Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CD4+ T cells have been implicated in immunity to the blood stages of malaria and cytokines associated with both monocyte and T cell activation have been implicated in disease. To determine whether specific T cells capable of inhibiting parasite growth can also mediate pathology we have transfused populations of Plasmodium berghei-specific T cells into normal and immunodeficient naive mice. We observed that they could inhibit parasite growth but were unable to save the animals which exhibited significantly greater anaemia and weight loss than control infected animals receiving either no T cells or T cells specific for ovalbumin. T cell-dependent tomour necrosis factor (TNF)alpha was a critical component in both parasite killing and disease promotion. Experiments with blocking antibodies demonstrated that all T-cell mediated antiparasitic immunity and all T-cell mediated weight loss was TNF-dependent. Blocking TNF-alpha in mice that received parasite-specific T cells prolonged the survival of the mice. Nitric oxide demonstrated no antiparasite effect, but was involved in the regulation of T-cell mediated weight loss. The data thus show that while parasite-specific CD4+ T cells can significantly limit parasite growth, such an effect need not be beneficial to the host, and that TNF-alpha and nitric oxide are critical effector molecules operating downstream of parasite-specific T cells in both immunity and disease.
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PMID:Malaria parasite-specific Th1-like T cells simultaneously reduce parasitemia and promote disease. 1035 54

In this study, we describe protection of BALB/c mice by immunization with heat-killed T. gondii tachyzoites against infection with Plasmodium yoelii 17XL which causes cerebral malaria and death in mice by day 7-8 post infection. Immunization resulted significant reduction in parasitemia at the peak period of infection. Protection induced by heat-killed T. gondii was associated with marked increase in NK cell number and IFN-gamma mRNA expression early in the infection. The level of IFN-gamma or TNF-alpha was found to diminish in T. gondii-treated mice as the infection progressed to the late stage. This declined response of IFN-gamma or TNF-alpha was associated with marked increase in the expression of IL-10, a counterregulatory cytokine. Pretreatment of mice with live T. gondii induced poor level of protection as compared with that of heat-killed parasites. Mice that received P. yoelii infection alone, had an elevated IFN-gamma response in the late stage of infection. Development of cerebral malaria in untreated mice was accompanied by an augmented production of TNF-alpha and nitric oxide (NO), the proinflammatory mediators. These findings suggest that nonspecific immunization with T. gondii leads to restoration of an early IFN-gamma response in P. yoelii-infected mice and in the establishment of an immunoregulatory mechanism that effectively antagonizes the disease-promoting effects of proinflammatory cytokines in the late phase of infection.
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PMID:Immunization with heat-killed Toxoplasma gondii stimulates an early IFN-gamma response and induces protection against virulent murine malaria. 1041 9

Malaria, a disease responsible for immense human suffering, is caused by infection with Plasmodium spp. parasites, which have a very complex life cycle - antigenically unique stages infect different tissues of the body. This review details recent developments in our understanding of immunity both to pre-erythrocytic stage antigens and to erythrocytic stage antigens. The former is largely mediated via CD8(+) T cells and involves IFN-gamma, nitric oxide, IL-12 and natural killer cells; the latter varies (in different hosts and with different parasites) but is largely mediated by antibody, helper T cells, nitric oxide and gammadelta T cells. The recent progress towards clinical trials of vaccine candidates against both the pre-erythrocytic stage and erythrocytic stage is also summarized, in particular the use of heterologous prime/boost strategies for the former and the use of MSP1 as a candidate vaccine for the latter.
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PMID:Immune effector mechanisms in malaria. 1044 41

