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

Surface sialic acids of mice red blood cells infected with the malarial parasite Plasmodium chabaudi are increased as compared to extracts of red cells from normal mice. This increase occurs coincidentally when reticulocytes increase in the peripheral blood. The same increase of surface sialic acids is shown by studies of reticulocytes from phenylhydrazine treated mice. Similarly, neutral hexoses, fucose, were found in greater quantities in surface glycopeptides obtained after incubation with trypsin of reticulocytes from phenylhydrazine treated mice than in surface glycopeptides of red cells from normal mice. This increase occurs also in Plasmodium chabaudi infected red cells with the development of reticulocytosis, in the same way. These facts suggest the contribution of reticulocytes to the biochemical changes observed during malaria infection.
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PMID:[Plasmodium chabaudi: changes in the surface sialic acids of red blood cells during infection (author's transl)]. 48 35

A cold-active hemagglutinin for trypsinized human type "O" erythrocytes (CAH) from blood of chickens with acute Plasmodium gallinaceum malaria was found to be associated with 19 S and 7 S globulin fractions of malarious chicken blood, but cleavage with 2-mercaptoethanol indicated that it was primarily of the IgM class of antibody. In serologic tests CAH reacted with trypsinized erythrocytes, and anti-chicken globulin. It did not react with other of the antigens or antibodies detected in the blood of malarious chickens. When the absorbed and eluted CAH was injected into normal chickens it produced an anaphylactic-like shock and caused a 25% reduction in red blood cell counts within 48 hours. Plasma samples collected during this interval showed signs of hemolysis. Reactions of blood cells from the recipient birds with fluorescein conjugated anti-chicken globulin indicated that CAH reacted with erythrocytes. The absence of fluorescent activity 3 days after injection suggested that these erythrocytes had been removed from the circulation. When normal chickens were injected with trypsinized autologous blood cells, CAH was detected within 3 days. The agglutination test again was active at temperatures below 22 degrees C and was negative when tested at 37 degrees C. In these birds the appearance of CAH was accompanied by reductions in red blood cell counts and by hemolysis. The results of these experiments suggest that CAH was not stimulated by plasmodial parasite antigen, but rather by autoantigens, which appear to be common to heterologous animal species, and which were in some manner expressed by the presence of the intracellular parasites, or by trypsin treatment. The experiments further suggest that this autohemagglutinin was partially causal of malarial anemia. The presence of other anemia factor(s) was indicated by anemia following injection of plasma that had been absorbed free of CAH.
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PMID:Pathogenesis of acute avian malaria. II. Anemia mediated by a cold-active autohemagglutinin from the blood of chickens with acute Plasmodium gallinaceum infection. 80 65

Human complement was activated by rodent malaria, Plasmodium berghei, sporozoites through the alternative pathway, as revealed by C3 deposition on sporozoites using the fluorescent antibody technique. Sporozoites exposed to fresh human serum decreased in infectivity to HepG2 cells, but those exposed to heated or C3-deficient human serum showed normal infectivity to HepG2 cells. In contrast, C3 deposition was not observed on the sporozoites treated with mouse or rat serum even in the presence of specific polyclonal anti-sporozoite antibody. However, following treatment with trypsin (250 micrograms/ml), 81% of salivary gland sporozoites and 49% of oocyst sporozoites became reactive with mouse serum, and reactive sporozoites deposited mouse C3 on their surface in the presence of 30 mM EGTA and 1 mM Mg2+ without antibody. Concomitantly some sporozoites lost reactivity to anti-circumsporozoite protein monoclonal antibody. These results suggest that P. berghei sporozoites possibly express surface molecules that regulate the complement activation pathway of susceptible hosts but not of nonhosts, and that the putative structures consist of protease-sensitive molecule(s) which are closely associated with the circumsporozoite protein.
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PMID:Plasmodium berghei: sporozoites are sensitive to human serum but not susceptible host serum. 142 38

