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 origin of illness and pathology in malaria is now largely attributed to high levels of circulating tumour necrosis factor (TNF), released from cells of macrophage lineage after triggering by the products of malarial schizogony. The role of lymphocytes and their products in malarial pathology is not yet known. This paper reports the presence of a related cytokine, lymphotoxin, which is produced only by lymphocytes, in the serum of malarial patients. This is the first report of raised serum levels of lymphotoxin in a systemic disease state. When injected into mice, recombinant human lymphotoxin induced hypoglycaemia and increased serum levels of interleukin-6. These changes, which are seen in severe experimental and human malaria, were also provoked by TNF. Both of these cytokines acted synergistically with interleukin-1, which has also been reported to be raised in malaria, to produce these alterations. These observations imply that lymphotoxin, as well as TNF, may contribute to the hypoglycaemia and raised serum interleukin-6 observed in malaria. This reduces the likelihood of effectively blocking the pathology of this disease by the use of neutralizing antibody directed against just one member of this family of functionally overlapping mediators.
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PMID:Increased lymphotoxin in human malarial serum, and the ability of this cytokine to increase plasma interleukin-6 and cause hypoglycaemia in mice: implications for malarial pathology. 128 10

Tumor necrosis factor is a cytokine that participates in the mediation of numerous diseases associated with inflammation, cachexia, shock, and tissue injury. Early studies of the biology of TNF delineated its hormonal actions as well as its systemic toxicity. More recent investigations have drawn attention to its paracrine actions that predominate when it is produced locally in the brain or vital organs. For instance, when compartmentalized production of TNF occurs in the central nervous system it directly mediates fever, anorexia, and altered whole-body metabolism. Since these changes are mediated within the neural network they occur independently of simultaneously sampled serum TNF levels. These paracrine actions of TNF have implications for diseases associated with production of TNF in tissues (e.g. HIV cerebritis, multiple sclerosis, cerebral malaria and cancer), because they may differ markedly from the hormone like-actions associated with systemic release. Since TNF may be beneficial in some diseases yet injurious in others, both the hormonal and paracrine actions must be precisely defined in order to formulate novel treatment strategies based on either enhancing its useful effects, or suppressing toxicity.
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PMID:Tumor necrosis factor in metabolism of disease: hormonal actions versus local tissue effects. 134 May 27

The cytokine tumor necrosis factor and other as yet unidentified factor(s) which together mediate the killing of intraerythrocytic malaria parasites are transiently elevated in sera during paroxysms in human Plasmodium vivax infections in non-immunes. These factors which included TNF and parasite killing factor(s) are associated with the clinical disease in malaria to the extent that their transient presence in infection sera coincided with paroxysms, the the most pronounced clinical disturbances of P. vivax malaria and secondly because their levels were markedly lower in paroxysm sera of semi-immune patients who were resident of an endemic area. Further, a close parallel was obtained between serum TNF levels and changes in body temperature that occur during a P. vivax paroxysm in non-immune patients, suggesting a causative role for TNF in the fever in malaria. P. vivax rarely if ever cause complicated clinical syndromes. Nevertheless serum TNF levels reached in acutely ill P. vivax patients were as high as in patients suffering from cerebral complications of P. falciparum malaria as reported in studies from the Gambia. Cytokine profiles and other changes accompanying clinical disease in P. vivax and P. falciparum malaria are compared in this paper with a view to discussing the potential role of cytokines in the causation of disease in malaria.
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PMID:The role of cytokines in Plasmodium vivax malaria. 134 26

T-cell-mediated immunity to a virulent strain of Plasmodium berghei NK65 (Pb NK65) and to an attenuated derivative (Pb XAT) of the strain were examined in CBA mice by the administration of monoclonal antibodies against T-cell subsets or interferon-gamma (IFN-gamma). The injection of anti-CD8+ or anti-IFN-gamma delayed the mortality of mice infected with Pb NK65, although it did not affect the parasitaemia. In the late stage of PB NK65 infection, T cells, especially CD8+ T cells, were increased in number in the liver at the expense of splenic CD8+ T cells. These CD8+ T cells released IFN-gamma in culture without antigen stimulation and were thought to induce tumour necrosis factor-alpha (TNF-alpha) production by the cells in the liver. In mice infected with Pb XAT, or mice primed with Pb XAT and then challenged with Pb NK65, CD4+ T cells had a crucial role in preventing parasite growth and in protective immunity. IFN-gamma was again the key molecule in protective immunity. These results suggest that T cells stimulated with malaria antigen play important roles both in protective immunity and pathogenesis depending upon their subsets; CD8+ T cells in pathogenesis, and CD4+ T cells in protective immunity. These apparently contradictory responses may be mediated by the same cytokine, IFN-gamma.
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PMID:The role of T cells in pathogenesis and protective immunity to murine malaria. 135 May 70