Plasmodium falciparum malaria is an important cause of morbidity and mortality in children. Factors that determine the development of mild versus severe malaria are not fully understood. Since host-derived nitric oxide (NO) has antiplasmodial properties, we measured NO production and NO synthase (NOS) activity in peripheral blood mononuclear cells (PBMC) from healthy Gabonese children with a history of prior mild malaria (PMM) or prior severe malaria (PSM) caused by P. falciparum. The PMM group had significantly higher levels of NOS activity in freshly isolated PBMC and higher NO production and NOS activity in cultured PBMC. The investigation of NO-modulating cytokines (e.g., interleukin 12, gamma interferon, tumor necrosis factor alpha [TNF-alpha], and transforming growth factor beta1) as an explanation for differing levels of NOS activity revealed that plasma levels of TNF-alpha were significantly higher in the PSM group. Our results suggest that NOS/ NO and TNF-alpha are markers for prior disease severity and important determinants of resistance to malaria.
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PMID:Blood mononuclear cell nitric oxide production and plasma cytokine levels in healthy gabonese children with prior mild or severe malaria. 1045 63

The cause of the anemia associated with chronic, intermittent, asymptomatic, low-level parasitemia in children in malaria-endemic endemic areas is not well understood. Nitric oxide (NO) decreases erythropoiesis, and it is likely an important mediator of anemia of chronic disease. Production of NO is decreased in acute uncomplicated and cerebral malaria, but it is increased in asymptomatic Tanzanian children (with or without parasitemia). We hypothesized that chronic overproduction of NO in these asymptomatic children contributes to the anemia associated with subclinical/subpatent malaria. In 44 fasting, asymptomatic, malaria-exposed, Tanzanian children, NO production (measured using fasting urine NOx excretion) was inversely associated with hemoglobin concentration (P = 0.03, controlling for age and gender). Using multiple linear regression, hemoglobin concentration was negatively associated with parasitemia (P = 0.005). After controlling for age and parasitemia, NO was no longer an independent predictor of anemia. One of the mechanisms of parasite-related anemia in such children may be through the adverse hematologic effects of parasite-induced NO production.
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PMID:Nitric oxide, malaria, and anemia: inverse relationship between nitric oxide production and hemoglobin concentration in asymptomatic, malaria-exposed children. 1046 75

Age appears to influence not only the acquisition of clinical immunity to malaria but also the susceptibility to and clinical manifestations of severe malaria. Asymptomatic malaria-exposed Tanzanian children have high production of nitric oxide (NO) and universal expression of leukocyte NO synthase type 2 (NOS2), which may protect against disease. To determine the effects of age and parasitemia on NO production, we measured urine and plasma NO metabolites and leukocyte NOS2 expression in 45 fasting, asymptomatic, malaria-exposed children of different ages, stratifying parasitemia by thick film and polymerase chain reaction (PCR) analysis. Although NO production was significantly higher in thick film-positive children than in thick film-negative children, after adjusting for age and gender, we were unable to detect a difference in NO production in thick film-negative children between those who were PCR positive and PCR negative. The relationship between age and NO production was determined using a generalized additive model adjusted for the effects of gender and parasitemia. Production of NO using all three measures was highest in infancy, decreasing after the first year of life, and then increasing again after 5 years of age. This pattern of age-related NO production is the reverse of the pattern of age-related morbidity from cerebral malaria in coastal Tanzanian children. Elevated production of NO in both infants and older children may be related to age per se and malaria infection respectively, and may be one of the mediators of the anti-disease immunity found most commonly in these two age groups.
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PMID:Effects of age and parasitemia on nitric oxide production/leukocyte nitric oxide synthase type 2 expression in asymptomatic, malaria-exposed children. 1046 76

Here, Ian Clark and Bill Cowden summarize new evidence suggesting that nitric oxide (NO) generated by inducible NO synthase (iNOS) provides a functional link between the previously competing approaches to malarial disease pathogenesis: ischaemic hypoxia and NO. When combined with the newly recognized roles of iNOS in renal and pulmonary function and glucose metabolism, synergy between inflammatory cytokines and hypoxia in iNOS induction provides a framework to help explain, at a molecular level, the differences in the pathology seen in falciparum and vivax malaria. Thus sequestration, through localized hypoxia, might contribute to pathology by enhancing cytokine-induced iNOS. Generalized hypoxia might have the same effect.
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PMID:Why is the pathology of falciparum worse than that of vivax malaria? 1051 89

