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)

The intercellular adhesion molecule-1 (ICAM-1, CD54) is one of three putative endothelial receptors that mediate in vitro cytoadherence of P. falciparum-infected erythrocytes. Since cytoadherence to postcapillary venular endothelium is thought to be a major factor in the virulence of P. falciparum malaria, we have examined the interaction between ICAM-1 and the P. falciparum-infected cell, and have compared it with the interaction to the physiological counter receptor, the leukocyte integrin LFA-1. Our results demonstrate that the malaria-binding site resides in the first two domains of the ICAM-1 molecule and overlaps, but is distinct from, the LFA-1 site.
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PMID:The binding site on ICAM-1 for Plasmodium falciparum-infected erythrocytes overlaps, but is distinct from, the LFA-1-binding site. 137 Jun 56

A major factor in the pathogenesis of human cerebral malaria is blockage of cerebral microvessels by the sequestration of parasitized human red blood cells (PRBC). In vitro studies indicate that sequestration of PRBC in the microvessels is mediated by the attachment of knobs on PRBC to receptors on the endothelial cell surface such as CD36, thrombospondin (TSP), and intercellular adhesion molecule-1 (ICAM-1). However, it is difficult to test this theory in vivo because fresh human brain tissues from cerebral malarial autopsy cases are not easy to obtain. Although several animal models for human cerebral malaria have been proposed, none have shown pathologic findings that are similar to those seen in humans. In order to develop an animal model for human cerebral malaria, we studied brains of rhesus monkeys infected with the primate malaria parasite, Plasmodium coatneyi. Our study demonstrated PRBC sequestration and cytoadherence of knobs on PRBC to endothelial cells in the cerebral microvessels of these monkeys. Cerebral microvessels with sequestered PRBC were shown by immunohistochemical analysis to possess CD36, TSP, and ICAM-1. These proteins were not evident in the cerebral microvessels of uninfected control monkeys. Thus, our study indicates, for the first time, that rhesus monkeys infected with P. coatneyi can be used as a primate model to study human cerebral malaria. By using this animal model, we may be able to evaluate strategies for the development of vaccines to prevent human cerebral malaria.
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PMID:A primate model for human cerebral malaria: Plasmodium coatneyi-infected rhesus monkeys. 137 20

Adherence of Plasmodium falciparum-infected erythrocytes (IE) to the venular endothelium in brain and other organs is characteristic of cerebral malaria, an often fatal complication in infected individuals. It has been shown that cytoadherence may be mediated through interaction of IE with glycoproteins on host target cell surfaces, including CD36 (GPIV), intercellular adhesion molecule-1 (ICAM-1), and thrombospondin. Inhibitors of glycoprotein synthesis and processing were tested for their abilities to decrease IE adherence to C32 human melanoma cells. The alpha-glucosidase inhibitor, castanospermine, was effective in disrupting cytoadherence in vitro when incubated with C32 cells (IC50 = 600-700 microM). Castanospermine-6-butyrate was even more effective than the parent compound (IC50 = 9 microM) in disrupting cytoadherence. The mannosidase inhibitors, swainsonine and deoxymannojirimycin, had no effect on cytoadherence at concentrations up to 2 mM. No effect on cytoadherence was observed when the glucosidase and mannosidase inhibitors were incubated with IE rather than the C32 cell cultures. The level of CD36 on the C32 cell surface was decreased as measured by fluorescence-activated cell sorting (FACS) analysis with the same inhibitors which inhibited cytoadherence. Cells labeled with fluorescein isothiocyanate (FITC) OKM5 monoclonal antibody, which recognizes CD36 and disrupts cytoadherence, showed decreased fluorescence when treated with tunicamycin and castanospermine-6-butyrate but not when treated with swainsonine or deoxymannojirimycin. ICAM-1 levels, as measured by surface labeling of C32 cells with FITC CD54 monoclonal antibody, were decreased in cells treated with tunicamycin. However, incubation of cells with castanospermine-6-butyrate or deoxymannojirimycin decreased cell surface ICAM-1 levels only slightly. These findings suggest that (1) in C32 cells, levels of cell surface CD36, and not ICAM-1, change proportionally to the level of cytoadherence; (2) drugs which can affect the carbohydrate moiety of cellular glycoproteins decrease cytoadherence of IE to C32 cells; and (3) protection against the development of cerebral malaria may be possible with inhibitors of glycoprotein biosynthesis.
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PMID:Disruption of Plasmodium falciparum-infected erythrocyte cytoadherence to human melanoma cells with inhibitors of glycoprotein processing. 171 Jan 20

Blockage of the cerebral microvasculature by Plasmodium falciparum-infected erythrocytes appears to be the principal cause of human cerebral malaria. Knobs which appear on the membrane of the infected erythrocytes adhere to the endothelium, causing the obstruction of cerebral microvessels. Protein molecules such as CD36, thrombospondin, and intercellular adhesion molecule-1, which are present on the membrane of endothelial cells, may act as receptors for the attachment of knobs of P. falciparum-infected erythrocytes. Each of these candidate host molecules for infected-cell recognition and attachment are expressed in microvessels of the human brain. The presence of HRP1 and HRP2 in the cerebral microvessels of cerebral malaria patients may indicate the involvement of knob proteins in the pathogenesis of cerebral malaria. Owl monkeys infected with P. falciparum do not develop cerebral malaria. There is no blockage of cerebral microvessels by infected erythrocytes and knob proteins are absent. These findings support the contention that cerebral microvessel blockage and the presence of knob proteins are the probable causes of cerebral malaria.
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PMID:The pathology of human cerebral malaria. 220 27

