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)

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

Primary cultures of BALB/cJ hepatocytes treated with 10(3) U/ml rIFN-gamma consistently inhibited intracellular Plasmodium berghei liver schizont development by 50 to 70%. Monomethyl-L-arginine (NGMMLA), the competitive inhibitor of L-arginine as substrate for production of nitric oxides by hepatocytes, reversed the activity of IFN-gamma on these malaria-infected cells. Reversal of IFN-gamma activity by NGMMLA was dose dependent and was maximal at 0.5 mM NGMMLA. Depletion of L-arginine by addition of arginase to the culture medium blocked the capacity of IFN-gamma to inhibit parasite development in hepatocytes; addition of excess L-arginine to cultures treated with IFN-gamma in the presence of NGMMLA competitively restored IFN-gamma capacity to activate hepatocyte anti-parasite activity. TNF-alpha was neither required for IFN-gamma activity, nor effective at any concentration tested as an inhibitor of schizont development by itself in primary hepatocytes. These data strongly suggest that the action of IFN-gamma on P. berghei-infected hepatocytes is to induce the production of L-arginine-derived nitrogen oxides that are toxic for the intracellular parasite.
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PMID:IFN-gamma inhibits development of Plasmodium berghei exoerythrocytic stages in hepatocytes by an L-arginine-dependent effector mechanism. 190 15

A 38-year-old patient with cerebral P. falciparum malaria was admitted 12 days after a short trip to Kenya. The serum level of tumor necrosis factor (TNF-alpha) was elevated (251 pg/ml). In contrast, Protein C (plasma activity 36.1%; antigen concentration 31.7%) and protein C inhibitor 1 (activity 0.55 U/ml) levels were decreased. This suggested a state of functional activation of the clotting system which was confirmed by elevated levels (4.8 ng/ml) of circulating thrombin-antithrombin-III-complexes (TAT). Protein S (total and free) and coagulation factor IX levels were within normal range. Under successful antiparasitic therapy, TNF-alpha as well as protein C and protein C inhibitor 1 levels returned to baseline within one week. In the context of other studies that demonstrate procoagulant effects of TNF-alpha, it is remarkable that in the case of complicated P. falciparum malaria, an elevated concentration of TNF-alpha can be paralleled by a decreased plasma level of protein C and an increase in TAT suggesting a procoagulant state.
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PMID:[Malaria tropica with activation of blood coagulation and detection of tumor necrosis factor (NF-alpha) in serum]. 215 19

Tumor necrosis factor, or cachectin (TNF-alpha), a protein with a wide range of biological activities, is produced mainly by macrophages and may be important in inflammatory processes. The role of TNF-alpha in the pathogenesis of cerebral malaria was investigated in a murine model. Most CBA mice infected with Plasmodium berghei anka die between days 6 and 14 with acute neurological manifestations unrelated to the level of parasitemia, whereas mice of some other strains have malaria of the same severity that ends in death after 3 to 4 weeks without neurological manifestations. The activity of serum TNF-alpha was considerably increased in CBA/Ca mice with cerebral malaria but not in Plasmodium berghei-infected mice that did not develop this complication. One injection of rabbit antibody to TNF-alpha on day 4 or 7 fully protected infected mice from cerebral malaria without modifying the parasitemia, whereas immunoglobulins from normal rabbit had no effect. In mice with cerebral malaria, the cerebral vessels showed focal accumulations of packed macrophages often containing infected erythrocytes; this lesion was not seen in mice treated with antibody to TNF-alpha or in untreated mice without cerebral malaria. These findings indicate that TNF-alpha has an important role in the pathogenesis of cerebral malaria in this murine model and suggest that local accumulation and activation of macrophages may lead to the predominance of lesions in the central nervous system.
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PMID:Tumor necrosis factor (cachectin) as an essential mediator in murine cerebral malaria. 330 18

