pressure overload. The role of von Willebrand factor and the effect of rhADAMTS13 treatment were studied. This model of heart failure, based on ascending aortic constriction, produces a coronary inflammatory response and microvascular dysfunction, resulting in fibrotic remodeling and cardiac failure. Mice were treated with either rhADAMTS13 or vehicle and assessed for coronary vascular inflammation and ventricular function at several postsurgical time points, as well as for cardiac fibrosis after 4 weeks. Early upon induction of pressure overload under rhADAMTS13 treatment, we detected less endothelial‐lumen–associated von Willebrand factor, fewer platelet aggregates, and decreased activated transforming growth factor‐β1 levels than in vehicle‐treated mice. We observed significant preservation of cardiac function and decrease in fibrotic remodeling as a result of rhADAMTS13 administration. Conclusions: Herein, we show that rhADAMTS13 decreases coronary vascular dysfunction and improves cardiac remodeling after left ventricular pressure overload in mice. We propose that this effect may, at least in part, be the result of decreased von Willebrand factor–mediated recruitment of platelets, a major source of the activated profibrotic cytokine transforming growth factor‐β1. Our study further supports the therapeutic potential of rhADAMTS13 for conditions characterized by inflammatory cardiac damage that results in fibrosis

Acute fluoxetine treatment induces slow rolling of leukocytes on endothelium in mice.

Activated platelets release serotonin at sites of inflammation where it acts as inflammatory mediator and enhances recruitment of neutrophils. Chronic treatment with selective serotonin reuptake inhibitors (SSRI) depletes the serotonin storage pool in platelets, leading to reduced leukocyte recruitment in murine experiments. Here, we examined the direct and acute effects of SSRI on leukocyte recruitment in murine peritonitis.C57Bl/6 and Tph1-/- (Tryptophan hydroxylase1) mice underwent acute treatment with the SSRI fluoxetine or vehicle. Serotonin concentrations were measured by ELISA. Leukocyte rolling and adhesion on endothelium was analyzed by intravital microscopy in mesentery venules with and without lipopolysaccharide challenge. Leukocyte extravasation in sterile peritonitis was measured by flow cytometry of abdominal lavage fluid.Plasma serotonin levels were elevated 2 hours after fluoxetine treatment (0.70 ± 0.1 µg/ml versus 0.27 ± 0.1, p = 0.03, n = 14), while serum serotonin did not change. Without further stimulation, acute fluoxetine treatment increased the number of rolling leukocytes (63 ± 8 versus 165 ± 17/0.04 mm(2) min(-1)) and decreased their velocity (61 ± 6 versus 28 ± 1 µm/s, both p<0.0001, n = 10). In Tph1-/- mice leukocyte rolling was not significantly influenced by acute fluoxetine treatment. Stimulation with lipopolysaccharide decreased rolling velocity and induced leukocyte adhesion, which was enhanced after fluoxetine pretreatment (27 ± 3 versus 36 ± 2/0.04 mm(2), p = 0.008, n = 10). Leukocyte extravasation in sterile peritonitis, however, was not affected by acute fluoxetine treatment.Acute fluoxetine treatment increased plasma serotonin concentrations and promoted leukocyte-endothelial interactions in-vivo, suggesting that serotonin is a promoter of acute inflammation. E-selectin was upregulated on endothelial cells in the presence of serotonin, possibly explaining the observed increase in leukocyte-endothelial interactions. However transmigration of neutrophils in sterile peritonitis was not affected by higher serotonin concentrations, indicating that the effect of fluoxetine was restricted to early steps in the leukocyte recruitment. Whether SSRI use in humans alters leukocyte recruitment remains to be investigated

Sirt3 deficiency does not affect venous thrombosis or NETosis despite mild elevation of intracellular ROS in platelets and neutrophils in mice

Inflammation is a common denominator in chronic diseases of aging. Yet, how inflammation fuels these diseases remains unknown. Neutrophils are the primary leukocytes involved in the early phase of innate immunity and inflammation. As part of their anti-microbial defense, neutrophils form extracellular traps (NETs) by releasing decondensed chromatin lined with cytotoxic proteins. NETs have been shown to induce tissue injury and thrombosis. Here, we demonstrated that Sirt3, a nicotinamide adenine dinucleotide (NAD+)-dependent protein deacetylase, an enzyme linked to human longevity, was expressed in mouse neutrophils and platelets. Using Sirt3-/- mice as a model of accelerated aging, we investigated the effects of Sirt3 deficiency on NETosis and platelet function, aiming to detect enhancement of thrombosis. More mitochondrial reactive oxygen species (ROS) were generated in neutrophils and platelets of Sirt3-/- mice compared to WT, when stimulated with a low concentration of phorbol 12-myristate 13-acetate (PMA) and a high concentration of thrombin, respectively. There were no differences in in vitro NETosis, with or without stimulation. Platelet aggregation was mildly augmented in Sirt3-/- mice compared to WT mice, when stimulated with a low concentration of collagen. The effect of Sirt3 deficiency on platelet and neutrophil activation in vivo was examined by the venous thrombosis model of inferior vena cava stenosis. Elevation of plasma DNA concentration was observed after stenosis in both genotypes, but no difference was shown between the two genotypes. The systemic response to thrombosis was enhanced in Sirt3-/- mice with significantly elevated neutrophil count and reduced platelet count. However, no differences were observed in incidence of thrombus formation, thrombus weight and thrombin-antithrombin complex generation between WT and Sirt3-/- mice. We conclude that Sirt3 does not considerably impact NET formation, platelet function, or venous thrombosis in healthy young mice