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)

Patients with acute Plasmodium falciparum malaria have defective cell-mediated immune responses to malaria-specific Ag (MA). This immunologic defect may partially explain the difficulty with which natural immunity to falciparum malaria develops and may have important implications for the efficacy of potential malaria vaccines in endemic areas. To investigate the basis of this immune defect, we have examined the capacity of PBMC from patients with acute falciparum malaria to produce IL-2 and to express I1-2R in response to Ag stimulation. The effect of exogenous IL-1 and IL-2 on lymphocyte proliferation was studied. Soluble IL-2R levels were measured in acute and convalescent sera. Our results showed that no detectable IL-2 was produced and no IL-2R were expressed by PBMC in response to MA during the acute infection. IL-2 production and IL-2R expression were also depressed when PBMC were exposed to streptococcal Ag. The specific immune defect was not reconstituted by the addition of graded doses of purified human IL-1 or IL-2 and could not be attributed to suppressor adherent cells. In contrast to the absence of IL-2 and cell-bound IL-2R, circulating soluble IL-2R was elevated in acute sera. These findings suggest that the lack of IL-2, through either a defect in its production or inhibition of its activity, may be the basis of the Ag-specific immune unresponsiveness in acute P. falciparum malaria.
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PMID:Defective production of and response to IL-2 in acute human falciparum malaria. 297 29

T cell-dependent, cell-mediated immune mechanisms have been shown to contribute to resistance against malaria. Because the identity of plasmodial Ag responsible for the activation of these protective immune responses remains unknown, a major step in isolating these potential immunizing agents will be the development of adequate screening procedures designed to identify important T cell Ag. This study focused on the isolation of protective T cell clones that may play a pivotal role in this process. A T cell clone designated CTR2.1 and two subclones derived from it adoptively transferred protection to athymic nude mice infected with Plasmodium chabaudi adami, a murine malarial parasite known to be recognized by protective thymus-dependent immune mechanisms. The protective T cell clone displayed a L3T4+, Lyt-2- surface phenotype and secreted both IFN-gamma and IL-2 after stimulation with solubilized parasites in vitro. This is the first report of results demonstrating a cloned T cell line capable of providing adoptive protection against malaria in vivo. More importantly, CTR2.1 and other protective T cell clones may provide for the identification of plasmodial antigenic epitopes recognized by important cell-mediated immune mechanisms during acute malarial infection.
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PMID:Adoptive protection against Plasmodium chabaudi adami malaria in athymic nude mice by a cloned T cell line. 312 38

The molecular characteristics of a serum IL-2 inhibitor were determined by fractionating active sera from normal and malaria-infected mice, and assaying inhibitory activity in blocking production and expression of IL-2 activity. Using isoelectric focusing and ion exchange chromatography, the activity resolved in a single peak (pI = 6.2). HPLC gel filtration resolved two peaks of activity (50,000 and 25,000 MW) which are probably related. The molecule is precipitated by 50% saturated ammonium sulphate, and is destroyed by heating above 56 degrees or by acidification below pH 4.
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PMID:Serum IL-2 inhibitor in mice. II. Molecular characteristics. 387 70

V gamma 9+ T cells from malaria non-exposed donors make proliferative responses to Plasmodium falciparum on in vitro stimulation. V gamma 9+ cells are strongly activated by components of the schizont stage of the parasite and by antigens released into the culture upon schizogony, while CD4+V gamma 9- cells are stimulated by the earlier stages of the parasite. Using reverse transcriptase-polymerase chain reaction (RT-PCR) we determined mRNA expression for 14 cytokines in highly purified V gamma 9+ cells enriched by positive selection after in vitro stimulation with P. falciparum schizont antigens. Interferon-gamma (IFN-gamma) and Tumor Necrosis Factor-alpha (TNF-alpha) were detected in all samples tested. The majority of samples also expressed TNF-beta, transforming growth factor-beta (TGF-beta) and Interleukin-8 (IL-8). Only occasional samples expressed IL-2, IL-5 and IL-10. Using the ELISPOT assay we found that a large fraction of the reactive V gamma 9+ cells produced IFN-gamma and that gamma delta T cells are the major producers of IFN-gamma in cultures stimulated with schizont antigens. The majority of V gamma 9+ cells in these cultures also express the membrane-bound form of TNF-alpha. Expression of these cytokines speaks for a cytolytic and/or inflammatory role of gamma delta cells in the response to malaria in non-exposed individuals.
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PMID:Cytokine profiles for human V gamma 9+ T cells stimulated by Plasmodium falciparum. 750 22

