12 results
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2. Cytokine responses of CD4+ T cells during a Plasmodium chabaudi chabaudi (ER) blood-stage infection in mice initiated by the natural route of infection.
- Author
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Fonseca, Luis, Seixas, Elsa, Butcher, Geoffrey, and Langhorne, Jean
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CYTOKINES , *PLASMODIUM , *IMMUNOPATHOLOGY , *CD4 antigen , *T cells , *PARASITOLOGICAL research - Abstract
Background: Investigation of host responses to blood stages of Plasmodium spp, and the immunopathology associated with this phase of the life cycle are often performed on mice infected directly with infected red blood cells. Thus, the effects of mosquito bites and the pre-erythrocytic stages of the parasite, which would be present in natural infection, are ignored In this paper, Plasmodium chabaudi chabaudi infections of mice injected directly with infected red blood cells were compared with those of mice infected by the bites of infected mosquitoes, in order to determine whether the courses of primary infection and splenic CD4 T cell responses are similar. Methods: C57Bl/6 mice were injected with red blood cells infected with P. chabaudi (ER) or infected via the bite of Anopheles stephensi mosquitoes. Parasitaemia were monitored by Giemsastained thin blood films. Total spleen cells, CD4+ T cells, and cytokine production (IFN-γ, IL-2, IL-4, IL-10) were analysed by flow cytometry. In some experiments, mice were subjected to bites of uninfected mosquitoes prior to infectious bites in order to determine whether mosquito bites per se could affect a subsequent P. chabaudi infection. Results: P. chabaudi (ER) infections initiated by mosquito bite were characterized by lower parasitaemia of shorter duration than those observed after direct blood challenge. However, splenomegaly was comparable suggesting that parasitaemia alone does not account for the increase in spleen size. Total numbers of CD4 T cells and those producing IFN-γ, IL-10 and IL-2 were reduced in comparison to direct blood challenge. By contrast, the reduction in IL-4 producing cells was less marked suggesting that there is a proportionally lower Th1-like response in mice infected via infectious mosquitoes. Strikingly, pre-exposure to bites of uninfected mosquitoes reduced the magnitude and duration of the subsequent mosquito-transmitted infection still further, but enhanced the response of CD4 T cells producing IFN-γ and IL-4. Conclusion: The data in this paper suggest that studying early host responses in blood stage malaria infections measured after direct blood challenge of mice may not completely reflect the natural situation, and more detailed investigations of blood-stage immunity after mosquito transmission in experimental models should be considered. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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3. Chagas Disease Cardiomyopathy: Immunopathology and Genetics.
- Author
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Cunha-Neto, Edecio and Chevillard, Christophe
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CHAGAS' disease , *CARDIOMYOPATHIES , *IMMUNOPATHOLOGY , *TRYPANOSOMA cruzi , *T cells , *MYOCARDITIS - Abstract
Chagas disease, caused by the protozoan Trypanosoma cruzi, is endemic in Latin America and affects ca. 10 million people worldwide. About 30% of Chagas disease patients develop chronic Chagas disease cardiomyopathy (CCC), a particularly lethal inflammatory cardiomyopathy that occurs decades after the initial infection, while most patients remain asymptomatic. Mortality rate is higher than that of noninflammatory cardiomyopathy. CCC heart lesions present a Th1 T-cell-rich myocarditis, with cardiomyocyte hypertrophy and prominent fibrosis. Data suggest that the myocarditis plays a major pathogenetic role in disease progression. Major unmet goals include the thorough understanding of disease pathogenesis and therapeutic targets and identification of prognostic genetic factors. Chagas disease thus remains a neglected disease, with no vaccines or antiparasitic drugs proven efficient in chronically infected adults, when most patients are diagnosed. Both familial aggregation of CCC cases and the fact that only 30%of infected patients develop CCC suggest there might be a genetic component to disease susceptibility.Moreover, previous case-control studies have identified some genes associated to human susceptibility to CCC. In this paper,wewill reviewthe immunopathogenesis and genetics of Chagas disease, highlighting studies that shed light on the differential progression of Chagas disease patients to CCC. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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4. The Role of Different Subsets of Regulatory T Cells in Immunopathogenesis of Rheumatoid Arthritis.