Protective immunity to asexual malaria parasites appears to be mediated predominantly by the CD4+ subset of T lymphocytes. To examine the role of this T-cell population in the immune response to the murine malaria parasite Plasmodium chabaudi, CD4+ clones derived from infected mice were raised and propagated in vitro. Analysis of the reactivity of clones responsive to parasite antigen demonstrated that the CD4+ cell response is heterogeneous and is consistent with the idea of two functionally distinct CD4+ subsets. Those populations derived early during primary infection secreted interleukin-2 (IL-2) and interferon-gamma (IFN-gamma) upon antigenic stimulation in vitro, i.e. they had a cytokine repertoire typical of the delayed-type inflammatory T-helper 1 (Th1) CD4+ subset. In contrast, cells taken after clearance of a secondary infection produced IL-4 and acted as effective helper cells for anti-malarial antibody (Ab) synthesis in vitro, and thereby had the characteristics of Th2 cells. The appearance in vivo of Th1 and then Th2 clones specific for P. chabaudi-parasitized erythrocytes (pRBC) supports the proposal from limiting culture analyses that for this malaria parasite resolution of primary parasitaemia is predominantly through the action of cytokines rather than Ab, and that final clearance requires helper cells and specific immunoglobulin.
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PMID:Functional characterization of protective CD4+ T-cell clones reactive to the murine malaria parasite Plasmodium chabaudi. 135 18

A natural body protein is probably a major cause of the deadliest complication of malaria, a finding that could point toward new methods of treatment. Studies in an experimental model indicate that tumor necrosis factor (TNF), a protein also known as cachectin, is an essential element in highly fatal cerebral malaria. This contention is supported by the following observations. First, during the course of an infection by P. berghei ANKA strain, mice of a CM-susceptible strain express markedly elevated levels of TNF in their serum at the time that neurological signs are evident. Second, in contrast, either mice from nonsusceptible strains, susceptible strains depleted of CD4+ T lymphocytes, or susceptible mice inoculated with malaria organisms incapable of producing CM all fail to express high serum TNF activity. Third, passive immunization against mouse TNF significantly prolong the survival of P. berghei-infected CBA/Ca mice, and prevented the development of neurologic signs to an extent that was highly significant. Treatment with the anti-TNF antibody also prevents the histopathological lesions that are characteristic of CM, i.e. plugging of cerebral vessels by macrophages, lymphoid and parasitized erythrocytes. We have recently shown that this increased TNF release and macrophage accumulation are schematically made of two components, each mediated by different cytokines presumably released by stimulated CD4+ T lymphocytes: (a) a quantitative component: increased accumulation of macrophages results from the concomitant release of IL-3 and GM-CSF, and (b) a qualitative component: macrophage number has not only to be raised, but macrophages need to be activated by IFN-gamma. Thus, CM appears to be the result of a cytokine cascade mediated by the immune response. TNF might also be involved in the pathogenesis of human cerebral malaria. Indeed, we have recently shown that in african children with falciparum malaria, elevated serum concentrations of this molecule are associated with severe neurological involvement and fatal outcome. Clinical trials of treatment with monoclonal anti-TNF antibodies are presently underway in an attempt to reduce mortality and morbidity in african children with cerebral malaria.
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PMID:Essential role of tumor necrosis factor and other cytokines in the pathogenesis of cerebral malaria: experimental and clinical studies. 135 36

Malaria transmission-blocking immunity has been studied in natural malarial infections in man, during infections in animals and following artificial immunization of animals with sexual stage malaria parasites. Effective immunity, which prevents infectivity of a malarial infection to mosquitoes, has been observed under all of these circumstances. Two general types of effector mechanism have been identified. One is an antibody mediated mechanism which acts against the extracellular sexual stages of the parasite within the midgut of a blood feeding mosquito. The other is a cytokine mediated mechanism which inactivates the gametocytes of the parasites while still in the circulation of the vertebrate host. Both effects have been observed during natural infections and following artificial immunization. The basis of induction of transmission-blocking immunity, including the nature of the memory for such immunity, however, may be very different in different host/parasite systems and during natural infection or following artificial immunization. Following artificial immunization a strong immune memory for transmission blocking immunity has been observed in animal systems. By contrast, following natural infections in man immune memory for transmission blocking immunity has been found to be weak and short lived if it occurs at all. It is suggested that the immunogens which induce natural transmission blocking immunity may be CD4+ independent.
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PMID:Transmission immunity in malaria: reflections on the underlying immune mechanisms during natural infections and following artificial immunization. 136 1

