UMLS:C0024530 - FACTA Search

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The enzyme-linked immunospot (ELISPOT) assay was used to enumerate the number of IFN-gamma and IL-4 producing cells after in vitro stimulation with a highly purified recombinant malaria vaccine candidate antigen (r-Pf155/RESA) or synthetic peptides corresponding to its major T-cell epitopes. Two groups of naturally primed individuals living in rural areas of Burkina Faso were studied. The donors comprised one group of healthy (non-parasitemic) mainly adult people and one parasitemic mainly younger people. IL-4 producing cells were detected in response to PHA but no such cells were detected in response to the malarial antigens. The most frequent IFN-gamma responses were seen with r-Pf155/RESA. Thus, after stimulation with this antigen 52% of the donors responded positively in the ELISPOT assay, while only 17% responded to the synthetic peptides, suggesting that the rPf155/RESA contained T-cell epitopes not covered by the peptides used in this study. The number of IFN-gamma producing cells in response to the malarial antigens did not differ between the two groups. However, IFN-gamma levels found in sera from the parasitemic individuals were significantly higher than in those from healthy donors. This latter finding and the lack of differences seen in the number of IFN-gamma producing spots in the two groups indicate that IFN-gamma producing cells may have sequestered to other organs in the parasitemic group.
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PMID:Comparison of the number of IL-4 and IFN-gamma secreting cells in response to the malaria vaccine candidate antigen Pf155/RESA in two groups of naturally primed individuals living in a malaria endemic area in Burkina Faso. 763 Nov 43

In vivo interleukin (IL)-2, IL-4, IL-10, and interferon (IFN)-gamma production was measured at the mRNA transcript and protein levels in patients acutely infected with Plasmodium falciparum and during convalescence. Both IL-10 and IFN-gamma but not IL-2 were produced regardless of the patients' clinical severity. IL-4 production was variable. Circulating IFN-gamma and IL-10 were significantly higher in patients with severe disease (P < .01 and .001, respectively). In vitro stimulation of peripheral blood mononuclear cells (PBMC) by malarial antigens during acute infection showed that although there was no lymphoproliferation, the cells could produce IL-10 and IFN-gamma. Recombinant human IL-10 completely abolished in vitro tumor necrosis factor (TNF)-alpha production in response to malarial antigens, as well as the antigen-specific proliferative response of convalescent patients. However, anti-IL-10 was insufficient to restore proliferation of PBMC from acutely infected patients. These findings suggest that IL-10 may have an important negative feedback action on the production of inflammatory cytokines in acute falciparum malaria without contributing to the defect in antigen-specific proliferation.
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PMID:Interleukin-10 inhibits tumor necrosis factor production but not antigen-specific lymphoproliferation in acute Plasmodium falciparum malaria. 765 79

Both antibody-dependent and antibody-independent mechanisms are involved in immune protection against the asexual blood stages of the malaria parasite. It is well established that T cells play a crucial role in both induction and maintenance of this immunity. Of the two T-cell subsets (CD4+, CD8+) carrying alpha/beta T-cell receptors, the CD4+ T cells are of major importance for the development of blood stage immunity in both experimental and human malaria. In mice, CD4+ T cells comprise at least two functionally distinct cell types (TH1, TH2), distinguished on the basis of their lymphokine production. The balance between these subsets is critical for the outcome of an infection. In some rodent malarias, TH1 cells producing IFN-gamma and IL-2 are important for controlling infection in its early phases, while TH2 cells, producing i.a. IL-4 and IL-10, together with antibodies, are important for parasite clearance in later phases of infection. Distinct CD4+ T cells of either TH1 or TH2 type also have regulatory functions in human P. falciparum infection. In contrast to the CD4+ T cells, the role of CD8+ T cells in blood stage infection appears to be limited, but suppression of some CD4+ activities has been reported for both experimental and human malaria. As in other infections, peripheral T cells equipped with gamma/delta receptors are strongly upregulated in malaria and also respond to parasite antigens in vitro by proliferation and lymphokine production. However, the importance of the gamma/delta T cells for protection when compared with pathogenesis is presently unclear. Rapid advances made in recent years in the characterization and cloning of plasmodial antigens eliciting immune protection have made it possible to define some of the antigenic structures involved in T-cell immunity. This, together with an improved understanding of cellular mechanisms, provides some basis for the development of modern malaria vaccines.
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PMID:T-cell control of immunity to the asexual blood stages of the malaria parasite. 770 48

