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)

Pregnant women are highly susceptible to malaria, and human immunodeficiency virus (HIV) infection increases this susceptibility. In our previous studies, placental malaria (PM), HIV infection, and HIV/PM coinfection were all associated with decreased interferon (IFN)-gamma production by maternal placental (intervillous) blood mononuclear cells (IVBMC). This study investigated whether in vitro production of the IFN-gamma regulatory cytokines interleukin (IL)-12 and IL-18 and the chemokine IFN-inducible protein (IP)-10 by IVBMC is altered in women who have been exposed to malaria and are infected with HIV. IL-12 production from IVBMC was significantly lower in HIV-positive women, regardless of PM status, in contrast to HIV-negative, PM-negative women. IL-18 and IP-10 production by IVBMC was reduced in HIV-positive, PM-negative women but elevated in HIV-positive, PM-positive women. These results reveal a substantial impairment of IL-12 production by IVBMC in HIV-positive women, implicating this cytokine as a potentially critical regulator of malaria antigen-specific IFN-gamma responses in HIV-infected and HIV/PM-coinfected women.
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PMID:Immunity to placental malaria. III. Impairment of interleukin(IL)-12, not IL-18, and interferon-inducible protein-10 responses in the placental intervillous blood of human immunodeficiency virus/malaria-coinfected women. 1175 93

Interferon (IFN)- gamma plays an important role during immune responses against leishmaniasis. Production of IFN-gamma is regulated by interleukin (IL)-12, IL-18, and IL-15. Interferon-gamma-inducible protein (IP)-10 and monokine induced by IFN-gamma (Mig) are CXC chemokines, the production of which, at least in part, is IFN-gamma dependent. A follow-up study of individuals infected with Leishmania donovani was undertaken in an area of Ethiopia endemic for visceral leishmaniasis (VL). Plasma levels of IFN-gamma, IL-12p40, IL-18, IL-15, IP-10, and Mig were markedly elevated in symptomatic VL patients (n = 70) compared with individuals with asymptomatic Leishmania infections (n = 39), malaria patients (n = 13), and healthy controls from the endemic area (n = 12). A significant decrease of IFN-gamma and all mediators was observed after treatment of VL patients (n = 33). These data show that increased plasma levels of IFN-gamma, as well as the mediators involved in the production and the activity of this cytokine, are characteristic of active VL in humans, and may play an important immunopathogenic role. The data also suggest that in patients with VL, the production of type 1 cytokines is not depressed, but there appears to be an unresponsiveness to the stimuli of type 1 cytokines. The underlying causes of immunologic unresponsiveness remain a subject of further investigation.
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PMID:Elevated plasma levels of interferon (IFN)-gamma, IFN-gamma inducing cytokines, and IFN-gamma inducible CXC chemokines in visceral leishmaniasis. 1556 85

SUMMARY Disruption of the lymphotoxin beta receptor (LTbetaR) gene has been shown to result in enhanced resistance of female mice to blood-stage Plasmodium chabaudi malaria. Here, we investigate the effect of LTbetaR deletion on host defence of males. In contrast to females, male LTbetaR(-/-) mice do not exhibit any increase in resistance. Conversely, they are even more susceptible than wild-type C57BL/6 mice, which becomes evident after lowering circulating levels of testosterone by castration, which makes C57BL/6 males resistant, whereas LTbetaR(-/-) remain susceptible. Gene-expression analysis using cDNA arrays revealed no differences in immunological responses in spleen of malaria-resistant female and malaria-susceptible castrated male LTbetaR(-/-) mice. In the liver, however, expression levels of plasminogen activator inhibitor PAI1, chemokine CXCL10, dual specificity phosphatase DUSP1, and hydroxysteroid-specific sulfotransferases Sult2a1/2 were decreased 6- to 85-fold in susceptible castrated male LTbetaR(-/-) mice in comparison to resistant female LTbetaR(-/-) mice at maximal parasitaemia, as evidenced by Northern blot analyses. The present data support our previous view that the liver is involved in the combat against malarial blood stages and that down-regulation of the genes DUSP1 and Sult2a1/2 signals dysregulation of protective liver responses, thus possibly contributing to male susceptibility of LTbetaR(-/-) mice.
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PMID:Deletion of LTbetaR augments male susceptibility to Plasmodium chabaudi. 1604 39

