966 resultados para Immune mediated hemolytic anemia
Resumo:
Regulatory T cells expressing the fork-head box transcription factor 3 (Foxp3) play a central role in the dominant control of immunological tolerance. Compelling evidence obtained from both animal and clinical studies have now linked the expansion and accumulation of Foxp3+ regulatory T cells associated with tumor lesions to the failure of immune-mediated tumor rejection. However, further progress of the field is hampered by the gap of knowledge regarding their phenotypic, functional, and the developmental origins in which these tumor-associated Foxp3+ regulatory T cells are derived. Here, we have characterized the general properties of tumor-associated Foxp3+ regulatory T cells and addressed the issue of tumor microenvironment mediated de-novo induction by utilizing a well known murine tumor model MCA-205 in combination with our BAC Foxp3-GFP reporter mice and OT-II TCR transgenic mice on the RAG deficient background (RAG OT-II). De-novo induction defines a distinct mechanism of converting non-regulatory precursor cells to Foxp3+ regulatory T cells in the periphery as opposed to the expansion of pre-existing regulatory T cells formed naturally during thymic T cell development. This mechanism is of particularly importance to how tumors induce tumor-antigen-specific suppressor cells to subvert anti-tumor immune responses. Our study has found that tumor-associated Foxp3+ regulatory T cells are highly activated, undergo vigorous proliferation, are more potent by in-vitro suppression assays, and express higher levels of membrane-bound TGF-β1 than non-tumor regulatory T cells. With Foxp3-GFP reporter mice or RAG OT-II TCR transgenic mice, we show that tumor tissue can induce detectable de-novo generation of Foxp3+ regulatory T cells of both polyclonal or antigen specific naïve T cells. This process was not only limited for subcutaneous tumors but for lung tumors as well. Furthermore, this process required the inducing antigen to be co-localized within the tumor tissue. Examination of tumor tissue revealed an abundance of myeloid CD11b+ antigen-presenting cells that were capable of inducing Foxp3+ regulatory T cells. Taken together, these findings elucidate the general attributes and origins of tumor-associated Foxp3+ regulatory T cells in the tumor microenvironment and in their role in the negative regulation of tumor immunity.^
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Las microangiopatías trombóticas se caracterizan por presentar anemia hemolítica microangiopática asociada a plaquetopenia, fallo renal y lesión neurológica. El Síndrome anti-sintetasa es una entidad poco frecuente perteneciente al grupo de las miopatías inflamatorias idiopáticas. El objetivo de esta presentación es comunicar una paciente que desarrolló una púrpura trombocitopénica trombótica en el contexto de un Síndrome anti-sintetasa, asociación inusualmente reportada.
Resumo:
Paroxysmal nocturnal hemoglobinuria (PNH) is a clonal hematopoietic stem cell disorder resulting from mutations in an X-linked gene, PIG-A, that encodes an enzyme required for the first step in the biosynthesis of glycosylphosphatidylinositol (GPI) anchors. PIG-A mutations result in absent or decreased cell surface expression of all GPI-anchored proteins. Although many of the clinical manifestations (e.g., hemolytic anemia) of the disease can be explained by a deficiency of GPI-anchored complement regulatory proteins such as CD59 and CD55, it is unclear why the PNH clone dominates hematopoiesis and why it is prone to evolve into acute leukemia. We found that PIG-A mutations confer a survival advantage by making cells relatively resistant to apoptotic death. When placed in serum-free medium, granulocytes and affected CD34+ (CD59−) cells from PNH patients survived longer than their normal counterparts. PNH cells were also relatively resistant to apoptosis induced by ionizing irradiation. Replacement of the normal PIG-A gene in PNH cell lines reversed the cellular resistance to apoptosis. Inhibited apoptosis resulting from PIG-A mutations appears to be the principle mechanism by which PNH cells maintain a growth advantage over normal progenitors and could play a role in the propensity of this disease to transform into more aggressive hematologic disorders. These data also suggest that GPI anchors are important in regulating apoptosis.
Resumo:
The human 15-lipoxygenase (15-LO) gene was transfected into rat kidneys in vivo via intra-renal arterial injection. Three days later, acute (passive) or accelerated forms of antiglomerular basement membrane antibody-mediated glomerulonephritis were induced in transfected and nontransfected or sham-transfected controls. Studies of glomerular functions (filtration and protein excretion) and ex vivo glomerular leukotriene B4 biosynthesis at 3 hr, and up to 4 days, after induction of nephritis revealed preservation or normalization of these parameters in transfected kidneys that expressed human 15-LO mRNA and mature protein, but not in contralateral control kidneys or sham-transfected animals. The results provide in vivo-derived data supporting a direct anti-inflammatory role for 15-LO during immune-mediated tissue injury.
