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)

Plasma membranes of normal duckling erythrocytes were prepared by blender homogenization and nitro-en decompression. Surface membrane vesicles of red cells infected with the avian malaria Plasmodium lophurae were produced by nitrogen decompression. Membranes of erythrocyte-free malaria parasites were removed from cytoplasmic constituents by Dounce homogenization. These membranes were collected by centrifugation in a sucrose step gradient and purified on a linear sucrose gradient. Red cell membranes had a buoyant density of 1.159 g/cm3, whereas plasmodial membranes banded at 2 densities: 1.110 g/cm3 and 1.158 g/cm3. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of the isolated red cell membranes revealed 7 major protein bands with molecular weights (MW) ranging from 230, 000 to 22,000, and 3 glycoprotein bands with MW of 160,000, 88,000 and 37,000. Parasite membranes also had 7 major bands with MW ranging from 100,000 to 22,000. No glycoproteins were identifiable in these membranes. The proteins of the surface membranes from infected red cells had MW similar to those from normal red cells; however, there was some evidence of a reduction in the amount of the high MW polypeptides. The red cell membrane contained 79 nmoles sialic acid/mg membrane protein, whereas plasmodial membranes had 8 nmoles sialic acid/mg membrane protein. The sialic acid content of the surface membranes of infected red cells was significantly smaller than that of normal cells. Lactoperoxidase-glucose oxidase-catalyzed iodination of intact normal and malaria-infected erythrocytes labeled 7 surface components. Although no observable differences in iodinatable proteins were seen in these preparations, there was a striking reduction in the iodinatability of erythrocytic membranes obtained from P. lophurae-infected cells. Erythrocyte-free plasmodia bound very little radioactive iodine; the small amount of radioactivity was distributed among 3 major bands with MW of 42,000, 32,000 and 28,000. It is suggested that the alterations of the surface of the P. lophurae-infected erythrocyte do not occur by a wholesale insertion of plasmodial membrane proteins into the red cell plasma membrane, but rather that there are parasite-mediated modifications of existing membrane polypeptides.
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PMID:Plasmodium lophurae: membrane proteins of erythrocyte-free plasmodia and malaria-infected red cells. 53 38

Sixty-one patients with falciparum malaria were studied prospectively to determine the plasma concentrations of the lysosomal proteinase, polymorphonuclear leucocyte elastase (PMN-elastase) and their relationship to disease severity. The patients were divided into 3 groups; severe (parasitaemia > 5%) or vital organ dysfunction (n = 23), moderate (parasitaemia 1%-5% without complications) (n = 15), and mild (parasitaemia < 1%) (n = 23). The mean plasma PMN-elastase level in 10 healthy Thai volunteers was 49.5 (SD = 21.6) ng/ml (range 33-65 ng/ml). Plasma PMN-elastase concentrations on admission were elevated (> 2 x SD above normal) in all patients with severe malaria and were above 100 ng/ml in 86.6% and 65% of the moderately severe and mild patients respectively. PMN-elastase levels during the first 3 hospital days were significantly higher in severe malaria compared with the other 2 groups (P = < 0.001-0.013). The levels decreased as the patients became afebrile and aparasitaemic. Admission plasma concentrations of PMN-elastase correlated directly with bilirubin (rs = 0.50, P < 0.001), serum glutamic oxalacetic transaminase (rs = 0.54, P0.001), parasite count (rs = 0.62, P < 0.001), blood urea nitrogen (rs = 0.54, P < 0.001) and inversely with antithrombin III activity (rs = 0.54, P < 0.001) and the platelet count (rs = 0.58, P < 0.001). Polymorphonuclear leucocyte activation may contribute to the pathogenesis of severe malaria.
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PMID:Polymorphonuclear leucocyte elastase in Plasmodium falciparum malaria. 128 9