Experimental cerebral malaria was recently found to occur in the squirrel monkey Saimiri sciureus when infected with the human malaria parasite Plasmodium falciparum. This report is concerned with the existence of spontaneous rosette formation ex vivo (infected blood samples) and in vitro (cultured parasites) between red blood cells (RBC) infected with squirrel monkey-adapted P. falciparum isolates and normal squirrel monkey RBC. Transfer of P. falciparum with high rosette formation tendencies (90-100 R+) from one donor monkey to several recipients gave rise to parasites that varied extensively in their ex vivo rosette formation capacity (4-96% R+). However, all individual parasites readily form rosettes after 24 hr of in vitro culture (60-95% R+). Host factors may be involved in the modulation of rosette formation, although it is found to occur both in splenectomized and spleen-intact animals. Cross-rosette formation is seen between parasitized human RBC and normal squirrel monkey RBC and vice versa, and rosettes formed by RBC of the two hosts are similarly affected by pH, temperature, EDTA, trypsin, as well as squirrel monkey and African human hyperimmune IgG. These characteristics of rosette formation are preserved after long-term in vitro culture in human RBC. Rosettes formed by some isolates are highly sensitive to heparin while others are not, suggesting at least two distinct mechanisms of rosette formation. This idea is also supported by the observation that specific squirrel monkey antisera to heparin-sensitive strains does not dissociate rosettes formed by a heparin-resistant strain. The results suggest that rosettes and anti-rosette formation antibodies formed by squirrel monkeys and humans exhibited similar characteristics, and that the squirrel monkey is therefore a good experimental model to study erythrocyte rosette formation and cerebral malaria.
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PMID:The squirrel monkey as an experimental model for Plasmodium falciparum erythrocyte rosette formation. 144 4

Secretion and luminal formation of the peritrophic membrane (PM) were induced in female Anopheles stephensi and Aedes aegypti by feeding the mosquitoes on a warmed suspension of latex particles in Ringer's solution. The PM in A. stephensi was produced from apical secretion vesicles stored in the midgut epithelial cells and secreted into the lumen during feeding. In A. aegypti, the PM was formed de novo. When the latex feeding was followed 24 hr later by a meal of lyophilized pig blood, the 2 mosquito species exhibited very different modifications to their PM structure; in A. stephensi no PM was formed around the blood meal, whereas de novo synthesis of the PM in A. aegypti continued during the blood meal, with the resulting PM greatly thickened compared to the normal feeding. This artificial induction of PM formation was used as the basis to study the role of the PM in blood meal digestion and in infectivity of mosquitoes by the appropriate species of Plasmodium. The feeding of a latex suspension alone had no stimulatory effect on the 2 major midgut proteases, trypsin and aminopeptidase, in either species. After a blood meal alone, proteases rose to maximum activity at 30 hr and 24 hr after feeding in A. stephensi and A. aegypti, respectively. After double feeding, protease activities in both species were almost identical to those in blood-fed mosquitoes. Neither the absence of a PM (in A. stephensi) nor the presence of a thickened PM (in A. aegypti), therefore, has any effect on the ability of mosquitoes to digest a blood meal. Malaria infectivity, measured by oocyst counts, also was compared after normal and double feeding using infective blood meals. Infectivity of A. stephensi by Plasmodium berghei was unaffected by the presence or absence of the PM. The thickened PM produced by double feeding in A. aegypti caused a reduction of midgut infectivity by Plasmodium gallinaceum. These results suggest that the PM may act as a partial, but not an absolute, barrier to invasion of the midgut by the ookinete.
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PMID:The role of the mosquito peritrophic membrane in bloodmeal digestion and infectivity of Plasmodium species. 159 85

This paper reports on an in vitro culture system for the exoerythrocytic (EE) stage of Plasmodium berghei (P.b.) using embryonic lung cells. The system was first developed by our laboratory in China. The embryonic lung cells were isolated by trypsin digestion of a human embryonic lung obtained from a therapeutic abortion case and was designated as cell line Elu 8801. Anopheles stephensi mosquitoes were infected by biting P.b. ANKA strain infected Kunming mice and after 18-21 days were dissected under aseptic conditions for preparation of a sporozoite suspension. This suspension was used to inoculate the monolayer cultures of Elu 8801. Regular examination found that following a cultivation for 48 hours, up to 100 multinuclear EE schizonts of P.b. could be observed on 1 x 1 cm cover slide. Seventy-two hours later mature merozoites were seen among part of the schizonts. An intraperitoneal inoculation of the supernatant culture medium to mice could induce malaria infection which could be transferred to other mice by blood inoculation. When the mice infected with the second generation were allowed to feed A. stephensi, sporozoites developed in the mosquitoes. The results demonstrate that the human embryonic lung cell line Elu 8801 established in our laboratory is susceptible to P.b. ANKA sporozoites and can support the developmental maturation of EE stages, producing potentially infectious merozoites.
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PMID:[In vitro cultivation of the exoerythrocytic stage of Plasmodium berghei]. 206 49