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Nitric oxide (NO) has diverse roles in intercellular communication and (at higher levels) in immune-mediated cell killing. NO reacts with many cellular targets, with cell-killing effects correlated to inactivation of key enzymes through nitrosylation of their iron-sulfur centers. SoxR protein, a redox-sensitive transcription activator dependent on the oxidation state of its binuclear iron-sulfur ([2Fe-2S]) centers, is also activated in Escherichia coli on exposure to macrophage-generated NO. We show here that SoxR activation by NO occurs through direct modification of the [2Fe-2S] centers to form protein-bound dinitrosyl-iron-dithiol adducts, which we have observed both in intact bacterial cells and in purified SoxR after NO treatment. Functional activation through nitrosylation of iron-sulfur centers contrasts with the inactivation typically caused by this modification. Purified, nitrosylated SoxR has transcriptional activity similar to that of oxidized SoxR and is relatively stable. In contrast, nitrosylated SoxR is short-lived in intact cells, indicative of mechanisms that actively dispose of nitrosylated iron-sulfur centers.
Resumo:
To understand the role of the immune system in limiting HIV type 1 replication, it is critical to know to what extent the rapid turnover of productively infected cells is caused by viral cytopathicity or by immune-mediated lysis. We show that uncultured peripheral blood mononuclear cells of many patients contain cytotoxic T lymphocytes (CTL) that lyse target cells—at plausible peripheral blood mononuclear cell-to-target ratios—with half-lives of less than 1 day. In 23 patients with CD4 counts ranging from 10 to 900 per μl, the average rate of CTL-mediated lysis corresponds to a target cell half-life of 0.7 day. We develop mathematical models to calculate the turnover rate of infected cells subjected to immune-mediated lysis and viral cytopathicity and to estimate the fraction of cells that are killed by CTL as opposed to virus. The models provide new interpretations of drug treatment dynamics and explain why the observed rate of virus decline is roughly constant for different patients. We conclude that in HIV type 1 infection, CTL-mediated lysis can reduce virus load by limiting virus production, with small effects on the half-life of infected cells.
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T cell recognition of autoantigens is critical to progressive immune-mediated destruction of islet cells, which leads to autoimmune diabetes. We identified a naturally presented autoantigen from the human islet antigen glutamic acid decarboxylase, 65-kDa isoform (GAD65), by using a combination of chromatography and mass spectrometry of peptides bound by the type I diabetes (insulin-dependent diabetes mellitus, IDDM)-associated HLA-DR4 molecule. Peptides encompassing this epitope-stimulated GAD65-specific T cells from diabetic patients and a DR4-positive individual at high risk for developing IDDM. T cell responses were antagonized by altered peptide ligands containing single amino acid modifications. This direct identification and manipulation of GAD65 epitope recognition provides an approach toward dissection of the complex CD4+ T cell response in IDDM.
Resumo:
To improve the efficiency of liposome-mediated DNA transfer as a tool for gene therapy, we have developed a fusigenic liposome vector based on principles of viral cell fusion. The fusion proteins of hemagglutinating virus of Japan (HVJ; also Sendai virus) are complexed with liposomes that encapsulate oligodeoxynucleotide or plasmid DNA. Subsequent fusion of HVJ-liposomes with plasma membranes introduces the DNA directly into the cytoplasm. In addition, a DNA-binding nuclear protein is incorporated into the HVJ-liposome particle to enhance plasmid transgene expression. The fusigenic viral liposome vector has proven to be efficient for the intracellular introduction of oligodeoxynucleotide, as well as intact genes up to 100 kbp, both in vitro and in vivo. Many animal tissues have been found to be suitable targets for fusigenic viral liposome DNA transfer. In the cardiovascular system, we have documented successful cytostatic gene therapy in models of vascular proliferative disease using antisense oligodeoxynucleotides against cell cycle genes, double-stranded oligodeoxynucleotides as "decoys" to trap the transcription factor E2F, and expression of a transgene encoding the constitutive endothelial cell form of nitric oxide synthase. Similar strategies are also effective for the genetic engineering of vein grafts and for the treatment of a mouse model of immune-mediated glomerular disease.
