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 and human immunodeficiency virus (HIV) infection are major health problems in many areas in Sub-Saharan Africa. An interaction between malaria and HIV infection has been postulated, since both produce similar cellular immune responses, with a lowering of the CD4/CD8 lymphocyte ratio. The frequency of malaria parasitemia was examined in children born to HIV-seropositive and seronegative mothers attending regular postnatal visits. A prospective study on mother-to-infant transmission of HIV had been underway since 1989 in Queen Elizabeth Central Hospital, Blantyre, a major hospital in urban Malawi. Standard HIV serology was performed on pregnant women, after obtaining consent. To reduce the effect of selection bias and seasonality, HIV seropositive (case) and seronegative (control) mothers and their infants were enrolled at delivery. Children included in the study were 503 born to 494 HIV-seropositive mothers and 540 born to 536 HIV-seronegative mothers. At each 3-monthly postpartum visit a Giemsa-stained thick blood film from the child was examined for malaria parasites. Children born to HIV-seropositive mothers were tested for HIV antibodies at 12 and 18 months of age. Of the 353 children born to HIV-seropositive mothers, 82 children (23.2%) were found to be HIV seropositive by enzyme-linked immunosorbent assay and Western blotting at 12 and 18 months. No statistically significant difference was found in frequency of malaria parasitemia by maternal or infant HIV serostatus after controlling for child's age. There was, however, a significant trend of increase in high parasitemia with age, irrespective of the HIV serostatus of the mother or the child. The frequency of parasitemia was higher in the wet season than in the dry season. This study suggests that maternal or infant HIV infection does not alter susceptibility to, or the clinical course of, malaria in infants.
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PMID:Childhood malaria parasitaemia and human immunodeficiency virus infection in Malawi. 803 59

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

Splenic gamma delta T cells (CD4-, CD8-) increased more than 10-fold upon resolution of either Plasmodium chabaudi adami or P.c. chabaudi infections in C57BL/6 mice compared to controls. Similarly, a 10- to 20-fold expansion of the gamma delta T cell population was observed in beta 2-microglobulin deficient (beta 2-m0/0) mice that had resolved P.c. adami, P.c. chabaudi or P. yoelii yoelii infections. In contrast, increases in the number of splenic alpha beta T cells in these infected mice were only two to three-fold indicating a differential expansion of the gamma delta T cell subset during malaria. Because nucleated cells of beta 2-m0/0 mice lack surface expression of major histocompatibility complex class I and class Ib glycoproteins, our findings suggest that antigen presentation by these glycoproteins is not necessary for the increasing number of gamma delta T cells. Our observation that after resolution of P.c. adami malaria, C57BL/6 mice depleted of CD8+ cells by monoclonal antibody treatment had lower numbers of gamma delta T cells than untreated controls suggests that the demonstrated lack of CD8+ cells in beta 2-m0/0 mice does not contribute to the expansion of the gamma delta T cell population during non-lethal malaria.
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PMID:Expansion of the CD4-, CD8- gamma delta T cell subset in the spleens of mice during non-lethal blood-stage malaria. 834 45

We utilized a definitive model of CD8+ T cell deficiency, the beta 2-microglobulin-deficient (beta 2-m0/0) mouse, to determine whether CD8+ T cells are required in the resolution of blood-stage malaria. In a parallel experiment, C57Bl/6 mice treated with anti-CD8 mAb showed significantly higher levels of parasitemia than untreated C57Bl/6 control mice at several points during the infection. This finding suggests some role for CD8+ cells in containing malaria. However, the beta 2-m0/0 mice, which are genetically blocked from expressing MHC class I or class Ib glycoproteins and therefore have < 2.5% of the normal number of CD8+ T cells, nevertheless resolved infections with three virulence variants of murine Plasmodium. The resolution of Plasmodium chabaudi adami, Plasmodium yoelii yoelii 17X, and Plasmodium chabaudi chabaudi AS infections by beta 2-m0/0 mice in the virtual absence of CD8+ cells demonstrates that these cells are not required to suppress murine malaria and that the suppression mechanism is not MHC class I restricted. The similarity of the time-course for resolution of infection in beta 2-m0/0 and intact control mice with all three subspecies of Plasmodium further supports the lack of a requirement for CD8+ T cells in the suppression of malarial parasitemia.
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PMID:Resolution of blood-stage malarial infections in CD8+ cell-deficient beta 2-m0/0 mice. 837 74