Tumor necrosis factor and related cytokines are thought to be implicated in cell-mediated immunity and pathophysiology in malaria, but their mechanism of action has not been ascertained. Tumor necrosis factor has been reported to generate nitric oxide in vitro, so we have measured levels of this molecule and its products in the plasma of mice after they have received an injection of tumor necrosis factor, lymphotoxin, interleukin-1, gamma interferon, or interleukin-6, all of which have been reported to be increased in malaria. Total reactive nitrogen intermediate levels in plasma were assayed spectrophotometrically after exposing plasma to a copper-cadmium-zinc catalyst to convert nitrate to nitrite and then to Griess reagent. Tumor necrosis factor, lymphotoxin, and interleukin-1 all induced reactive nitrogen intermediates in vivo, with interleukin-1 showing the most activity. Tumor necrosis factor was then examined more closely. It induced more reactive nitrogen intermediates in malaria-infected mice than in normal mice, and appreciably more was in the form of nitrate than was in the form of nitrite. NG-methyl-L-arginine inhibited the in vivo generation of reactive nitrogen intermediates by tumor necrosis factor in a dose-dependent manner, implying that these molecules were arginine derived. These results are consistent with the possibility that tumor necrosis factor, lymphotoxin, and interleukin-1 may contribute to host pathology and parasite suppression through generation of nitric oxide.
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PMID:In vivo induction of nitrite and nitrate by tumor necrosis factor, lymphotoxin, and interleukin-1: possible roles in malaria. 150 Jan 82

On a model pair Aedes aegypti--Plasmodium gallinaceum in has been shown that changes in the conditions of larvae development caused by the addition into the water medium of the live culture of Synochocystis sp. cyanobacteria or green seaweeds Chlorella vulgaris, acetone extracts from the live culture precipitate or Chlorella powder, as well as nitrogen-containing fertilizer--ammonium chloride did not lower the sensitivity of the imago flying to malaria parasites. The results of the experiments assessing the effect of biologically active compounds introduced into the larvae habitation medium on the ability to change sensitivity of the survived mosquito females to malaria agent have been summed up. The data obtained are indicative of the high level of mutual adaptation between mosquito-carriers and malaria parasites.
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PMID:[Experimental research on the effect of biologically active substances on the susceptibility of mosquitoes to the causative agent of malaria. 3. Algae, fertilizers]. 164 59

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

The antimalaria effect of iron chelators is attributed to their interaction with a labile iron pool within parasitised erythrocytes, and it was postulated that increased affinity to iron as well as increased lipophilicity may improve antimalarial activity. In the present study we have examined the antimalarial effect of 3-hydroxypyridin-4-ones, a family of bidentate orally effective iron chelators whose lipophilicity may be modified by altering the length of the R2 substituent on the ring nitrogen. A significant dose-related suppression of Plasmodium falciparum cultures was observed with all drugs tested in vitro at concentrations of 5 mumol/L or higher. In contrast, there was a clear segregation of the in vivo effect on P berghei in rats (300 mg/kg/d subcutaneous) into two categories: compounds CP20, 38, and 40 failed to suppress malaria, whereas CP51, 94, and 96 had a strong antimalarial effect, similar or better than deferoxamine. There was a close linear correlation between the suppression of peak parasite counts and the reduction in hepatic nonheme iron induced by the various drugs tested (r = .9837). The most lipophilic compounds were also the most effective in suppressing malaria and in depleting hepatic iron stores. These data indicate that 3-hydroxypyrydin-4-ones are able to suppress malaria in vivo and in vitro. Because lipid solubility is an important determinant of antimalarial action, our study provides useful information regarding the selection of orally effective iron-chelating compounds that may be suitable for clinical application as antimalarial agents.
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PMID:The effect of N-alkyl modification on the antimalarial activity of 3-hydroxypyridin-4-one oral iron chelators. 199 Nov 72