The clinical complications associated with severe and cerebral malaria occur as a result of the intravascular mechanical obstruction of erythrocytes infected with the asexual stages of the parasite, Plasmodium falciparum. We now report that a primary P. falciparum-infected erythrocyte (parasitized red blood cell [PRBC]) isolate from a patient with severe complicated malaria binds to cytokine-induced human vascular endothelial cells, and that this adhesion is in part mediated by endothelial leukocyte adhesion molecule 1 (ELAM-1) and vascular cell adhesion molecule 1 (VCAM-1). PRBC binding to tumor necrosis factor alpha (TNF-alpha)-activated human vascular endothelial cells is partially inhibited by antibodies to ELAM-1 and ICAM-1 and the inhibitory effects of these antibodies is additive. PRBCs selected in vitro by sequential panning on purified adhesion molecules bind concurrently to recombinant soluble ELAM-1 and VCAM-1, and to two previously identified endothelial cell receptors for PRBCs, ICAM-1, and CD36. Post-mortem brain tissue from patients who died from cerebral malaria expressed multiple cell adhesion molecules including ELAM-1 and VCAM-1 on cerebral microvascular endothelium not expressed in brains of individuals who died from other causes. These results ascribe novel pathological functions for both ELAM-1 and VCAM-1 and may help delineate alternative adhesion pathways PRBCs use to modify malaria pathology.
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PMID:Human vascular endothelial cell adhesion receptors for Plasmodium falciparum-infected erythrocytes: roles for endothelial leukocyte adhesion molecule 1 and vascular cell adhesion molecule 1. 138 78

Serum cytokine profiles were evaluated in immunized and nonimmunized human volunteers after challenge with infectious Plasmodium falciparum sporozoites. Three volunteers had been immunized with x-irradiated sporozoites and were fully protected from infection. Four nonimmune volunteers all developed symptomatic infection at which time they were treated. Sera from all volunteers were collected at approximately 20 time points during the 28-d challenge period; levels of IL-1 alpha, IL-1 beta, IL-2, IFN-gamma, tumor necrosis factor-alpha, IL-4, IL-6, granulocyte macrophage-colony-stimulating factor, and soluble CD4, CD8, and IL-2 receptor (sCD4, sCD8, and sIL-2R, respectively) were determined by ELISA. C-reactive protein (CRP) was assayed by radial immunodiffusion. Parasitemic subjects developed increases in CRP and IFN-gamma, with less marked increases in sIL-2R and sCD8; the other cytokines tested did not change. CRP increases were abrupt and occurred at the onset of fever (day 14 after challenge). IFN-gamma increases were also abrupt, preceding those of fever and CRP by one day. Increases in sIL-2R and sCD8 were more gradual. Increases in fever, CRP, IFN-gamma, and sCD8 were concordant in each volunteer. Early IL-6 increases were noted in the protected vaccinees. Thus, after challenge with virulent P. falciparum, unique systemic cytokine profiles were detectable both in immunized, nonparasitemic volunteers and in unvaccinated, parasitemic subjects. The contrasting cytokine profiles in the two groups may relate to mechanisms of protection and immunopathology in experimental human malaria.
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PMID:Serum cytokine profiles in experimental human malaria. Relationship to protection and disease course after challenge. 164 22

A longitudinal study was conducted between October 1989 and February 1990 in a malaria holoendemic area of Gabon to determine the plasma concentration of various cytokines in individuals continuously exposed to infection with malaria parasites. No cases of severe malaria were seen and fever was the main presenting symptom of clinical malaria. Parasite rates were highest in children 6-9 years old but clinical malaria was seen essentially in children below 6 years of age. The incidence of clinical malaria was highest in November and February corresponding to the beginning and end of heavy rains respectively. Parasite rates did not show any seasonal variations. Overall, there was no seasonal variation in plasma cytokine levels but both IL-6 and IL-4 levels were highest in February. Plasma concentration of TNF-alpha and IFN-gamma were higher in parasitaemic than aparasitaemic individuals and donors who had clinical malaria had higher levels of TNF-alpha, IFN-gamma and IL-6 than asymptomatic parasitaemic donors. There was a negative correlation between age of the individual and the concentration of plasma TNF-alpha and IFN-gamma suggesting that the production of these cytokines could be modulated by repeated malarial infections. Asymptomatic parasitaemic children 5-7 years of age had higher levels of plasma TNF-alpha than clinically similar children below or above this age group suggesting that refractoriness to the clinical effects of TNF-alpha may be an important factor in the ability of these children to resist clinical malaria.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytokines in the pathogenesis of malaria: levels of IL-I beta, IL-4, IL-6, TNF-alpha and IFN-gamma in plasma of healthy individuals and malaria patients in a holoendemic area. 166 45

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