The malaria-induced surface antigens on Plasmodium falciparum-infected erythrocytes from West African patients were characterized by agglutination of infected cells by human sera, surface immunofluorescence of live infected cells, inhibition of cytoadherence to C32 melanoma cells by human sera, immunoelectron microscopy (immunoEM), and immunoprecipitation. In a nonimmune individual, serum antibody reactivity to surface antigens of infected cells was acquired during convalescence, as tested by all five methods, and was generally parasite isolate-specific. By contrast, adult hyperimmune West African sera reacted with many isolates, including isolates from geographically distinct regions. A quantitative correlation was established between agglutination and surface immunofluorescence assay titers, and between surface immunofluorescence assay and immunoEM reactivity, suggesting that a single antigen or a set of coexpressed antigens is being detected. Surface iodination of infected cells identified trypsin-sensitive high M, antigens in the sodium dodecyl sulfate extract. All sera tested that agglutinated infected cells also immunoprecipitated these antigens. The same surface antigens were immunoprecipitated by the homologous convalescent serum as by adult sera. By immunoEM these antigens were localized exclusively at the knob-like protrusions of infected cells, where they may participate in adherence to vascular endothelium.
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PMID:Characterization and localization of Plasmodium falciparum surface antigens on infected erythrocytes from west African patients. 207 55

Naturally occurring anti-band 3 autoantibodies bind to erythrocytes infected with a knobby variant of the human malaria Plasmodium falciparum (FCR-3 strain). The autoantibodies recognized a greater than 240 kDa protein in SDS extracts made from surface iodinated infected erythrocytes. The antigen was associated only with erythrocytes infected with a knobby variant, and was removed by trypsin treatment of intact infected cells. By two-dimensional peptide map analysis the antigen was shown to be structurally related to the human erythrocyte anion transporter, band 3.
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PMID:Naturally occurring anti-band 3 autoantibodies recognize a high molecular weight protein on the surface of Plasmodium falciparum infected erythrocytes. 265 93

A 135-kD parasite protein, a minor component of the Plasmodium knowlesi malaria radiolabeled proteins released into culture supernatant at the time of merozoite release and reinvasion, specifically bound to human erythrocytes that are invaded and carry a Duffy blood group determinant (Fya or Fyb), but did not bind to human erythrocytes that are not invaded and do not carry a Duffy determinant (FyFy). Specific anti-Duffy antibodies blocked the binding of the 135-kD protein to erythrocytes carrying that specific Duffy determinant. Purified 135-kD protein bound specifically to the 35-45-kD Duffy glycoprotein on a blot of electrophoretically separated membrane proteins from Fya and Fyb erythrocytes but not from FyFy erythrocytes. Binding of the 135-kD protein was consistently greater to Fyb than to Fya both on the blot and on intact erythrocytes. The 135-kD protein also bound to rhesus erythrocytes that are Fyb and are invaded, but not to rabbit or guinea pig erythrocytes that are Duffy-negative and are not invaded. Cleavage of the Duffy determinant by pretreating Fyb human erythrocytes with chymotrypsin greatly reduced both invasion and binding of the 135-kD protein, whereas pretreating Fyb erythrocytes with trypsin had little effect on the Duffy antigen, the 135-kD protein binding, or on invasion. However, instances of invasion of other enzyme-treated erythrocytes that are Duffy-negative and do not bind the 135-kD protein suggest that alternative pathways for invasion do exist.
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PMID:Receptor-like specificity of a Plasmodium knowlesi malarial protein that binds to Duffy antigen ligands on erythrocytes. 283 62

Gametocytes are the intraerythrocytic stages of malaria parasites that infect mosquitoes. When gametocytes of the chicken malaria parasite Plasmodium gallinaceum are ingested by a mosquito they become extracellular in the mosquito midgut, form gametes, and fertilize within 10 to 15 min after the insect has taken a blood meal. Gametocytes of P. gallinaceum were infectious when fed to Aedes aegypti mosquitoes in blood meals containing native serum from chickens or from the non-host species, man or sheep. Gametocytes stimulated to undergo gametogenesis and to fertilize in vitro were also infectious when fed to mosquitoes in native chicken serum. However, native serum from most non-host species, including sheep and man, suppressed the infectivity of newly fertilized zygotes to mosquitoes and lysed the zygotes in vitro. These effects were shown to be due to the activity of the alternative pathway of complement (APC) in the serum of the non-host species. After mild trypsin treatment, the zygotes of P. gallinaceum no longer infected mosquitoes in the presence of native chicken serum, although in heat-inactivated chicken serum their infectivity was normal. We conclude that trypsin-sensitive components on the zygotes surface protect them from destruction by the APC of their native host. The ability of gametocytes of P. gallinaceum to infect mosquitoes in the presence of native human serum is probably due to proteases that inactivate the APC of human serum before the gametes and zygotes emerge as extracellular parasites in the blood meal.
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PMID:Complement effects on the infectivity of Plasmodium gallinaceum to Aedes aegypti mosquitoes. I. Resistance of zygotes to the alternative pathway of complement. 351 68

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