The effect of febrifugine, the main alkaloidal constituent of an antimalarial crude drug, Dichroa febrifuga Lour., on protective immunity in mice infected with erythrocytic stage Plasmodium berghei NK65 was investigated. Febrifugine was administered orally, at a dose of 1 mg/kg/day, to mice before and/or after they were infected intraperitoneally with 2 x 10(6) parasitized red blood cells. Then, mortality and the levels of parasitemia and plasma NO3- [a degradation product of nitric oxide (NO)] were monitored. Febrifugine significantly reduced the mortality and the level of parasitemia. The plasma NO3- concentration began to rise within 2 days after treatment with febrifugine and declined to normal in 2 days when the mice were treated orally with febrifugine once a day for 3 consecutive days before parasite infection. This antimalarial activity of febrifugine was reduced by both N(G)-monomethyl-L-arginine and aminoguanidine. These results indicate that the increased production of NO by febrifugine plays an important role in host defense against malaria infection in mice.
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PMID:Potentiation by febrifugine of host defense in mice against Plasmodium berghei NK65. 1053 50

Nitric oxide (NO) plays an important role in host resistance to infection with a variety of organisms. Two recent reports from Gabon and Gambia identified associations of malaria disease severity with the inducible NO synthase (NOS2) promoter G-954C and short allele (<11 repeats) pentanucleotide microsatellite polymorphisms, respectively. It was postulated that there would be a correlation of these polymorphisms with malaria disease severity and with measures of NO production in our cohort of Tanzanian children with malaria. In Tanzanian children, 15% were heterozygous or homozygous for the G-954C polymorphism, and 13% had the short-allele microsatellite polymorphism. There was no significant correlation of either polymorphism with disease severity or with measures of NO production and NOS2 expression. Black and white Americans differed significantly in the frequencies of these polymorphisms. The various association of these gene polymorphisms with malaria severity in different populations underscores the complexity of host resistance to malaria.
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PMID:Nitric oxide synthase type 2 promoter polymorphisms, nitric oxide production, and disease severity in Tanzanian children with malaria. 1055 57

Since the identification, in 1954, of the first gene associated with resistance to Plasmodium falciparum, several genes, some of them being implicated in the regulation of the immune response, have been described as possible influences on cerebral pathology. This pathology depends primarily on the capacity of infected red blood cells to adhere to the endothelia of micro-vessels, leading to their occlusion. The major players of cerebral malaria potentially include: receptors expressed on the surface of the endothelial cell and known to interact with infected red blood cells, cytokines modulating the expression of these adhesion molecules, nitric oxide (NO) and Fc epsilon RII/CD23. Cells other than infected red blood cells, such as platelets, monocytes and lymphocytes, have the ability to adhere to these endothelial receptors and to one another, via different ligands, leading to a more complex situation and an increase in the degree of vessel occlusion. The polymorphism of all these molecules, implicated either in adhesion, in modulation of this adhesion or activation of the expression of diverse endothelial mediators should be an important field of study. Polymorphism of five of these molecules has been explored so far: ICAM-1, TNF-alpha, IL-1 beta, iNOS2 (inducible NOS) and CR-1 (complement receptor-1). To these studies, can be added those concerning mannose binding protein (MBP), a protein playing a role in innate immunity, and the class-I antigen HLA-B53. To date the only clear-cut result concerns TNF-alpha. With the other polymorphisms, either no association is found (IL-1RA, CR-1, MBP), or results are geographically heterogeneous (ICAM-1, HLA-B53), or contradictory (iNOS2). Most often, the approach followed has been the candidate gene approach, as part of case control studies. One of the main problems in this approach is the difficulty of establishing the control cohort. This difficulty disappears in family studies, which include their own controls. So far, the only results based on complex segregation analysis have been focused on parasite multiplication and not on cerebral malaria.
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PMID:[Immunogenetics and cerebral malaria]. 1057 60


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