Eugenia Hovsepian scite author profile

Trypanosoma cruzi (T. cruzi) infection produces an intense inflammatory response which is critical for the control of the evolution of Chagas’ disease. Interleukin (IL)-10 is one of the most important anti-inflammatory cytokines identified as modulator of the inflammatory reaction. This work shows that exogenous addition of IL-10 inhibited ERK1/2 and NF-κB activation and reduced inducible nitric oxide synthase (NOS2), metalloprotease (MMP) -9 and MMP-2 expression and activities, as well as tumour necrosis factor (TNF)-α and interleukin (IL)-6 expression, in T. cruzi-infected cardiomyocytes. We found that T. cruzi and IL-10 promote STAT3 phosphorylation and up-regulate the expression of suppressor of cytokine signalling (SOCS)-3 thereby preventing NF-κB nuclear translocation and ERK1/2 phosphorylation. Specific knockdown of SOCS-3 by small interfering RNA (siRNA) impeded the IL-10-mediated inhibition of NF-κB and ERK1/2 activation. As a result, the levels of studied pro-inflammatory mediators were restored in infected cardiomyocytes. Our study reports the first evidence that T. cruzi up- regulates SOCS-3 expression and highlights the relevance of IL-10 in the modulation of pro-inflammatory response of cardiomyocytes in Chagas’ disease.

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Modulation of inflammatory response and parasitism by 15-Deoxy-Δ12,14 prostaglandin J2 in Trypanosoma cruzi-infected cardiomyocytes

Hovsepian

Mirkin

Penas

et al. 2011

International Journal for Parasitology

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PPARγ ligand treatment inhibits cardiac inflammatory mediators induced by infection with different lethality strains of Trypanosoma cruzi

Penas

Mirkin

Hovsepian

et al. 2013

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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Trypanosoma cruzi (T. cruzi), the etiological agent of Chagas' disease, causes cardiac alterations in the host. Although the main clinical manifestations arise during the chronic stage, the mechanisms leading to heart damage develop early during infection. In fact, an intense inflammatory response is observed from acute stage of infection. Recently, peroxisome proliferator-activated receptors (PPARs) have attracted research interest due to their participation in the modulation of inflammation. In this work we addressed the role of 15-Deoxy-∆(12,14) ProstaglandinJ2 (15dPGJ2), a PPARγ natural ligand in the regulation of inflammatory mediators, in acute and chronic experimental mouse models of Chagas' disease with the RA and K98 T. cruzi strains, respectively. This work demonstrates that 15dPGJ2 treatment inhibits the expression and activity of inducible nitric oxide synthase (NOS2) as well as TNF-α and IL-6 mRNA levels. Also, expression and activity of metalloproteinases 2 (MMP-2) and 9 (MMP9) were inhibited by 15dPGJ2. Moreover GW9662, a specific PPARγ antagonist, revealed the participation of other signaling pathways since, in GW9662 presence, 15dPJG2 had a partial effect on the inhibition of inflammatory parameters in the acute model of infection. Accordingly, NF-κB activation was demonstrated, assessing p65 nuclear translocation in the hearts of infected mice with both T. cruzi strains. Such effect was inhibited after 15dPGJ2 treatment. Our findings support the concept that in vivo PPARγ and NF-κB pathways are implicated in the inhibitory effects of 15dPGJ2 on inflammatory mediators at different times depending on whether the infection is caused by the lethal or non-lethal T. cruzi strain.

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15-Deoxy-Δ12,14 PROSTAGLANDIN GJ2 BUT NOT ROSIGLITAZONE REGULATES METALLOPROTEINASE 9, NOS-2, AND CYCLOOXYGENASE 2 EXPRESSION AND FUNCTIONS BY PEROXISOME PROLIFERATORYACTIVATED RECEPTOR Γ-Dependent AND -INDEPENDENT MECHANISMS IN CARDIAC CELLS