To examine the hormonal and immunological mechanisms that mediate sex differences in susceptibility to malaria infection, intact and gonadectomized (gdx) C57BL/6 mice were inoculated with Plasmodium chabaudi AS-infected erythrocytes, and the responses to infection were monitored. In addition to reduced mortality, intact females recovered from infection-induced weigh loss and anemia faster than intact males. Expression microarrays and real-time reverse transcription-PCR revealed that gonadally intact females exhibited higher expression of interleukin-10 (IL-10), IL-15Ralpha, IL-12Rbeta, Gadd45gamma, gamma interferon (IFN-gamma), CCL3, CXCL10, CCR5, and several IFN-inducible genes in white blood cells and produced more IFN-gamma than did intact males and gdx females, with these differences being most pronounced during peak parasitemia. Intact females also had higher anti-P. chabaudi immunoglobulin G (IgG) and IgG1 responses than either intact males or gdx females. To further examine the effector mechanisms mediating sex differences in response to P. chabaudi infection, responses to infection were compared among male and female wild-type (WT), T-cell-deficient (TCRbetadelta-/-), B-cell-deficient (microMT), combined T- and B-cell-deficient (RAG1), and IFN-gamma knockout (IFN-gamma-/-) mice. Males were 3.5 times more likely to die from malaria infection than females, with these differences being most pronounced among TCRbetadelta-/-, microMT, and RAG1 mice. Male mice also exhibited more severe weight loss, anemia, and hypothermia, and higher peak parasitemia than females during infection, with WT, RAG1, TCRbetadelta-/-, and microMT mice exhibiting the most pronounced sexual dimorphism. The absence of IFN-gamma reduced the sex difference in mortality and was more detrimental to females than males. These data suggest that differential transcription and translation of IFN-gamma, that is influenced by estrogens, may mediate sex differences in response to malaria.
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PMID:Involvement of gonadal steroids and gamma interferon in sex differences in response to blood-stage malaria infection. 1671 46

Infection with Plasmodium berghei ANKA is a well-established model of human cerebral malaria (CM). We show herein that Toll-like receptor (TLR) signaling influences the development of lethal CM in P. berghei ANKA-infected mice. Modulation of outcome was dependent on genetic background, such that deletion of myeloid differentiation factor (MyD) 88 on the susceptible C57BL/6 background resulted in resistance to CM, whereas deletion of MyD88 on the resistant BALB/c background led to increased mortality. Our data show that MyD88 influenced the production of T helper-polarizing cytokines, including interferon (IFN)- gamma, interleukin (IL)-4, and IL-17, as well as the total number of Foxp3(+) regulatory T (T(reg)) cells in a manner dependent on host genetic background. In addition, mRNA levels of IFN- gamma, CXCL10, and CXCL9 were strongly up-regulated in the brains of susceptible wild-type but not MyD88(-/-) infected mice. These results suggest that TLR signaling and host genetic background influences the pathogenesis of CM via modulation of cytokine production and T(reg) cell numbers.
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PMID:Toll-like receptor modulation of murine cerebral malaria is dependent on the genetic background of the host. 1800 36

Previous interethnic comparative studies on the susceptibility to malaria performed in West Africa showed that Fulani are more resistant to Plasmodium falciparum malaria than are sympatric ethnic groups. This lower susceptibility is not associated to classic malaria-resistance genes, and the analysis of the immune response to P. falciparum sporozoite and blood stage antigens, as well as non-malaria antigens, revealed higher immune reactivity in Fulani. In the present study we compared the expression profile of a panel of genes involved in immune response in peripheral blood mononuclear cells (PBMC) from Fulani and sympatric Mossi from Burkina Faso. An increased expression of T helper 1 (TH1)-related genes (IL-18, IFNgamma, and TBX21) and TH2-related genes (IL-4 and GATA3) and a reduced expression of genes distinctive of T regulatory activity (CTLA4 and FOXP3) were observed in Fulani. Microarray analysis on RNA from CD4+ CD25+ (T regulatory) cells, performed with a panel of cDNA probes specific for 96 genes involved in immune modulation, indicated obvious differences between the two ethnic groups with 23% of genes, including TGFbeta, TGFbetaRs, CTLA4, and FOXP3, less expressed in Fulani compared with Mossi and European donors not exposed to malaria. As further indications of a low T regulatory cell activity, Fulani showed lower serum levels of TGFbeta and higher concentrations of the proinflammatory chemokines CXCL10 and CCL22 compared with Mossi; moreover, the proliferative response of Fulani to malaria antigens was not affected by the depletion of CD25+ regulatory cells whereas that of Mossi was significantly increased. The results suggest that the higher resistance to malaria of the Fulani could derive from a functional deficit of T regulatory cells.
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PMID:Functional deficit of T regulatory cells in Fulani, an ethnic group with low susceptibility to Plasmodium falciparum malaria. 1817 28

Cerebral malaria (CM) can be a fatal manifestation of Plasmodium falciparum infection. Using murine models of malaria, we found much greater up-regulation of a number of chemokine mRNAs, including those for CXCR3 and its ligands, in the brain during fatal murine CM (FMCM) than in a model of non-CM. Expression of CXCL9 and CXCL10 RNA was localized predominantly to the cerebral microvessels and in adjacent glial cells, while expression of CCL5 was restricted mainly to infiltrating lymphocytes. The majority of mice deficient in CXCR3 were found to be protected from FMCM, and this protection was associated with a reduction in the number of CD8+ T cells in brain vessels as well as reduced expression of perforin and FasL mRNA. Adoptive transfer of CD8+ cells from C57BL/6 mice with FMCM abrogated this protection in CXCR3-/- mice. Moreover, there were decreased mRNA levels for the proinflammatory cytokines IFN-gamma and lymphotoxin-alpha in the brains of mice protected from FMCM. These data suggest a role for CXCR3 in the pathogenesis of FMCM through the recruitment and activation of pathogenic CD8+ T cells.
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PMID:Chemokine gene expression during fatal murine cerebral malaria and protection due to CXCR3 deficiency. 1817 62