T-cells have a major role both as helper cells for efficient antibody production and as inducers and effector cells in antibody-independent malaria immunity. Thus, antigens to be included into a subunit vaccine must contain T-cell epitopes to become effectively immunogenic. The P. falciparum blood stage vaccine antigen Pf155/RESA has been shown to contain T-helper epitopes inducing T-dependent anti-malarial antibodies in vitro. We have also shown that synthetic peptides representing sequences from the amino-acid repeat regions of Pf155/RESA stimulate T-cells from P. falciparum primed donors to proliferate, to release IFN-gamma and/or IL-4. In individual donors there was no correlation between these different activities. Rather, they were frequently negatively associated. However, IL-4 secretion could be induced in T-cells from donors who had elevated concentrations of serum antibodies to the same peptide as used for T-cell activation. Taken together the results support the occurrence of malaria-specific CD4+ T-cell subsets (e.g. TH1 and TH2) in humans similar to what has been found in mice and suggest the involvement of TH2-type helper cells in the induction of some important P. falciparum specific antibodies. CD4+ T-cells recognize the antigen in the context of MHC class II molecules. However, in human outbred populations no consistent MHC restrictions of anti-Pf155/RESA immune responses could be demonstrated. This is not surprising in view of the extensive polymorphism of the HLA system. Neither were there any obvious MHC class II restrictions seen when antibody- and t-cell responses were measured in naturally primed monozygotic twins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of regulatory T-cell responses in humans induced by the P. Falciparum blood stage antigen Pf155/RESA. 775 13

Acute Plasmodium yoelii murine malaria is associated with a marked depression of splenic T cell responses. The present study was undertaken to address the question if a defect in T cell proliferation results from a relative increase of a non-T cell population in the spleen or real biological changes occurring in T cells of the spleen after infection. When animals were acutely infected, the splenic cells responded poorly to cross-linked anti-CD3 mAb, Con A, and PWM stimulation. At this stage, a very limited array of cytokine was expressed. We failed to detect the transcripts for IL-2R p55, IL-2, IL-6, IL-10, and IFN-gamma in mice with acute P. yoelii malaria irrespective of the number of splenocytes subjected to RT-PCR. In contrast, late in the infection when mice cleared the parasites and became resistant to reinfection, mRNAs for the above cytokines as well as for IL-4, IL-5, GM-CSF, and TNF-alpha were detectable. During this late phase of infection, lymphocytes proliferated vigorously in response to TCR- and T cell mitogen-mediated stimulation. Surprisingly, during an early phase (as early as 3 days postinfection) with low parasitemia, before the establishment of T cell unresponsiveness, a broad array of cytokine expression including IL-2 and IFN-gamma expression as well as marked lymphoproliferative response upon T cell mitogen- and TCR-mediated stimulation was observed. When the expression of cytokine gene in freshly isolated (ex vivo) splenocytes from P. yoelii-infected animals was investigated, a similar pattern of cytokine profile was detected. We devised a methodology in which RNA from an increasing number of splenocytes (ranging from 1 to 16 million) was used to compensate for any difference in the frequency of splenic T cells between immune and acutely infected mice and to augment target molecules which could be measured simultaneously by PCR. The data presented in this study led us to speculate that "anergy" or relative increase of a non-T cell population cannot account solely for the T cell unresponsiveness in the acute phase of infection. We suggest that inactivation or/and ablation of reactive T cells may explain T cell hyporesponsiveness during acute malaria.
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PMID:Plasmodium yoelii in mice: differential induction of cytokine gene expression during hyporesponsiveness induction and restimulation. 784 88

T cells from most adult non-exposed donors, which express a memory phenotype (CD45RO+), can respond by proliferation to P. falciparum asexual stages in vitro. Such cells may have arisen from exposure to environmental organisms. To address the efficacy of such cells in eliminating parasites and investigate the mechanisms involved, we have used an in vitro assay where parasite growth can be precisely monitored in the presence of different cell preparations. Unfractionated peripheral blood mononuclear cells (PBMC) from both malaria-exposed and non-exposed donors inhibited parasite growth by up to 62% in a two day assay. Purified T cells in the presence of adherent cells had a similar effect, but purified T cells alone or adherent cells alone had minimal effect. Antigens released at the time of schizont rupture were maximally effective in stimulating interferon-gamma (IFN gamma) production. Neutralizing antibodies to IFN gamma showed a partial reduction of growth inhibition in some individuals tested suggesting that different mechanisms may be operative. Neutralizing antibody to TNF alpha had a partial effect in combination with anti-IFN gamma. Antibodies to IL-1 and IL-4 had no effect. T cell fractionation experiments showed that while purified CD4+ T cells from some donors produced IFN gamma and inhibited parasite growth, purified CD8+ T cells could inhibit parasite growth to a greater extent without production of detectable IFN gamma.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of Plasmodium falciparum growth in vitro by CD4+ and CD8+ T cells from non-exposed donors. 786 64