The expression of selected interleukin receptors by cloned CD4+ T cells specific for the murine malaria parasite Plasmodium chabaudi chabaudi (P. chabaudi) representative of the T-helper (Th) 1 and Th2 subsets was examined. Both sets of clones expressed receptors for those interleukins for which they had a growth factor requirement in vitro. Each Th1 clone expressed receptors for, and was responsive to, interleukin (IL)-2 and IL-4, while each Th2 clone expressed receptors for, and was responsive to, IL-2, IL-4 and IL-1. IL-1 receptor (IL-1R) expression by the Th1 clones was either negligible or could not be detected. The disparity in expression of IL-1R by the Th1 and Th2 clones was more clear-cut than has been previously reported and IL-1R provided a definitive phenotypic marker for clones of the Th2 subset. Should IL-1R expression prove to be a feature of other Th2 cells cultured long-term in vitro, this will be invaluable for investigations involving the phenotyping, depletion or selection of CD4+ T cells of either Th1 or Th2 subset.
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PMID:Expression of the IL-1 receptor discriminates Th2 from Th1 cloned CD4+ T cells specific for Plasmodium chabaudi. 751 28

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

In order to describe presumed paediatric malaria on a cell-immunological basis, the soluble receptors of IL-2 (sIL-2R) and tumour necrosis factor (sTNF-R55 and sTNF-R75) were quantified in highly exposed young Tanzanian children. Sera were obtained from 66 acute and 72 reported febrile patients during health post consultations and follow-ups and from 68 community controls. Levels of sIL-2R, sTNF-R55 and sTNF-R75 were significantly elevated during fever attacks, especially in very young children. Soluble TNF-R75 levels were most stable and those of sTNF-R55 least. Levels of sTNF-R55 were related to the magnitude of fever and thus appeared to reflect attack severity. Levels of sTNF-R75 were highly significantly associated with parasite density, indicating that this response is malaria-specific. The present study indicates that sTNF-R75 levels could become a useful immunological tool in malaria intervention studies, as they reflect changes in malaria-specific immune responses. Future studies should validate this potential in different endemic settings.
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PMID:Immunological markers of childhood fevers in an area of intense and perennial malaria transmission. 769 24

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

The development of antidisease immunity in children infected with Plasmodium falciparum is thought to be related to their immunologic responses to certain soluble parasite-derived exoantigens. We have assessed both cellular and humoral responses to these antigens in a cross-sectional study of a cohort of Gabonese schoolchildren who live in an area where malaria is holoendemic and perenially transmitted, in an attempt to identify immunologic markers of this early developing protective immunity. Concurrent parasitemia was found to have a significant influence on lymphoproliferative and antibody responses to the exoantigens. Individuals with higher levels of parasitemia had significantly lower proliferative and IgG isotype responses. Higher concentrations of specific IgG1 and IgG3, in particular, were associated with lower or no parasitemia, suggesting a possible protective role for these isotypes, whereas the level of IgM antibodies showed a trend towards higher concentrations in those with parasitemia, perhaps indicative of an exoantigen-induced T cell-independent response. Cytokine responses were unaffected by either the presence or the intensity of parasitemia and were dissociated from both proliferative and antibody response to the exoantigens. However, the mitogen-stimulated production of tumor-necrosis factor-alpha (TNF-alpha) and interleukin-6 (IL)-6 was positively correlated with the corresponding lymphoproliferative responses. At the individual level, mitogen-stimulated TNF-alpha, interferon-gamma, IL-2, and IL-6 responses were positively correlated, as were mitogen- and exoantigen-induced TNF-alpha. The results are discussed in the light of current knowledge of immune responses to the exoantigens and the development of protective immunity to P. falciparum.
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PMID:Immunologic responses to soluble exoantigens of Plasmodium falciparum in Gabonese children exposed to continuous intense infection. 781 Aug 4

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

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