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)

Malaria infection has long been associated with diminished T cell responses in vitro and more recently in experimental studies in vivo. Suppression of T cell-proliferative responses during malaria has been attributed to macrophages in a variety of murine and human systems. More recently, however, attention has been directed at the role of dendritic cells in this phenomenon, with several studies suggesting that maturation of dendritic cells is inhibited in vitro by the presence of malaria-infected E. In the studies reported here, we have examined the function of dendritic cells taken directly from infected mice. We found that they express high levels of costimulatory proteins and class II MHC, can activate naive T cells to produce IL-2 as efficiently as dendritic cells from uninfected mice, and support high levels of IFN-gamma production by naive T cells through an IL-12-dependent mechanism. Dendritic cells from infected mice also support higher levels of TNF-alpha production by naive T cells. These same dendritic cells present parasite Ag to a malaria-specific T cell hybridoma, a finding that demonstrates that dendritic cells participate in the generation of Ag-specific immunity during infection. Our findings challenge the contention that dendritic cell function is inhibited by malaria infection.
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PMID:Dendritic cells from malaria-infected mice are fully functional APC. 1468 57

To investigate if severe malarial anemia is associated with specific cytokine overproduction, we evaluated serum levels of soluble Fas ligand (sFasL), tumor necrosis factor (TNF-alpha) and interleukin-10 (IL-10) from three groups of young children with Plasmodium falciparum infection (asymptomatic cases, uncomplicated malaria cases and severe malarial anemia cases), in a hyperendemic area of Gabon. In uncomplicated cases, only TNF levels were significantly (p < 0.001) increased in comparison to asymptomatic cases with P. falciparum infection. High levels of sFasL, TNF-alpha and IL-10 were associated with low hemoglobin concentrations, sFasL levels were significantly higher in children with severe malarial anemia (p < 0.001) as compared to both other groups. The parasite density was positively correlated with IL-10, TNF-alpha and sFasL levels. TNF-alpha and sFasL, but not IL-10 or parasitemia, were independent predictors of hemoglobin concentrations. These results suggest that, in malaria, a specific dysregulation of the cytokine balance may lead to complications such as severe anemia.
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PMID:Severe malarial anemia associated with increased soluble Fas ligand (sFasL) concentrations in Gabonese children. 1471 16

The tumor necrosis factor (TNF-alpha) is a cytokine known as a mediator of inflammation and immunity. The genes coding the tumor necrosis factors alpha and beta are considered part of class III major histocompatability complex. The 2 involved genes have been mapped to chromosome 6. Certain mutations in the TNF-alpha gene are believed to be causative for increased production of the cytokine. In this respect, the most common variant is the TNF2 allele, a single nucleotide substitution of guanine by adenine at position -308 relative to the promoter transcription site of the gene. Elevated production of TNF-alpha has been found to be associated with several infectious diseases including malaria. Elevated levels of TNF-alpha have also been observed to associate with increased risk of preterm delivery, chorioamnionitis and fetal morbidity including encephalopathy. The present article reviews the genetics of the cytokine TNF-alpha and discusses its suitability as a candidate marker for assessment of increased risk of preterm delivery and fetal morbidity.
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PMID:The cytokine TNF-alpha. Genetics and suitability for prenatal risks assessment. 1496 5

Bacterial DNA (bDNA) and lipopolysaccharide (LPS) are potent activators of immune cells such as monocytes and macrophages, which contribute to systemic inflammatory response syndrome (SIRS) and sepsis. To date, no effective anti-sepsis drugs have been developed for clinical use. Chloroquine (CQ), a diprotic weak base traditionally used for treating malaria, was recently shown to decrease cytokine release from macrophages induced by LPS and CpG oligonucleotide (CpG ODN). In the present study, Escherichia coli DNA (EC DNA), CpG ODN and LPS were used to induce SIRS/sepsis in animal models. We found that 30 mg/kg of CQ could protect mice from lethal challenge by CpG ODN and LPS, and 25 mg/kg of CQ could decrease serum TNF-alpha and IL-6 in rats injected with sublethal doses of CpG ODN and LPS. In addition, treatment of murine macrophage ANA-1 cells with 2 mM CQ potently inhibited the release of TNF-alpha, IL-6 and IL-12 induced by CpG ODN and LPS. In human peripheral blood mononuclear cells (hPBMC), 100-200 microM CQ almost completely abrogated release of both TNF-alpha and IL-6 induced by CpG ODN and LPS, whereas IL-6 release induced by EC DNA was not significantly affected by 50 microM CQ. Furthermore, CQ reduced the expression of TLR9 and TLR4 mRNA and the activation of NFkappaB and AP-1 stimulated by CpG ODN and LPS in ANA-1 cells. Flow cytometry and confocal microscopy revealed that CQ increased the accumulation of CpG ODN within ANA-1 cells without influence on its uptake, suggesting that the delayed degradation of CpG ODN was associated with the reduction of proinflammatory cytokine release from the cells. Our results demonstrated that CQ-mediated protection of lethal challenge by CpG ODN and LPS was associated with the reduction of proinflammatory cytokine release.
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PMID:Chloroquine protects mice from challenge with CpG ODN and LPS by decreasing proinflammatory cytokine release. 1499 14

