Alex Todorov scite author profile

We have previously reported that exogenous bradykinin activates immature dendritic cells (DCs) via the bradykinin B(2) receptor (B(2)R), thereby stimulating adaptive immunity. In this study, we show that these premises are met in a model of s.c. infection by Trypanosoma cruzi, a protozoan that liberates kinins from kininogens through its major protease, cruzipain. Intensity of B(2)R-dependent paw edema evoked by trypomastigotes correlated with levels of IL-12 produced by CD11c(+) dendritic cells isolated from draining lymph nodes. The IL-12 response induced by endogenously released kinins was vigorously increased in infected mice pretreated with inhibitors of angiotensin converting enzyme (ACE), a kinin-degrading metallopeptidase. Furthermore, these innate stimulatory effects were linked to B(2)R-dependent up-regulation of IFN-gamma production by Ag-specific T cells. Strikingly, the trypomastigotes failed to up-regulate type 1 immunity in TLR2(-/-) mice, irrespective of ACE inhibitor treatment. Analysis of the dynamics of inflammation revealed that TLR2 triggering by glycosylphosphatidylinositol-anchored mucins induces plasma extravasation, thereby favoring peripheral accumulation of kininogens in sites of infection. Further downstream, the parasites generate high levels of innate kinin signals in peripheral tissues through the activity of cruzipain. The demonstration that the deficient type 1 immune responses of TLR2(-/-) mice are rescued upon s.c. injection of exogenous kininogens, along with trypomastigotes, supports the notion that generation of kinin "danger" signals is intensified through cooperative activation of TLR2 and B(2)R. In summary, we have described a s.c. infection model where type 1 immunity is vigorously up-regulated by bradykinin, an innate signal whose levels in peripheral tissues are controlled by an intricate interplay of TLR2, B(2)R, and ACE.

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Trypanosoma cruzi induces edematogenic responses in mice and invades cardiomyocytes and endothelial cells in vitro by activating distinct kinin receptor subtypes (B₁/B₂)

Todorov

et al. 2002

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Trypanosoma cruzi, the protozoan that causes Chagas' heart disease, invades endothelial cells in vitro by activating the B2 kinin receptor (B2R). Here, we demonstrate that mice infected with trypomastigotes develop potent edema after treatment with the angiotensin-converting enzyme (ACE) (or kininase II) inhibitor captopril. Experiments performed with specific kinin receptor (B2R/B1R) antagonists and knockout mice revealed that the early-phase (3-h) edema is mediated by the constitutive B2R, whereas the late-phase (24-h) response depends on stimulation of the up-regulated B1R. Given previous evidence that parasite invasion of cells expressing B2R is potentiated by captopril, we investigated the prerequisites for in vitro infection of Chinese hamster ovary cells overexpressing either B1R or B2R, human umbilical vein endothelial cells activated by lipopolysaccharide, and neonatal rat cardiomyocytes. Our results indicate that captopril potentiates parasite invasion regardless of the kinin (B2/B1) activation pathways, whereas DL-2-mercaptomethyl-3-guanidino-ethylthiopropanoic acid (MGTA), an inhibitor of kininase I (carboxypeptidase M/N), selectively decreases parasite infectivity for B1R-expressing cells. These data suggest that formation of the B1R agonist, i.e., [des-Arg] kinins, critically depends on the processing action of kininase I, here proposed as a potential pathogenesis cofactor. Collectively, our data suggest that fluctuations in the levels of kininases may modulate parasite infectivity and pathological outcome in Chagas' disease.

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Activation of Host Cell Phosphatidylinositol 3-Kinases byTrypanosoma cruzi Infection