- Author
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Gol-Ara, Maryam, Jadidi-Niaragh, Farhad, Sadria, Reza, Azizi, Gholamreza, and Mirshafiey, Abbas
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T cells , *IMMUNOPATHOLOGY , *RHEUMATOID arthritis , *AUTOIMMUNE diseases , *HYPERPLASIA , *DISEASE progression , *PATHOLOGICAL physiology - Abstract
Rheumatoid arthritis (RA) is a common autoimmune disease and a systemic inflammatory disease which is characterized by chronic joint inflammation and variable degrees of bone and cartilage erosion and hyperplasia of synovial tissues. Considering the role of autoreactive T cells (particularly Th1 and Th17 cells) in pathophysiology of RA, it might be assumed that the regulatory T cells (Tregs) will be able to control the initiation and progression of disease. The frequency, function, and properties of various subsets of Tregs including natural Tregs (nTregs), IL-10-producing type 1 Tregs (Tr1 cells), TGF-β-producing Th3 cells, CD8+ Tregs, and NKT regulatory cells have been investigated in various studies associated with RA and collagen-induced arthritis (CIA) as experimental model of this disease. In this paper, we intend to submit the comprehensive information about the immunobiology of various subsets of Tregs and their roles and function in immunopathophysiology of RA and its animal model, CIA. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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5. Control of Pathogenic CD4 T Cells and Lethal Immunopathology by Signaling Immunoadaptor DAP12 during Influenza Infection.
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McCormick, Sarah, Shaler, Christopher R., Small, Cherrie-Lee, Horvath, Carly, Damjanovic, Daniela, Brown, Earl G., Aoki, Naoko, Takai, Toshiyuki, and Zhou Xing
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T cells , *LYMPHOCYTES , *IMMUNOPATHOLOGY , *INFLUENZA , *DENDRITIC cells - Abstract
Immunopathology is a major cause of influenza-associated morbidity and mortality worldwide. However, the role and regulatory mechanisms of CD4 T cells in severe lung immunopathology following acute influenza infection are poorly understood. In this paper, we report that the emergence of immunopathogenic CD4 T cells is under the control of a transmembrane immunoadaptor DAP12 pathway during influenza infection. We find that the mice lacking DAP12 have unaltered viral clearance but easily succumb to influenza infection as a result of uncontrolled immunopathology. Such immunopathology is associated with markedly increased CD4 T cells displaying markedly increased cytotoxicity and Fas ligand expression. Furthermore, the immunopathogenic property of these CD4 T cells is transferrable. Thus, depletion of CD4 T cells or abrogation of Fas/Fas ligand signaling pathway improves survival and immunopathology. We further find that DAP12 expressed by dendritic cells plays an important role in controlling the immunopathogenic CD4 T cells during influenza infection. Our findings identify a novel pathway that controls the level of immune-pathogenic CD4 T cells during acute influenza infection. [ABSTRACT FROM AUTHOR]
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- 2011
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6. Functional characterization of T cells differentiated in vitro from bone marrow-derived CD34+ cells of psoriatic patients with family history.
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Zhang, Kaiming, Li, Xinhua, Yin, Guohua, Liu, Yufeng, and Tang, Xuyuan
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T cells , *BONE marrow , *CD antigens , *PSORIASIS , *IMMUNOPATHOLOGY , *KERATINOCYTES , *PHYSIOLOGY - Abstract
Please cite this paper as: Functional characterization of T cells differentiated in vitro from bone marrow-derived CD34+ cells of psoriatic patients with family history. Experimental Dermatology 2010; 19: e128-e135. Abstract Background: The strong but complex genetic background suggests that inherent and intrinsic rather than exogenous factors have a key role in immunopathogenesis of psoriasis. It is reasonable to speculate that the dysfunctional activity of psoriatic T cells may partly originate from the abnormal haematopoietic cells. Objectives: To test if T cells originated from haematopoietic progenitor cells in psoriasis patients display functional alternations similar to previously reported abnormalities of circulating T cells. Methods: Bone marrow CD34+ haematopoietic cells were isolated from psoriatic patients with family history and healthy subjects, and differentiated into T cells in vitro in the thymic stromal co-culture system. These cells were further subjected to functional comparisons such as in vitro proliferation, secretion of cytokines such as IL-4, IL-8 and IFN-γ, and inducing the production of C-myc, Bcl-xL, and Ki67 proteins in human keratinocytes. Results: While bone marrow-derived CD34+ cells from both patients and healthy volunteers developed into mature T cells within weeks in the thymic environment in vitro, the differentiated T cells from psoriatic patients showed higher proliferation and stronger capacity to secret TH1 cytokines in response to streptococcal superantigen. The differentiated T cells from psoriatic patients, but not from normal controls, induced overexpression of C-myc and Ki67, but not Bcl-XL, in keratinocytes. Conclusions: T cells differentiated from CD34+ cells of psoriatic patients, but not normal controls, are functionally similar to psoriatic circulating T cells, suggesting that the dysfunctional activity of T cells in psoriatic patients can be traced back to the early development of haematopoietic cells. [ABSTRACT FROM AUTHOR]
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- 2010
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7. Atacicept bei Multipler Sklerose.