Malaria infection can cause cerebral symptoms without parasite invasion of brain tissue. We examined the relationships between brain biochemistry, bioenergetics, and gene expression in murine models of cerebral (Plasmodium berghei ANKA) and noncerebral (P. berghei K173) malaria using multinuclear NMR spectroscopy, neuropharmacological approaches, and real-time RT-PCR. In cerebral malaria caused by P. berghei ANKA infection, we found biochemical changes consistent with increased glutamatergic activity and decreased flux through the Krebs cycle, followed by increased production of the hypoxia markers lactate and alanine. This was accompanied by compromised brain bioenergetics. There were few significant changes in expression of mRNA for metabolic enzymes or transporters or in the rate of transport of glutamate or glucose. However, in keeping with a role for endogenous cytokines in malaria cerebral pathology, there was significant up-regulation of mRNAs for TNF-alpha, interferon-gamma, and lymphotoxin. These changes are consistent with a state of cytopathic hypoxia. By contrast, in P. berghei K173 infection the brain showed increased metabolic rate, with no deleterious effect on bioenergetics. This was accompanied by mild up-regulation of expression of metabolic enzymes. These changes are consistent with benign hypermetabolism whose cause remains a subject of speculation.
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PMID:Brain gene expression, metabolism, and bioenergetics: interrelationships in murine models of cerebral and noncerebral malaria. 1500 95

During Plasmodium falciparum infection leading to cerebral malaria, mechanisms such as cytokine generation and cytoadherence of parasitized red blood cells (PRBC) to post-capillary venules are clearly involved. We demonstrated that PRBC adhesion to human lung endothelial cells (HLEC) upregulated TNF-alpha superfamily genes and genes related to apoptosis and inflammation. Apoptosis was confirmed by standard techniques (annexin-V binding, genomic DNA fragmentation, and caspases activation). This apoptotic process involved the cytoplasmic pathway from a death receptor (DR-6, Fas, TNF-R1) through caspase 8, and the mitochondrial pathway though Bad and caspase 9 activation. Oxidative stress has been implicated in apoptosis induction in various pathological models. Superoxide anion (O(2)*(-)) is a key molecule in the oxidative stress pathway which can form peroxynitrites (ONOO(-)) in association with nitric oxide (NO*). Even though the role of NO* in malaria physiopathology is still a matter of controversy, we demonstrated that PRBC-induced apoptosis in endothelial cells is mediated through an oxidative stress pathway. The inhibition of NO* synthesis protected the endothelial cells suggesting a deleterious role for NO*. In addition, the superoxide dismutase mimetic, MnTBAP, also protected the HLEC against PRBC-induced apoptosis, revealing the role of O(2)*(-) and ONOO(-).
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PMID:Redox-dependent apoptosis in human endothelial cells after adhesion of Plasmodium falciparum-infected erythrocytes. 1503 96

Passage of parasites and their antigens across the placenta occurs with metazoan as well as protozoan parasites, and this study addressed to which extent exposure to and infection of mothers with Plasmodium spp. and Entamoeba histolytica/dispar has sensitized their offspring for parasite-specific immune responses. While at delivery none of the mothers presented with an acute malaria attack, 42% were seropositive for P. falciparum. In half of the mothers cysts of E. histolytica/dispar were detected in stool specimen, 51% of them were found seropositive for E. histolytica, and E. histolytica-specific immunoglobulin A (IgA) responses were detected in neonates of seropositive mothers as well. Umbilical cord blood cells (UCBC) from neonates, when activated with the mitogen phytohaemagglutinine (PHA) and bacterial streptolysin O (SL-O), released significantly less interferon (IFN)-gamma, interleukin (IL)-10 and tumor necrosis factor (TNF)-alpha into cell culture supernatants than peripheral blood cells (PBMC) of mothers. In response to Plasmodium- and Entamoeba-specific antigens UCBC and PBMC produced equal amounts of IL-1beta, TNF-alpha, IFN-gamma and IL-5, but PBMC from mothers secreted significantly more IL-10. Parasite-specific production of inflammatory and Th(1)- and Th(2)-type cytokines was similar in newborns of Plasmodium and Entamoeba seropositive and seronegative mothers. In summary, repeated exposure and subclinical infection of mothers with E. histolytica or P. falciparum will suffice to prime in utero their children for inflammatory and both Th(1)- and Th(2)-type cytokine responses, and such broad and mixed cytokine spectrum may be of advantage upon secondary parasite challenge in later life.
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PMID:Parasite-specific antibody and cytokine profiles in newborns from Plasmodium falciparum and Entamoeba histolytica/dispar-infected mothers. 1505 89