Resumo:
Interleukin 2 (IL-2)-deficient (IL-2-/-) mice develop hemolytic anemia and chronic inflammatory bowel disease. Importantly, the induction of disease in IL-2-deficient mice is critically dependent on CD4+ T cells. We have studied the requirements of T cells from IL-2-deficient mice for costimulation with B7 antigens. Stable B7-1 or B7-2 chinese hamster ovary (CHO) cell transfectants could synergize with anti-CD3 monoclonal antibody (mAb) to induce the proliferation of CD4+ T cells from IL-2-/- mutant mice. Further mechanistic studies established that B7-induced activation resulted in surface expression of the alpha chain of the IL-2 receptor. B7-induced proliferation occurred independently of IL-4 and was largely independent of the common gamma chain of the IL-2, IL-4, IL-7, IL-9, and IL-15 receptors. Finally, anti-B7-2 but not anti-B7-1 mAb was able to inhibit the activation of IL-2-/- T cells induced by anti-CD3 mAb in the presence of syngeneic antigen-presenting cells. The results of our experiments indicate that IL-2-/- CD4+ T cells remain responsive to B7 stimulation and raise the possibility that B7 antagonists have a role in the prevention/treatment of inflammatory bowel disease.
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We have compared the tumorigenicity of two src oncogenes, v-src and c-src(527), whose respective protein products pp60v-src and pp60c-src(527) show a different spectrum of amino acid substitutions vis-à-vis the c-src protooncogene-encoded product pp60c-src. Whereas the extent of primary tumor growth induced by c-src(527) was quite similar in the two chicken lines tested, the extent of v-src-induced tumor growth showed a marked line dependence. As examined with a line of chickens that shows immune-mediated regression of v-src-induced tumors, a weaker tumor immunity, as correlated with a greater level of primary tumor growth, resulted from inoculation of c-src(527) DNA than of v-src DNA. These observations indicated that the v-src-specific amino acid substitutions define a major tumor antigenicity. That a separate src-associated antigenicity is also targetable by the tumor immune response followed from the finding that the level of protective immunity against the growth of c-src(527) DNA-induced tumors was augmented under conditions of the prior regression of v-src DNA-induced tumors. As this latter antigenicity may include one or more c-src(527)-encoded peptides that are equivalent to c-src-encoded self peptides, these observations suggest that a host tolerance to pp60c-src can be broken so as to permit a tumor immune response based on recognition of self peptides of pp60c-src(527).
Resumo:
Activated components of the complement system are potent mediators of inflammation that may play an important role in numerous disease states. For example, they have been implicated in the pathogenesis of inflammatory joint diseases including rheumatoid arthritis (RA). To target complement activation in immune-mediated joint inflammation, we have utilized monoclonal antibodies (mAbs) that inhibit the complement cascade at C5, blocking the generation of the major chemotactic and proinflammatory factors C5a and C5b-9. In this study, we demonstrate the efficacy of a mAb specific for murine C5 in the treatment of collagen-induced arthritis, an animal model for RA. We show that systemic administration of the anti-C5 mAb effectively inhibits terminal complement activation in vivo and prevents the onset of arthritis in immunized animals. Most important, anti-C5 mAb treatment is also highly effective in ameliorating established disease. These results demonstrate a critical role for activated terminal complement components not only in the induction but also in the progression of collagen-induced arthritis and suggest that C5 may be an attractive therapeutic target in RA.
Resumo:
Monkeys with excellent reproductive histories were immunized with the laminin peptides YIGSR, RGD, IKVAV, and YD, a control sequence with no known biological function. Sera from the YIGSR-immunized monkey became toxic, causing neural tube defects in whole rat embryo cultures, and this monkey experienced fetal loss after immunization. Sera from the RGD-immunized monkey also became embryotoxic in culture after immunization, but this monkey appeared to become infertile as she failed to initiate a pregnancy for at least 2 years after immunization. In contrast, embryos cultured on sera from the IKVAV- or YD-immunized monkeys were predominantly normal and both monkeys completed successful pregnancies. Antibody levels to the respective peptides or to laminin were not predictive of embryotoxicity, but antibody binding to homogenized yolk sacs as well as to yolk sacs of cultured embryos was associated with sera embryotoxicity and reproductive outcomes in vivo. These observations suggested that the laminin sequences YIGSR and RGD may play a role in immune-mediated reproductive failure by reacting directly with embryonic tissue and could provide a basis for identifying individuals at risk for both spontaneous abortion and infertility.