- Author
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Hartung, H.-P.
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MULTIPLE sclerosis treatment , *T cells , *AUTOANTIBODIES , *IMMUNOPATHOLOGY , *TARGETED drug delivery , *CYTOKINES - Abstract
Multiple sclerosis (MS) has traditionally been considered to be a T cell-mediated disease. However, there is an increasing body of evidence for the involvement of B cells and autoantibodies in the pathology of this disease, providing a rationale for treatment strategies directed against B cells. This paper summarizes the evidence for a key role of B cells in the immunopathology of MS and reviews data supporting the use of a novel B cell-targeted therapy, atacicept, for this condition. Atacicept is a human recombinant fusion protein that comprises the binding portion of a receptor for both BLyS (B Lymphocyte Stimulator) and APRIL (A PRoliferation-Inducing Ligand), two cytokines that have been identified as important regulators of B cell maturation, function and survival. Atacicept has shown selective effects on cells of the B cell lineage, acting on mature B cells and blocking plasma cells and late stages of B cell development while sparing B cell progenitors and memory cells. The efficacy of atacicept in animal models of autoimmune disease and the biological activity of atacicept in patients with systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA) has been demonstrated. Ongoing clinical studies are investigating the safety, tolerability and efficacy of atacicept in patients with MS, SLE and RA. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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8. A Population Dynamics Analysis of the Interaction between Adaptive Regulatory T Cells and Antigen Presenting Cells.
- Author
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Fouchet, David and Regoes, Roland
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T cells , *ANTIGEN presenting cells , *IMMUNE response , *PATHOGENIC microorganisms , *ALLERGENS , *ECOLOGICAL disturbances , *IMMUNOPATHOLOGY , *THYMUS , *CYTOKINES , *IMMUNE system - Abstract
Background: Regulatory T cells are central actors in the maintenance of tolerance of self-antigens or allergens and in the regulation of the intensity of the immune response during infections by pathogens. An understanding of the network of the interaction between regulatory T cells, antigen presenting cells and effector T cells is starting to emerge. Dynamical systems analysis can help to understand the dynamical properties of an interaction network and can shed light on the different tasks that can be accomplished by a network. Methodology and Principal Findings: We used a mathematical model to describe a interaction network of adaptive regulatory T cells, in which mature precursor T cells may differentiate into either adaptive regulatory T cells or effector T cells, depending on the activation state of the cell by which the antigen was presented. Using an equilibrium analysis of the mathematical model we show that, for some parameters, the network has two stable equilibrium states: one in which effector T cells are strongly regulated by regulatory T cells and another in which effector T cells are not regulated because the regulatory T cell population is vanishingly small. We then simulate different types of perturbations, such as the introduction of an antigen into a virgin system, and look at the state into which the system falls. We find that whether or not the interaction network switches from the regulated (tolerant) state to the unregulated state depends on the strength of the antigenic stimulus and the state from which the network has been perturbed. Conclusion/Significance: Our findings suggest that the interaction network studied in this paper plays an essential part in generating and maintaining tolerance against allergens and self-antigens. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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9. Role of T cells and dendritic cells in glomerular immunopathology.
- Author
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Kurts, Christian, Heymann, Felix, Lukacs-Kornek, Veronika, Boor, Peter, and Floege, Jürgen
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GLOMERULONEPHRITIS , *T cells , *DENDRITIC cells , *AUTOIMMUNITY , *CYTOKINES , *IMMUNOPATHOLOGY - Abstract
Inappropriate T cell responses cause the four classical types of hypersensitivity immune reactions. All of these can target the kidney and cause distinct forms of glomerulonephritis. CD4+ T cells can mediate glomerular immunopathology by cytokine secretion, by activating effector cells such as macrophages or by inducing auto-antibodies or immune-complexes. Cytotoxic CD8+ T cell responses and failure of regulatory T cells may represent two additional types of anti-renal hypersensitivity. T cell activation is critically dependent on dendritic cells (DC), whose role in renal disease appears to be protective, but underlying mechanisms are largely unknown. In this paper, we summarized mechanistic information from rodent models on the roles of DC and T cells in glomerular immunopathology. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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10. Germinal center architecture disturbance during Plasmodium berghei ANKA infection in CBA mice.
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Carvalho, Leonardo J. M., Ferreira-da-Cruz, Maria F., Daniel-Ribeiro, Claudio T., Pelajo-Machado, Marcelo, and Lenzi, Henrique L.