Hovsepian

Penas

Goren

2010

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Sepsis or endotoxemia produced by LPS followed by hypotension and multiorganic failure may lead to cardiac dysfunction contributing to mortality. Cardiac failure is usually associated to activation of nuclear factor kappaB (NF-kappaB) and mitogen-activated protein kinase (MAPK), which play an important role in proinflammatory enzymes expression. It has been shown that 15-deoxy-Delta12,14 prostaglandin J2 (15dPGJ2) can repress the inflammatory response by means of peroxisome proliferator-activated receptor gamma (PPARgamma)-dependent and -independent mechanisms. However, its precise role in heart is poorly understood. In the present study, mouse neonatal cardiomyocytes were isolated and stimulated with LPS to investigate the role of PPARgamma-specific ligands 15dPGJ2 and rosiglitazone on cardiac inflammatory response. Inducible NO synthase, cyclooxygenase 2, and metalloproteinase 9 mRNA levels, protein expression, and activity were inhibited with 15dPGJ2 but not by rosiglitazone. Peroxisome proliferator-activated receptor gamma antagonist, GW9662, prevented all these 15dPGJ2 actions. To go inside the mechanisms by which 15dPGJ2 exerts inhibitory effects, cells were preincubated with specific chemical inhibitors of NF-kappaB and p38 MAPK, and we found that these signaling cascades are implicated in 15dPGJ2 action as well as PPARgamma. These results suggest that only the natural PPARgamma ligand, 15dPGJ2, but not the synthetic one, rosiglitazone, regulates the inflammatory response by inhibition of inducible NO synthase, cyclooxygenase 2, and metalloproteinase 9 expression. Moreover, our results offer an additional 15dPGJ2 mechanism of action, despite PPARgamma, showing NF-kappaB and p38 MAPK participation.

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Role of PPARs inTrypanosoma cruziInfection: Implications for Chagas Disease Therapy

et al. 2012

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Chagas disease, which is caused by Trypanosoma cruzi (T. cruzi), remains a substantial public health concern and an important cause of morbidity and mortality in Latin America. T. cruzi infection causes an intense inflammatory response in diverse tissues by triggering local expression of inflammatory mediators, which results in the upregulation of the levels of cytokines and chemokines, and important cardiac alterations in the host, being one of the most characteristic damages of Chagas disease. Therefore, controlling the inflammatory reaction becomes critical for the control of the proliferation of the parasite and of the evolution of Chagas disease. The nuclear receptors known as peroxisome proliferator-activated receptors (PPARs) have emerged as key regulators of lipid metabolism and inflammation. The precise role of PPAR ligands in T. cruzi infection or in Chagas disease is poorly understood. This review summarizes our knowledge about T. cruzi infection as well as about the activation of PPARs and the potential role of their ligands in the resolution of inflammation, with the aim to address a new pharmacological approach to improve the host health.

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Salmonella enterica serovar Enteritidis dam mutant induces low NOS-2 and COX-2 expression in macrophages via attenuation of MAPK and NF-κB pathways

Cerquetti

Hovsepian

Sarnacki

et al. 2008

Microbes and Infection

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Macrophages derived from septic mice modulate nitric oxide synthase and angiogenic mediators in the heart

Torre

Hovsepian

Penas

et al. 2013

Journal Cellular Physiology

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Macrophages (Mps) can exert the defense against invading pathogens. During sepsis, bacterial lipopolisaccharide (LPS) activates the production of inflammatory mediators by Mps. Nitric oxide synthase (NOS) derived-nitric oxide (NO) is one of them. Besides, Mps may produce pro-angiogenic molecules such as vascular endothelial growth factor-A (VEGF-A) and metalloproteinases (MMPs). The mechanisms involved in the cardiac neovascular response by Mps during sepsis are not completely known. We investigated the ability of LPS-treated Mps from septic mice to modulate the behavior of cardiac cells as producers of NO and angiogenic molecules. In vivo LPS treatment (0.1 mg/mouse) increased NO production more than fourfold and induced de novo NOS2 expression in Mps. Immunoblotting assays also showed an induction in VEGF-A and MMP-9 expression in lysates obtained from LPS-treated Mps, and MMP-9 activity was detected by zymography in cell supernatants. LPS-activated Mps co-cultured with normal heart induced the expression of CD31 and VEGF-A in heart homogenates and increased MMP-9 activity in the supernatants. By immunohistochemistry, we detected new blood vessel formation in hearts cultured with LPS treated Mps. When LPS-stimulated Mps were co-cultured with isolated cardiomyocytes in a transwell assay, the expression of NOS2, VEGF-A and MMP-9 was induced in cardiac cells. In addition, MMP-9 activity was up-regulated in the supernatant of cardiomyocytes. The latter was due to NOS2 induction in Mps from in vivo LPS-treated mice. In conclusion LPS-treated Mps are inducers of inflammatory/angiogenic mediators in cardiac cells, which could be triggering neovascularization, as an attempt to improve cardiac performance in sepsis.

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