Cerebral malaria is a significant cause of global mortality, causing an estimated two million deaths per year, mainly in children. The pathogenesis of this disease remains incompletely understood. Chemokines have been implicated in the development of cerebral malaria, and the IFN-inducible CXCR3 chemokine ligand IP-10 (CXCL10) was recently found to be the only serum biomarker that predicted cerebral malaria mortality in Ghanaian children. We show that the CXCR3 chemokine ligands IP-10 and Mig (CXCL9) were highly induced in the brains of mice with murine cerebral malaria caused by Plasmodium berghei ANKA. Mice deficient in CXCR3 were markedly protected against cerebral malaria and had far fewer T cells in the brain compared with wild-type mice. In competitive transfer experiments, CXCR3-deficient CD8(+) T cells were 7-fold less efficient at migrating into the infected brains than wild-type CD8(+) T cells. Adoptive transfer of wild-type CD8(+) effector T cells restored susceptibility of CXCR3-deficient mice to cerebral malaria and also restored brain proinflammatory cytokine and chemokine production and recruitment of T cells, independent of CXCR3. Mice deficient in IP-10 or Mig were both partially protected against cerebral malaria mortality when infected with P. berghei ANKA. Brain immunohistochemistry revealed Mig staining of endothelial cells, whereas IP-10 staining was mainly found in neurons. These data demonstrate that CXCR3 on CD8(+) T cells is required for T cell recruitment into the brain and the development of murine cerebral malaria and suggest that the CXCR3 ligands Mig and IP-10 play distinct, nonredundant roles in the pathogenesis of this disease.
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PMID:Chemokine receptor CXCR3 and its ligands CXCL9 and CXCL10 are required for the development of murine cerebral malaria. 1834 28

Previous studies have shown that IFN-gamma is essential for the pathogenesis of cerebral malaria (CM) induced by Plasmodium berghei ANKA (PbA) in mice. However, the exact role of IFN-gamma in the pathway (s) leading to CM has not yet been described. Here, we used 129P2Sv/ev mice which develop CM between 7 and 14 days post-infection with PbA. In this strain, both CD4(+) and CD8(+) T cells were involved in the effector phase of CM. When 129P2Sv/ev mice deficient in the IFN-gamma receptor alpha chain (IFN-gammaR1) were infected with PbA, CM did not occur. Migration of leucocytes to the brain at the time of CM was observed in wild type (WT) but not in deficient mice. However, in the latter, there was an accumulation of T cells in the lungs. Analysis of chemokines and their receptors in WT and in deficient mice revealed a complex, organ-specific pattern of expression. Up-regulation of RANTES/CCL5, IP-10/CCL3 and CCR2 was associated with leucocyte migration to the brain and increased expression of MCP-1/CCL2, IP-10/CCL3 and CCR5 with leucocyte migration to the lung. This shows that IFN-gamma controls trafficking of pathogenic T cells in the brain, thus providing an explanation for the organ-specific pathology induced by PbA infection.
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PMID:Control of pathogenic CD8+ T cell migration to the brain by IFN-gamma during experimental cerebral malaria. 1866 3

Plasmodium falciparum malaria causes 660 million clinical cases with over 2 million deaths each year. Acquired host immunity limits the clinical impact of malaria infection and provides protection against parasite replication. Experimental evidence indicates that cell-mediated immune responses also result in detrimental inflammation and contribute to severe disease induction. In both humans and mice, the spleen is a crucial organ involved in blood stage malaria clearance, while organ-specific disease appears to be associated with sequestration of parasitized erythrocytes in vascular beds and subsequent recruitment of inflammatory leukocytes. Using a rodent model of cerebral malaria, we have previously found that the majority of T lymphocytes in intravascular infiltrates of cerebral malaria-affected mice express the chemokine receptor CXCR3. Here we investigated the effect of IP-10 blockade in the development of experimental cerebral malaria and the induction of splenic anti-parasite immunity. We found that specific neutralization of IP-10 over the course of infection and genetic deletion of this chemokine in knockout mice reduces cerebral intravascular inflammation and is sufficient to protect P. berghei ANKA-infected mice from fatality. Furthermore, our results demonstrate that lack of IP-10 during infection significantly reduces peripheral parasitemia. The increased resistance to infection observed in the absence of IP-10-mediated cell trafficking was associated with retention and subsequent expansion of parasite-specific T cells in spleens of infected animals, which appears to be advantageous for the control of parasite burden. Thus, our results demonstrate that modulating homing of cellular immune responses to malaria is critical for reaching a balance between protective immunity and immunopathogenesis.
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PMID:IP-10-mediated T cell homing promotes cerebral inflammation over splenic immunity to malaria infection. 1934 15

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