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IMMUNE response , *PLASMODIUM , *IMMUNOPATHOLOGY , *T cells , *LABORATORY rats - Abstract
Background: Immune responses to malaria blood stage infection are in general defective, with the need for long-term exposure to the parasite to achieve immunity, and with the development of immunopathology states such as cerebral malaria in many cases. One of the potential reasons for the difficulty in developing protective immunity is the poor development of memory responses. In this paper, the potential association of cellular reactivity in lymphoid organs (spleen, lymph nodes and Peyer's patches) with immunity and pathology was evaluated during Plasmodium berghei ANKA infection in CBA mice. Methods: CBA mice were infected with 1 × 106 P. berghei ANKA-parasitized erythrocytes and killed on days 3, 6-8 and 10 of infection. The spleen, lymph nodes and Peyer's patches were collected, fixed in Carson's formalin, cut in 5 µm sections, mounted in glass slides, stained with Lennert's Giemsa and haematoxylin-eosin and analysed with bright-field microscopy. Results: Early (day 3) strong activation of T cells in secondary lymphoid organs was observed and, on days 6-8 of infection, there was overwhelming activation of B cells, with loss of conventional germinal center architecture, intense centroblast activation, proliferation and apoptosis but little differentiation to centrocytes. In the spleen, the marginal zone disappeared and the limits between the disorganized germinal center and the red pulp were blurred. Intense plasmacytogenesis was observed in the T cell zone. Conclusion: The observed alterations, especially the germinal center architecture disturbance (GCAD) with poor centrocyte differentiation, suggest that B cell responses during P. berghei ANKA infection in mice are defective, with potential impact on B cell memory responses. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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11. Priming of CD4+ T cells and development of CD4+ T cell memory; lessons for malaria.
- Author
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STEPHENS, R. and LANGHORNE, J.
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MALARIA immunology , *T cells , *MALARIA vaccines , *IMMUNE response , *IMMUNOPATHOLOGY , *VACCINATION , *CD4 antigen - Abstract
CD4 T cells play a central role in the immune response to malaria. They are required to help B cells produce the antibody that is essential for parasite clearance. They also produce cytokines that amplify the phagocytic and parasitocidal response of the innate immune system, as well as dampening this response later on to limit immunopathology. Therefore, understanding the mechanisms by which T helper cells are activated and the requirements for development of specific, and effective, T cell memory and immunity is essential in the quest for a malaria vaccine. In this paper on the CD4 session of the Immunology of Malaria Infections meeting, we summarize discussions of CD4 cell priming and memory in malaria and in vaccination and outline critical future lines of investigation. B. Stockinger and M.K. Jenkins proposed cutting edge experimental systems to study basic T cell biology in malaria. Critical parameters in T cell activation include the cell types involved, the route of infection and the timing and location and cell types involved in antigen presentation. A new generation of vaccines that induce CD4 T cell activation and memory are being developed with new adjuvants. Studies of T cell memory focus on differentiation and factors involved in maintenance of antigen specific T cells and control of the size of that population. To improve detection of T cell memory in the field, efforts will have to be made to distinguish antigen-specific responses from cytokine driven responses. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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12. Mast cell/T cell interactions in oral lichen planus.
- Author
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Zhao, Z. Z., Savage, N. W., Sugerman, P. B., and Walsh, L. J.
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LICHEN planus , *T cells , *MAST cells , *ORAL mucosa diseases , *SKIN inflammation , *GRAFT versus host disease , *CHEMOKINES , *IMMUNOPATHOLOGY - Abstract
Lichen planus is a disorder characterized by lesions of the skin and oral mucous membranes. Although many patients have involvement of both skin and oral mucosa at some stage during the progress of the disease, a larger group has oral involvement alone. It has been reported that oral lichen planus (OLP) affects one to two percent of the general population and has the potential for malignant transformation in some cases (1, 2). Like many chronic inflammatory skin diseases, it often persists for many years. Numerous disorders may be associated with OLP such as graft-vs.-host disease and Hepatitis C virus infection (3), however, it is unclear how such diverse influences elicit the disease and indeed whether they are identical to idiopathic OLP. Available evidence supports the view that OLP is a cell-mediated immunological response to an induced antigenic change in the mucosa (4-6). Studies of the immunopathogenesis of OLP aim to provide specific novel treatments as well as contributing to our understanding of other cell-mediated inflammatory diseases. In this paper, the interactions between mast cells and T cells are explored from the standpoint of immune regulation. From these data, a unifying hypothesis for the immunopathogenesis of OLP is then developed and presented. [ABSTRACT FROM AUTHOR]
- Published
- 2002
- Full Text
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