The kinetics of the gamma delta T-cell response was analysed in the context of the overall haematological response in subjects experimentally infected with sporozoites of Plasmodium falciparum. Numbers of gamma delta and alpha beta T cells and NK cells declined markedly during infection to reach minimum values 12-13 days post-infection when the patients were ill. This decline commenced from the beginning of the erythrocytic cycle and well before parasites could be detected microscopically and clinical symptoms developed. Platelet numbers also declined. In vivo activation of gamma delta T cells was evident with sequential up-regulation of the activation markers CD69 and HLA-DR. gamma delta T cell numbers were highest after treatment with the majority being CD4-CD8-, HLA-DR+ and showing reduced CD45RA expression. Contrary to some published observations gamma delta T-cell percentages remained within the normal range. Little evidence of upregulation of activation or memory markers was observed in the alpha beta T-cell population. In vitro proliferative responses to malaria antigen which involve gamma delta T cells were lost as the infection progressed and the lymphocyte count declined but these could be restored with the addition of exogenous IL-2 to cultures. The authors findings are consistent with a protective and/or immunomodulatory role for gamma delta T cells in malaria.
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PMID:Experimental human Plasmodium falciparum infections: longitudinal analysis of lymphocyte responses with particular reference to gamma delta T cells. 863 2

We determined the requirement for selected lymphocyte subsets and cytokines in the pathogenesis of experimental murine cerebral malaria (CM) by using gene-targeted knockout and mAb-suppressed mice. Plasmodium berghei ANKA infection induced CM in A 0/0 mice, which lack expression of surface MHC class II glycoproteins and consequently express a severe and chronic reduction in numbers of CD4+ T cells. However, when A 0/0 mice, which are on a C57BL/6 x 129 genetic background, or immune-intact C57BL/6 controls treated with anti-CD4 mAb were infected, none developed CM. The latter finding confirms an earlier report that CD4+ T cells are required for CM to occur and additionally indicates that the reduced numbers of CD4+ T cells present in A 0/0 mice are sufficient for CM development. Neither the recently described CD4+, NK1.1+ T cell subset shown to be present in A 0/0 mice nor traditional NK cells seem to be required for the induction of CM because A 0/0 and C57BL/6 mice severely depleted of both NK1.1+ populations with mAb developed CM as readily as did normal Ig-treated controls. Deficiency of Th1-associated cytokines (IFN-gamma or IL-2) in mice by gene-targeted disruptions completely inhibited CM development, whereas the lack of Th2-associated cytokines (IL-4 or IL-10) did not prevent this disease. Our observation that B cell-deficient JHD and microMT mice developed CM provides evidence that neither B cells, their products, nor B cell Ag presentation are a requisite for CM pathology. We further observed that neither beta 2m 0/0 knockout mice, which lack CD8+ alpha beta T cells, nor C57BL/6 mice depleted of CD8+ T cells with anti-CD8 mAb treatment developed CM, leading us to conclude that CD8+ T cells are also crucial for the development of CM.
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PMID:Participation of lymphocyte subpopulations in the pathogenesis of experimental murine cerebral malaria. 875 47

The various stages of Plasmodium falciparum (sporozoites and liver stages, asexual blood stages and gametocytes) each interact in a particular way with the human immune system. Specific immunity against the liver stages is achieved through a coordinated action of CD8 T cells and specific antibodies, the latter in collaboration with NK cells and macrophages. In this reaction, interferon-gamma plays an essential role. A non-specific "concomitant" immunity against sporozoites is based on a cytokine reaction, elicited by the blood stages. In practice, the high variability in the immunogenic structures of the sporozoite precludes completely protection against recurrent infections. The spleen macrophages have a pivotal role in the immune defense against the asexual blood stages. The elimination of merozoites and parasitized red blood cells (RBC) is facilitated by specific antibodies, produced under the control of CD4 T cells. There are, however, multiple mechanisms of immune deviation, suppression and evolutionary adaptation, which inhibit a sterilizing immunity against the blood stages. Nevertheless, symptoms may be absent in exposed adults, even when parasitemia persists. This clinical resistance, however, is relatively short-lived, once exposition is interrupted. The observation that HIV infection has no adverse effect on malaria also is a remarkable but consistent finding. All these data indicate that a strong T cell-mediated immune memory is absent in human P. falciparum infections. Cerebral malaria and some other serious complications are the consequence of insufficient elimination of parasitized erythrocytes by the spleen, presumably in combination with parasite factors (particular variant surface structures) and with human host genetics (HLA type, blood group etc.). Parasitized RBC massively stick to the endothelium of the micro-vessels and non-parasitized RBC roset around the parasitized ones. Eventually, serious problems in the micro-perfusion and in the local metabolism occur and organ failure may finally ensue. The immune reaction against the surface-antigens of the sexual stage is limited and insufficient, most probably for similar reasons as in the asexual stages. Internal structures of the gametocytes, however, are highly immunogenic, but, unfortunately. Normally cannot be reached by the immune system. Based on these fundamental data, some of the perspectives of vaccination and new therapeutic tools are critically discussed.
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PMID:[Immunology of human Plasmodium falciparum malaria]. 884 94