Cytoadherence of parasitized red blood cells (PRBCs) to postcapillary venules and cytokine production are clearly involved in the pathogenesis of cerebral malaria. Nitric oxide and TNF-alpha have been proposed as major effector molecules both in protective and physiopathological processes during malaria infections. Nitric oxide production has been shown to be induced by engagement of CD23 antigen. This study aimed to investigate the potential role of the CD23/nitric oxide pathway in the control of the cytoadherence of PRBCs on human endothelial cells. We demonstrate that normal human lung endothelial cells (HLECs) are able to express the low affinity receptor for IgE (Fc in RII/CD23), following cell incubation with interleukin 4 or PRBCs. Ligation of the CD23 antigen by a specific anti-CD23 monoclonal antibody at the cell surface of HLECs was found to induce iNOS mRNA and protein expression, NO release and P. falciparum killing. In addition, the specific CD23-engagement on these cells also induced a significant decrease in ICAM-1 expression, an adhesion molecule implicated in PRBCs cytoadherence. These data not only described for the first time the expression of a CD23 antigen at the cell surface of endothelial cells but also suggest a possible new regulatory mechanisms via the CD23/NO pathway during malaria infection.
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PMID:Induction of the CD23/nitric oxide pathway in endothelial cells downregulates ICAM-1 expression and decreases cytoadherence of Plasmodium falciparum-infected erythrocytes. 1527 65

Accumulating evidence indicates that platelets play a critical role in the pathogenesis of experimental severe malaria (ESM) elicited by infection with Plasmodium berghei. Mice injected on day 1 of P berghei infection (early) with either anti-CD41 or anti-CD61 monoclonal antibodies (mAbs) exhibited significantly (P<.001) increased survival from ESM compared with infection controls, indicating that platelets function early in the disease. In contrast, groups of mice treated on days 4, 5, and 6 (late) with anti-CD41 mAb exhibited similar mortality as controls. Because platelet depletion by anti-CD41 mAb on day 4 of infection did not protect mice, and platelet adherence occurs on day 6, platelet adherence to endothelium is not required to mediate malarial pathogenesis. Few platelet microparticles were detected in the blood during the course of malaria, but large numbers of erythrocyte vesicles, microparticles, and debris were detected. The protective effect of early anti-CD41 mAb treatment was independent of the number of platelets, platelet microparticles, erythrocyte-platelet conjugates, and erythrocyte vesicles. Mice treated early with anti-CD41 mAb exhibited markedly altered cytokine production on day 4 of P berghei infection (increased interleukin 10 [IL-10], IL-1alpha, IL-6, interferon-gamma [IFN-gamma], and tumor necrosis factor alpha [TNF-alpha]; decreased IL-2) but no decline in coagulation factors compared with rat immunoglobulin G (IgG)-treated controls, indicating that platelets regulate the levels of pathogenic cytokines.
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PMID:Platelet depletion by anti-CD41 (alphaIIb) mAb injection early but not late in the course of disease protects against Plasmodium berghei pathogenesis by altering the levels of pathogenic cytokines. 1549 26

The frequency of P. falciparum-specific interleukin (IL)-2-, interferon (IFN)-gamma-, tumor necrosis factor (TNF)-alpha- and IL-10-expressing CD3+ cells was studied in healthy Gabonese children segregated according to their clinical presentation at admission to a longitudinal study of severe and mild malaria. The percentage of IL-2- and TNF-alpha- expressing P. falciparum-specific CD3+ cells was significantly higher in the children with prior mild malaria and less frequent reinfections compared to the children with prior severe malaria and more frequent reinfections. No differences were shown for P. falciparum-specific IFN-gamma and IL-10 expression within CD3+ cells and parasite-non-specific expression of IL-2, IL-4, IL-6, IL-10, IL-13, TNF-alpha, and IFN-gamma within the CD4+, CD8+, TCRgamma\delta+ CD3+ and CD94+ CD3- cell populations, indicating that immunological determinants regulating the susceptibility to malaria in age-matched children are parasite-specific. The ability of P. falciparum-specific T cells to mount a rapid IL-2 and TNF-alpha response might be of significance in preventing severe disease and reinfection.
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PMID:Plasmodium falciparum-specific interleukin-2 and tumor necrosis factor-alpha expressing-T cells are associated with resistance to reinfection and severe malaria in healthy African children. 1554 42

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