Todorov¹,

Einicker‐Lamas²,

Castro³

et al. 2000

Journal of Biological Chemistry

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Trypanosoma cruzi, the causative agent of Chagas' disease in humans, is an intracellular protozoan parasite with the ability to invade a wide variety of mammalian cells by a unique and remarkable process in cell biology that is poorly understood. Here we present evidence suggesting a role for the host phosphatidylinositol (PI) 3-kinases during T. cruzi invasion. The PI 3-kinase inhibitor wortmannin marked inhibited T. cruzi infection when macrophages were pretreated for 20 min at 37°C before inoculation. Infection of macrophages with T. cruzi markedly stimulated the formation of the lipid products of the phosphatidylinositol (PI) 3-kinases, PI 3-phospate , PI 3,4-biphosphate, and PI 3,4,5-triphosphate, but not PI 4-phosphate or PI 4,5-biphosphate. This activation was inhibited by wortmannin. Infection with T. cruzi also stimulated a marked increase in the in vitro lipid kinase activities that are present in the immunoprecipitates of anti-p85 subunit of class I PI 3-kinase and anti-phosphotyrosine. In addition, T. cruzi invasion also activated lipid kinase activity found in immunoprecipitates of class II and class III PI 3-kinases. These data demonstrate that T. cruzi invasion into macrophages strongly activates separated PI 3-kinase isoforms. Furthermore, the inhibition of the class I and class III PI 3-kinase activities abolishes the parasite entry into macrophages. These findings suggest a prominent role for the host PI 3-kinase activities during the T. cruzi infection process.Trypanosoma cruzi, an intracellular protozoan parasite that infects humans and other mammalian hosts, is the etiologic agent of Chagas' disease that is a major public health problem in Latin America (1). This parasite is now viewed as an emerging human pathogen of HIV-1-infected individuals as it can be transmitted through blood transfusions (2). This unicellular parasite presents three developmental stages; epimastigote and amastigote forms correspond to proliferative stages found in the invertebrate and vertebrate hosts, respectively. The trypomastigote forms are infective and invade different host cell types, first macrophages, in order to replicate (3).How T. cruzi trypomastigotes signal to gain entry and survive in their host is not completely understood. However, some evidence suggests that T. cruzi interacts with different signaling systems of the host. It has been shown that the transforming growth factor ␤-receptor signaling pathway is essential for T. cruzi invasion (4). Activation of a calcium-dependent host cell pathway by T. cruzi has also been reported (3, 5). In addition, T. cruzi invasion has been shown to induce tyrosine phosphorylation of macrophage proteins (6), as well as activation of the mitogen-activated protein kinase pathway (7). Thus, the blockade of tyrosine kinase and mitogen-activated protein kinase activities in the host macrophage by inhibitors (7,8) ablate the infection of these cells by T. cruzi, suggesting that activation of kinase pathways is an important event in this process. Invasion of T. cruzi into...

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Characterization of the myo‐inositol transport system in Trypanosoma cruzi

Einicker‐Lamas

Almeida

Todorov

et al. 2000

European Journal of Biochemistry

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myo-Inositol is a growth factor for mammalian cells as well as for the pathogenic protozoa Trypanosoma cruzi. Most of the cell surface molecules in this organism rely on myo-inositol as the biosynthetic precursor for phosphoinositides and glycosylated phosphatidylinositols. The aim of this work was to investigate the process of myo-inositol translocation across the parasite cell membrane. myo-Inositol uptake was concentration-dependent in the concentration range 0.1±10 mm with maximal transport obtained at 8 mm. Using sodium-free buffers, where Na 1 was replaced by choline or K 1 , myo-inositol uptake was inhibited by 50%. Furosemide, an inhibitor of the ouabain-insensitive Na 1 -ATPase, inhibited the Na 1 -dependent and Na 1 -independent myo-inositol uptake by 68 and 33%, respectively. In contrast, ouabain, an (Na 11 /K 1 ) ATPase inhibitor, did not affect transport. Part of the myo-inositol uptake is mediated by active transport as it was inhibited when energy metabolism inhibitors such as carbonyl cyanide p-(trifluoromethoxy)-phenylhydrazone (34%), 2,4-dinitrophenol (50%), KCN (71%) and NaN 3 (69%) were added to the medium, or the temperature of the medium was lowered to 4 8C. The addition of glucose (5±50 mm) or mannose (10 mm) did not change the myo-inositol uptake, whereas the addition of 10 mm nonlabeled myo-inositol totally inhibited this transport, indicating that the transporter is specific for myo-inositol. Phloretin (0.3 mm) and phoridzin (5 mm), but not cytochalasin B, were efficient inhibitors of myo-inositol uptake. A portion of the accumulated myo-inositol is converted to inositol phosphates and phosphoinositides. These data show that myo-inositol transport in T. cruzi epimastigotes is mediated by at least two specific transporters Ð one Na 1 -dependent and the other Na 1 -independent.

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Observer- and stimulus-specific effects in unconscious evaluation of faces on social dimensions

et al. 2011

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Alex Todorov

Cooperative Activation of TLR2 and Bradykinin B2 Receptor Is Required for Induction of Type 1 Immunity in a Mouse Model of Subcutaneous Infection by Trypanosoma cruzi

Trypanosoma cruzi induces edematogenic responses in mice and invades cardiomyocytes and endothelial cells in vitro by activating distinct kinin receptor subtypes (B₁/B₂)

Activation of Host Cell Phosphatidylinositol 3-Kinases byTrypanosoma cruzi Infection

Characterization of the myo‐inositol transport system in Trypanosoma cruzi

Observer- and stimulus-specific effects in unconscious evaluation of faces on social dimensions

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Alex Todorov

Cooperative Activation of TLR2 and Bradykinin B2 Receptor Is Required for Induction of Type 1 Immunity in a Mouse Model of Subcutaneous Infection by Trypanosoma cruzi

Trypanosoma cruzi induces edematogenic responses in mice and invades cardiomyocytes and endothelial cells in vitro by activating distinct kinin receptor subtypes (B1/B2)

Activation of Host Cell Phosphatidylinositol 3-Kinases byTrypanosoma cruzi Infection

Characterization of the myo‐inositol transport system in Trypanosoma cruzi

Observer- and stimulus-specific effects in unconscious evaluation of faces on social dimensions

Contact Info

Product

Resources

About

Trypanosoma cruzi induces edematogenic responses in mice and invades cardiomyocytes and endothelial cells in vitro by activating distinct kinin receptor subtypes (B₁/B₂)