The role of T-cells in development of experimental cerebral malaria was analysed in C57B1/6J and C57B1/10 mice infected with Plasmodium berghei K173 or Plasmodium berghei ANKA by treatment with anti-CD4 or anti-CD8 mAbs. Mice were protected against cerebral malaria (CM) when anti-CD4 or anti-CD8 mAbs were injected before or during infection. Even in mice in end-stage disease, i.e. with a body temperature below 35.5 degrees C, treatment with anti-CD4 or anti-CD8 antibodies or the combination protected against CM, whereas chloroquine treatment was completely ineffective in inhibiting further development of the cerebral syndrome.
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PMID:Depletion of CD4+ or CD8+ T-cells prevents Plasmodium berghei induced cerebral malaria in end-stage disease. 901 Oct 69

Lymphocyte subset distributions and activation in the peripheral blood were studied in 39 patients with acute malaria and 16 healthy controls from Addis Ababa and Nazareth, Ethiopia. As confirmed by polymerase chain reaction (PCR), 15 patients were infected with Plasmodium falciparum (Pf), 17 with P. vivax (Pv) and seven were double-infected (Di) with both Pf and Pv. Three-colour flow cytometry was used for phenotyping. Total leucocyte and lymphocyte counts were lower in malaria patients than in controls. The T cell count was reduced in Pf patients, while in the Pv and Di patients there was a reduction in the natural killer (NK) cell count. The CD4/CD8 ratio remained unchanged. gammadelta+ T cells were significantly elevated in Pf and Di patients, but not in Pv patients. The increase in gammadelta+ T cells was mostly due to an increase in Vdelta1+ cells. Analyses of cellular activation indicated by the expressions of CD25 and HLA-DR revealed significantly higher numbers of activated CD3+ cells, including gammadelta+ T cells, in all patient groups compared with controls. Our results thus indicate that in acute malaria illness there is a complex pattern of change in lymphocyte subset distribution and activation, including gammadelta+ T cells. These patterns in Pf infection seem to be distinct from those in Pv infection.
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PMID:Lymphocyte activation and subset redistribution in the peripheral blood in acute malaria illness: distinct gammadelta+ T cell patterns in Plasmodium falciparum and P. vivax infections. 909 8

Liver-stage antigen 1 (LSA1) is one of several pre-erythrocytic antigens considered for inclusion in a multiantigen, multistage subunit vaccine against falciparum malaria. We examined T-cell proliferation and cytokine responses to peptides corresponding to amino acids 84 to 107, 1813 to 1835, and 1888 to 1909 of LSA1 in asymptomatic adults living in an area of Papua New Guinea where malaria is holoendemic. Whereas T cells from North Americans never exposed to malaria did not respond to any of the peptides, those from 52 of 55 adults from the area where malaria is endemic had vigorous proliferation responses to one or more of the LSA1 peptides (mean stimulation indices of 6.8 to 7.2). Gamma interferon (IFN-gamma) production driven by LSA1 peptides ranged from 34 to more than 3,500 pg/2 x 10(6) cells, was derived primarily from CD8+ cells, and was dissociated from T-cell proliferation. The frequencies of IFN-gamma response to the amino acid 1819 to 1835 and 1888 to 1909 peptides were significantly greater than that to the amino acid 84 to 107 peptide (87 and 88% versus 33% of subjects; P < 0.0001). In contrast to proliferation and IFN-gamma, interleukin 4 (IL-4) and/or IL-5 responses to LSA1 peptides were detected in only 18% of the subjects. These data show that T-cell immunity to epitopes in the N- and C-terminal regions of LSA1 are common in persons living in this area of Papua New Guinea where malaria is endemic. The dominance of type 1 CD8 cell IFN-gamma responses is consistent with a role for this T-cell population in immunity to liver-stage Plasmodium falciparum in humans.
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PMID:T-cell immunity to peptide epitopes of liver-stage antigen 1 in an area of Papua New Guinea in which malaria is holoendemic. 939 99

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