The intracellular protozoan Plasmodium sp induces a complex immune response which sometimes implies serious pathological effects for the host. According to in vitro studies and epidemiological surveys, several effector mechanisms are displayed against plasmodial blood stages and a large interaction between humoral and cell-mediated immunity is presumed to occur among protected individuals. The key role of T cells in the antiplasmodial immune response is now well established, but all the regulatory heterogenous mechanisms are not yet fully known. An increasing body of data shows a dual role during malaria attack for some cytokines released by monocytes and macrophages (TNF, IL-1, IL-6) or by T cells (IFN-gamma, lymphotoxin (LT), IL-4). The importance of some plasmodial proteins in the cytokine-induced pathology and the stimulation of a preferential TH1 or TH2 mediated immune response to achieve protective immunity against Plasmodium sp are discussed.
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PMID:Cytokines and T-cell response in malaria. 791

In the course of studying immunoregulation in human Plasmodium falciparum malaria we have investigated IgE levels and IgE anti-plasmodial antibodies in children and adults from areas of high malaria endemicity in both Africa and Asia. On average, 85% of all donors had significantly elevated levels of total IgE. A fraction of the IgE had anti-plasmodial activity as revealed by ELISA with lysates of infected erythrocytes as antigen. Using synthetic peptides representing antigenic regions of two major plasmodial blood stage antigens, IgE antibody concentrations ranged from 5 to 15 ng/ml serum for each of the peptides. On average, the concentrations of the corresponding IgG antibodies were x 500-1000 higher. Immunoblotting of parasite lysates showed that most donors had IgE antibodies against one or several of a restricted number of plasmodial polypeptides, with antibodies against an antigen of mol.wt 45 kD already being present in all donors at an early age. Donors having IgE antibodies to particular antigens also frequently had corresponding IgG4 antibodies, reflecting underlying IL-4-dependent cellular mechanisms controlling formation of these isotypes. As infection with other parasites such as helminths is known to induce IgE elevation, the results do not prove that plasmodial infections were the primary cause of IgE induction. However, the importance of plasmodial infection for IgE elevation was supported by the finding of significantly higher levels of IgE, but not of IgG, in children with cerebral malaria compared with patients with uncomplicated disease.
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PMID:IgE elevation and IgE anti-malarial antibodies in Plasmodium falciparum malaria: association of high IgE levels with cerebral malaria. 805 Jan 78

In recent years, cell-mediated immunity against malaria has been the subject of intensive investigation either in humans from malaria endemic areas, or experimental models. Cellular immune mechanisms have been regarded as secondary to humoral immunity but, there is increasing evidence that shows its critical role in protection against blood stage plasmodium parasites. In the context of a large humoral-cellular interaction, T helper lymphocytes and monocytes/macrophages may play a key role in the elimination of plasmodial blood stages, particularly P. falciparum. IL-2, IL-4, IL-5, IFN-gamma cytokines secreted principally by CD4+ T lymphocytes and oxygen and nitrogen radicals produced by activated macrophages, are involved in the control of plasmodial infection. The spleen also plays a very important function in the anti-malarial protection by its increased capacity for filtration/destruction of parasitized red blood cells and by induction of B and T memory lymphocytes. Successful vaccination against malaria needs a choice of plasmodial antigens or B and T immunodominants epitopes able to stimulate plasmodium-specific lymphocytes and functional modification in the spleen.
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PMID:[Cell-mediated immunity and protection against blood stages of Plasmodium falciparum]. 812 17

Plasma samples from children with mild and severe Plasmodium falciparum malaria and from children with unrelated diseases were collected to investigate whether the clinical outcome of infection was associated with plasma factors which reflected the activity of different cells of the immune system. Children with severe P. falciparum malaria had significantly higher plasma levels of soluble IL-2R than children with mild malaria. Plasma levels of IL-2R and levels of parasitaemia were significantly correlated. Neither parasitaemia nor plasma levels of tumour necrosis factor-alpha (TNF-alpha), IL-6, lymphotoxin (LT), interferon-gamma (IFN-gamma), IL-4, soluble IL-4R or soluble CD8 differed significantly between the two groups of children with malaria. High plasma levels of soluble CD8 were associated with failure of lymphocytes to produce IFN-gamma in vitro following stimulation with P. falciparum antigen. We conclude that soluble IL-2R is a useful marker of disease severity independently of the association with levels of parasitaemia, and that functional regulation of different lymphocyte subsets occurs during acute malaria episodes.
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PMID:Increased plasma levels of soluble IL-2R are associated with severe Plasmodium falciparum malaria. 814 74

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