Resumo:
A Ceratoconjuntivite Seca (KCS Keratoconjunctivitis Sicca) é uma desordem imunomediada e resulta de alterações do componente aquoso do filme lacrimal e da deficiência dos componentes lipídicos e mucoso.Seu diagnóstico é baseado no Teste Lacrimal de Schirmer (TLS) e no Teste de Ruptura do Filme Lacrimal (TRFL) e tem como sinais clínicos: secreção mucopurulenta, hiperemia conjuntival, blefaroespasmos, fotofobia, incômodo, dor, vascularização, opacidade corneana e pigmentação, além de cegueira em casos avançados. O tratamento convencional consiste em aplicações diárias de Ciclosporina 0,2% ou Tacrolimus 0,03% (pomada ou colírio oftálmicos), que apesar de controlar a doença, são custosos, não curativos e exigem alto comprometimento da interação paciente-proprietário. A terapia celular usando células-tronco (CT) traz uma nova esperança para doenças sem tratamento efetivo. Neste trabalho utilizamos CT mesenquimais (CTM) obtidas a partir de membrana amniótica (CTMA) de cães obtidas a partir do descarte destes tecidos em campanhas de castrações em diferentes tempos gestacionais, sem formação tumoral quando submetidas ao teste tumorigênico durante 60 dias. Dois animais com KCS crônica foram tratados com duas injeções de CTMA com intervalo de 30 dias, sendo a primeira de 0,5x106 células e a segunda de 1x106 células em cada glândula. Na segunda semana após a terapia foi observado aumento da TLS sugerindo um benéficio da terapia que foi diminuindo com o passar das semanas. O TRFL oscilou durante os testes e não apresentou diferenças significativas. A terapia celular utilizando CTMA de cães melhorou a condição ocular nos dois casos em momentos e parâmetros variados, com repercussão na melhoria da superfície, mas não houve regressão do quadro clínico. Investigações futuras em estágios menos avançados da doença podem ajudar a elucidar os mecanismos pelos quais esse efeito foi obtido
Resumo:
"A Esclerose Múltipla é uma doença inflamatória e desmielinizante crónica, imuno-mediada, com expressão clínica variável. Com esta revisão da literatura pretendemos compreender em que medida a Hipnose Clínica se poderá assumir como um recurso terapêutico eficaz no contexto da adaptação e vivência da Esclerose Múltipla. Reflectiremos acerca das características da Esclerose Múltipla, da Hipnose Clínica e do impacto dos processos psicoterapêuticos, de uma forma geral, no ser humano. É então possível concluir que a Hipnose Clínica se poderá assumir como uma ferramenta terapêutica útil no contexto da Esclerose Múltipla, por incluir na sua abordagem a exploração de aspectos vivenciais de grande impacto emocional, abordando e agindo em simultâneo sobre as sensações corporais associadas às mesmas, facilitando a integração de uma “consciência” do corpo fundamental para a vivência de um portador desta patologia. Apesar disso, é inegável a necessidade de se realizarem estudos específicos acerca do tema."
Resumo:
Alveolar echinococcosis (AE) is a clinically very severe zoonotic helminthic disease, characterized by a chronic progressive hepatic damage caused by the continuous proliferation of the larval stage (metacestode) of Echinococcus multilocularis. The proliferative potential of the parasite metacestode tissue is dependent on the nature/function of the periparasitic immune-mediated processes of the host. Immune tolerance and/or down-regulation of immunity are a marked characteristic increasingly observed when disease develops towards its chronic (late) stage of infection. In this context, explorative studies have clearly shown that T regulatory (Treg) cells play an important role in modulating and orchestrating inflammatory/immune reactions in AE, yielding a largely Th2-biased response, and finally allowing thus long-term parasite survival, proliferation and maturation. AE is fatal if not treated appropriately, but the current benzimidazole chemotherapy is far from optimal, and novel options for control are needed. Future research should focus on the elucidation of the crucial immunological events that lead to anergy in AE, and focus on providing a scientific basis for the development of novel and more effective immunotherapeutical options to support cure AE by abrogating anergy, anticipating also that a combination of immuno- and chemotherapy could provide a synergistic therapeutical effect.