The effects of IL-12 administration on the development of protective immunity to blood-stage Plasmodium chabaudi AS were analyzed. Treatment of susceptible A/J mice on the day of infection and for 5 days postinfection with various doses 0.025-0.3 microgram) of rIL-12 significantly decreased the peak parasitemia level, but only treatment with 0.1 microgram resulted in increased survival. Treatment of resistant B6 mice with 0.1 microgram of rIL-12 using the same regimen also significantly decreased the peak parasitemia level, but 40% of the animals died. Treatment of these mice with anti-IL-12 mAb resulted in a more severe course of infection, but survival was not significantly altered. The mechanism of IL-12-induced resistance was examined in A/J mice during infection. Compared with spleen cells from untreated mice, cells from IL-12-treated mice produced significantly higher levels of IFN-gamma spontaneously as well as in response to Con A or Ag stimulation on day 7 postinfection. Significantly higher levels of INF-gamma and TNF-alpha were found in the sera of IL-12-treated mice, which correlated with high levels of the nitric oxide (NO) metabolite, NO3-. Furthermore, CD4+T cell depletion was found to abrogate IL-12-induced resistance. Administration of neutralizing mAb against IFN-gamma or TNF-alpha to IL-12-treated mice showed that simultaneous depletion of both cytokines resulted in 100% mortality. The role of NO was investigated by administration of aminoguanidine, a selective inhibitor of cytokine-inducible nitric oxide synthase, to IL-12-treated mice. Significantly increased mortality was observed following treatment twice daily with 9 mg of aminoguanidine, but there was no effect on parasitemia. In conclusion, these results demonstrate that IL-12 regulates the development of resistance to P. chabaudi AS via a CD4+ Th1 response, which involves the cytokines IFN-gamma and TNF-alpha, and is in part NO dependent. Therefore, IL-12, given in the appropriate dose, may be useful in the induction of protective immunity to blood-state malaria.
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PMID:IL-12-induced protection against blood-stage Plasmodium chabaudi AS requires IFN-gamma and TNF-alpha and occurs via a nitric oxide-dependent mechanism. 765 Mar 84

Acute Plasmodium yoelii murine malaria is associated with a marked depression of splenic T cell responses. The present study was undertaken to address the question if a defect in T cell proliferation results from a relative increase of a non-T cell population in the spleen or real biological changes occurring in T cells of the spleen after infection. When animals were acutely infected, the splenic cells responded poorly to cross-linked anti-CD3 mAb, Con A, and PWM stimulation. At this stage, a very limited array of cytokine was expressed. We failed to detect the transcripts for IL-2R p55, IL-2, IL-6, IL-10, and IFN-gamma in mice with acute P. yoelii malaria irrespective of the number of splenocytes subjected to RT-PCR. In contrast, late in the infection when mice cleared the parasites and became resistant to reinfection, mRNAs for the above cytokines as well as for IL-4, IL-5, GM-CSF, and TNF-alpha were detectable. During this late phase of infection, lymphocytes proliferated vigorously in response to TCR- and T cell mitogen-mediated stimulation. Surprisingly, during an early phase (as early as 3 days postinfection) with low parasitemia, before the establishment of T cell unresponsiveness, a broad array of cytokine expression including IL-2 and IFN-gamma expression as well as marked lymphoproliferative response upon T cell mitogen- and TCR-mediated stimulation was observed. When the expression of cytokine gene in freshly isolated (ex vivo) splenocytes from P. yoelii-infected animals was investigated, a similar pattern of cytokine profile was detected. We devised a methodology in which RNA from an increasing number of splenocytes (ranging from 1 to 16 million) was used to compensate for any difference in the frequency of splenic T cells between immune and acutely infected mice and to augment target molecules which could be measured simultaneously by PCR. The data presented in this study led us to speculate that "anergy" or relative increase of a non-T cell population cannot account solely for the T cell unresponsiveness in the acute phase of infection. We suggest that inactivation or/and ablation of reactive T cells may explain T cell hyporesponsiveness during acute malaria.
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PMID:Plasmodium yoelii in mice: differential induction of cytokine gene expression during hyporesponsiveness induction and restimulation. 784 88

The cytokine tumor necrosis factor (TNF-alpha) is a pleotrophic polypeptide that plays a significant role in brain immune and inflammatory activities. TNF-alpha is produced in the brain in response to various pathological processes such as infectious agents [e.g., human immunodeficiency virus (HIV) and malaria], ischemia, and trauma. TNF-alpha mRNA is rapidly produced in response to brain ischemia within 1 h, reaches a peak at 6-12 h post ischemia, and subsides 1-2 days later. TNF-alpha mRNA expression corresponds in a temporal fashion to other cytokines such as interleukin (IL)-6, cytokine-induced neutrophil chemoattractant (KC), and IL-1 and precedes the infiltration of inflammatory cells into the injured zone. TNF-alpha is present early in neuronal cells in and around the ischemic tissue (penumbra), yet at later time points, the peptide is found in macrophages in the infarcted tissue. TNF-alpha has been demonstrated to cause expression of proadhesive molecules on the endothelium, which results in leukocyte accumulation, adherence, and migration from capillaries into the brain. Furthermore, TNF-alpha activates glial cells, thereby regulating tissue remodeling, gliosis, and scar formation. Thus, evidence is emerging in support of a role for TNF-alpha in injury induced by infectious, immune, toxic, traumatic, and ischemic stimuli. TNF-alpha promotes inflammation by stimulation of capillary endothelial cell proinflammatory responses and thereby provides leukocyte adhesion and infiltration into the ischemic brain. The evidence generated so far suggests that agents that suppress TNF-alpha's production or actions will reduce leukocyte infiltration into ischemic brain regions and thereby diminish the extent of tissue loss.
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PMID:Cytokines, inflammation, and brain injury: role of tumor necrosis factor-alpha. 788 Jul 18