There is growing evidence that cytokines (interleukin [IL] 1, IL 6, interferon-gamma, tumor necrosis factor [TNF]) directly or indirectly interfere with the intrahepatic development of malaria parasites. Recent work in our laboratory clearly showed that TNF can affect the hepatic development of parasites via IL 6 secreted by liver nonparenchymal cells. The possible participation of an L-arginine-dependent effector mechanism has been studied to explain the TNF/IL 6-induced inhibition. We thus investigated if NGmonomethyl-L-arginine and N omega-nitro-L-arginine, two specific inhibitors of inorganic nitrogen oxide synthesis from L-arginine, were able to affect the inhibitory effect of TNF and/or IL 6 in co-cultures. At 0.1 and 0.5 mM both L-arginine analogues reversed the inhibitory effect of these cytokines. An interesting observation is that L-arginine analogues enhance schizont development in the absence of prior cytokine contact. This result indicates an hepatic basal L-arginine-dependent anti-parasitic activity which might explain the existence of self-degenerating hepatic forms as previously reported.
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PMID:L-arginine-dependent destruction of intrahepatic malaria parasites in response to tumor necrosis factor and/or interleukin 6 stimulation. 199 87

The course of malarial infection was compared in pregnant mice inoculated with Plasmodium berghei at different stages of gestation. When 12-14 wk old, pregnant BALB/c mice were inoculated with 1 x 10(6) of P. berghei NK65-infected red cells at gestation day 0, 2, 4, 6, 8, 10, 12, 14 or 16, the mice inoculated on gestation days 6-12 expired 6.5 days after inoculation compared to 9.5 days in non-pregnant mice. Parasitemia in these pregnant mice increased rapidly on day 4 after inoculation and anemia also developed earlier on day 5. However, the degree of parasitemia and anemia in the terminal stage of infection in these pregnant mice was milder than that of non-pregnant controls. Blood urea nitrogen increased at the terminal stage although the degree of increase in mice inoculated on gestation days 6-10 was comparatively small. Pregnant malarial mice died earlier with less physiological changes than non-pregnant controls. It was concluded that pregnancy makes the host susceptible to physiological changes caused by malaria.
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PMID:Influence of pregnancy on the course of malaria in mice infected with Plasmodium berghei. 219 52

We performed a series of studies to examine the sequential development of nephritis during murine malaria infections and to define the role of DNA-binding antibodies in the associated pathology. Serum levels of these antibodies were assessed throughout acute and chronic malaria infections. Increased levels of double-stranded DNA- and single-stranded DNA-binding antibodies were initially detected in mice infected with Plasmodium vinckei or Plasmodium yoelii nigeriensis during the middle stages of infection, and these levels were maintained until death. Infection with the more chronic organism Plasmodium berghei clone RC also resulted in increased single-stranded DNA-binding antibody titers, which fluctuated as the infection progressed. All three species caused kidney damage and dysfunction, as assessed by changes in morphology, blood urea nitrogen, and excreted albumin; this damage correlated with the extent of parasitemia and was observed before the levels of DNA-binding antibodies were detectably elevated in the serum. However, the results of immunohistochemical studies demonstrated that DNA-binding monoclonal antibodies bound ex vivo to glomeruli within kidneys prepared from mice at late stages of infection, after the initial damage had been incurred. Our findings suggest how DNA-binding antibodies could contribute to the kidney pathology associated with both malaria and certain autoimmune diseases, such as systemic lupus erythematosus.
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PMID:Role of DNA-binding antibodies in kidney pathology associated with murine malaria infections. 236 56

In May 1987 and January 1988 the chloroquine sensitivity of Plasmodium falciparum in the Ubombo and Ingwavuma districts of KwaZulu was determined by a modified in vitro microtest in which the patients' plasma was replaced with non-immune human AB serum and the test plates were incubated in an atmosphere of 3% oxygen, 4% carbon dioxide and 93% nitrogen. A success rate of 74% was achieved using this technique. All of 23 successfully tested isolates from malaria patients reporting to clinics and a hospital in these areas were found to be resistant to chloroquine, schizogony being inhibited at 32 pmol per well in the majority of tests. Seventy-five per cent of the isolates obtained through active surveillance in the Ubombo district were found to be resistant in varying degrees. Malarial parasites collected from clinics and a hospital in the endemic area did not change markedly in their in vitro response to chloroquine during the 8-month period May 1987-January 1988.
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PMID:In vitro confirmation of chloroquine-resistant Plasmodium falciparum malaria in KwaZulu. 305 56


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