Plasma from immune (residents of malaria infested areas) and non immune (European travellers) patients suffering from cerebral malaria, severe or mild, was analyzed for the presence of soluble tumor necrosis factor receptors. On admission of the subjects, sTNF-R55 and sTNF-R75 levels were significantly elevated in all groups and correlated with TNF-alpha. Except for sTNF-R55 whose levels were higher in severe than in mild malaria, no correlation was observed between soluble receptors and clinical status. Nevertheless, sTNF-R55 and sTNF-R75 were significantly more elevated in patients who died (10.7 +/- 2.3 ng/ml and 94.9 +/- 31 ng/ml, respectively) than in those surviving (5.5 +/- 0.4 ng/ml and 37.4 +/- 5.4 ng/ml respectively). A marked correlation was observed between soluble receptors levels and some biological markers of gravity like creatinine, urea, and bilirubin. In 13 non immune patients, circulating soluble receptors levels decreased significantly after 7 days when clinical and biological malaria features had disappeared, but TNFsR75 remained above normal levels. After a fortnight of treatment in 17 immune patients, sTNF-R55 and sTNF-R75 remained elevated. However, the ratios of TNF-alpha/s TNF-R55 and 75 were not higher in the cases of cerebral malaria or fatal outcome. Further studies are required to determine if elevated levels of sTNF-R55 and sTNF-R75 are beneficial, due to the inhibition of TNF-alpha or whether they are detrimental since they stabilize this deleterious cytokine.
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PMID:Plasma levels of TNF-alpha soluble receptors correlate with outcome in human falciparum malaria. 794 68

Infection with Plasmodium berghei ANKA (PbA) leads, in susceptible strains of mice, to the development of cerebral malaria (CM), a lethal syndrome that reproduces some features of human CM. To study a possible relationship between genetic susceptibility to CM and the cytokine expression pattern, we quantitatively evaluated gene expression on RNA extracted from various organs of malaria-infected mice, using strains that are susceptible and resistant to CM. Northern blot analysis and semi-quantitative PCR showed that CM is associated with an increased TNF-alpha mRNA accumulation in the brain of mice developing the neurologic complications of CM. An increased IFN-gamma mRNA accumulation and a decreased expression of IL-4 and TGF-beta genes were also observed in mice susceptible to CM. In vitro restimulation studies using crude malarial Ag showed that lymphoid cell proliferation was higher in CM-susceptible than in CM-resistant infected mice. Moreover, susceptible mice produced large amounts of IFN-gamma, in a dose-dependent manner, in response to PbA Ag, whereas cells from resistant mice failed to produce significant amounts of this cytokine. Conversely, IL-2 and IL-4 production was significantly higher in infected CM-resistant mouse cells. No difference was seen in the production of IL-3 and IL-5 between resistant and susceptible PbA-infected mice. Upon stimulation with various malarial Ag, comparable amounts of TNF-alpha were produced by macrophages of either strain of mice. Taken together, these findings indicate that susceptibility to CM resides at the level of T cells rather than macrophages. Furthermore, the cytokine production profile is consistent with a predominant Th1-like response in mice developing cerebral complications of malaria.
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PMID:Profiles of cytokine production in relation with susceptibility to cerebral malaria. 840 39

We compared the tumor necrosis factor (TNF-alpha), interferon gamma (IFN-gamma) and granulocyte-macrophage colony stimulating factor (GM-CSF) serum levels in 87 patients with malaria from the Brazilian Amazon. They included asymptomatic infected individuals and symptomatic patients with mild disease or severe malaria with or without cerebral involvement. As controls we examined individuals living in endemic areas without past history of malaria. The TNF-alpha serum levels were increased in patients with malaria and progressively decreased in those with severe disease 7 days after specific treatment. We found correlation between parasitaemia, TNF-alpha levels and severity of the disease. The correlation between high TNF-alpha levels and severe malaria was independent of cerebral involvement. The increase in both IFN-gamma and GM-CSF levels among malarious patients was not related to the degree of severity or mortality. IFN-gamma concentration, however, was associated with high parasitaemia at admission.
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PMID:Tumor necrosis factor alpha interferon gamma and macrophage stimulating factor in relation to the Severity of Plasmodium falciparum malaria in the Brazilian Amazon. 865 Jul 40


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