The primary event in the pathogenesis of severe malaria in Plasmodium falciparum infection is thought to be adherence of trophozoite- and schizont-infected erythrocytes to capillary endothelium, a process called sequestration. Identifying the endothelial molecules used as receptors is an essential step in understanding this disease process. Recent work implicates the membrane glycoprotein CD36 (platelet glycoprotein IV; refs 2-5) and the multi-functional glycoprotein thrombospondin as receptors. Although CD36 has a widespread distribution on microvascular endothelium, it may not be expressed on all capillary beds where sequestration occurs, especially in the brain. The role of thrombospondin in cell adhesion, in vitro or in vivo, is less certain. We have noticed that some parasites bind to human umbilical-vein endothelial cells independently of CD36 or thrombospondin. To screen for alternative receptors, we have developed a novel cell-adhesion assay using transfected COS cells, which confirms that CD36 is a cell-adhesion receptor. In addition, we find that an endothelial-binding line of P. falciparum binds to COS cells transfected with a complementary DNA encoding intercellular adhesion molecule-1. As this molecule is widely distributed on capillaries and is inducible, this finding may be relevant to the pathogenesis of severe malaria.
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PMID:Intercellular adhesion molecule-1 is an endothelial cell adhesion receptor for Plasmodium falciparum. 247 84

We studied the effects of artesunate on rhesus monkeys infected with Plasmodium coatneyi. Sixteen rhesus monkeys were divided in four groups. Group I consisted of three monkeys that were splenectomized and were treated with three doses (loading dose: 3.3 mg/kg, maintenance doses: 1.7 mg/kg) of artesunate, group II consisted of three monkeys that were treated with three doses of artesunate (same as group I), group III consisted of two monkeys that were treated with one dose (3.3 mg/kg) of artesunate, and group IV consisted of five untreated monkeys. Parasitemias of these groups ranged from 13.3% to 19.5% before treatment. Twenty-four hours after administration, the parasitemia was reduced to 2.2% in group I and to < 0.1% in group II; parasitemia was lowered to 10.6% in group III only 3 hr after drug administration. The rate of sequestration in the cerebral microvessels, which was 29.4% in untreated animals, was < 0.1% in groups I and II (24 hr after treatment), and 2.0% in group III (3 hr after treatment). These data clearly indicate that artesunate not only reduced parasitemia, but also reduced the rate of parasitized red blood cell (PRBC) sequestration in cerebral microvessels. In an immunohistologic study, endothelial-leukocyte adhesion molecule-1 (ELAM-1) was not detected in group I after treatment with artesunate, although the presence of CD36, thrombospondin, intercellular adhesion molecule-1, IgG, and C3 in the cerebral microvessels was not altered. This is the first in vivo study to show that artesunate interferes with continued PRBC sequestration in the cerebral microvessels in cerebral malaria.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A nonhuman primate model for human cerebral malaria: effects of artesunate (qinghaosu derivative) on rhesus monkeys experimentally infected with Plasmodium coatneyi. 750 97

Adhesion of parasitized erythrocytes to microvascular endothelium is a central event in the pathogenesis of severe falciparum malaria. We have characterized the adhesion of flowing parasitized red blood cells to three of the known endothelial receptors coated on plastic surfaces (CD36, intercellular adhesion molecule-1 (ICAM-1) and thrombospondin (TSP)), and also to cells bearing these receptors (human umbilical vein endothelial cells (HUVEC) and platelets). All of the surfaces could mediate adhesion at wall shear stress within the physiological range. The great majority of adherent parasitized cells formed rolling rather than static attachments to HUVEC and ICAM-1, whereas static attachments predominated for platelets, CD36 and TSP. Studies with monoclonal antibodies verified that binding the HUVEC was mainly via ICAM-1, and to platelets via CD36. Adhesion via ICAM-1 was least sensitive to increasing wall shear stress, but absolute efficiency of adhesion was greatest for CD36, followed by ICAM-1, and least for TSP. TSP did not give long-lasting adhesion under flow, whereas cells remained adherent to CD36 or ICAM-1. We propose that the different receptors may have complementary roles in modulating adhesion in microvessels. Initial interaction at high wall shear stress may be of a rolling type, mediated by ICAM-1 or other receptors, with immobilization and stabilization occurring via CD36 and/or TSP.
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PMID:Rolling and stationary cytoadhesion of red blood cells parasitized by Plasmodium falciparum: separate roles for ICAM-1, CD36 and thrombospondin. 752 15

The sequestration of parasitized erythrocytes in the microvasculature of vital organs is central to the pathogenesis of severe Plasmodium falciparum malaria. This process is mediated by specific interactions between parasite adherence ligands and host receptors on vascular endothelium such as intercellular adhesion molecule-1 (ICAM-1) and CD36. Using immunohistochemistry we have examined the distribution of putative sequestration receptors in different organs from fatal cases of P. falciparum malaria and noninfected controls. Receptor expression and parasite sequestration in the brain were quantified and correlated. Fatal malaria was associated with widespread induction of endothelial activation markers, with significantly higher levels of ICAM-1 and E-selectin expression on vessels in the brain. In contrast, cerebral endothelial CD36 and thrombospondin staining were sparse, with no evidence for increased expression in malaria. There was highly significant co-localization of sequestration with the expression of ICAM-1, CD36, and E-selectin in cerebral vessels but no cellular inflammatory response. These results suggest that these receptors have a role in sequestration in vivo and indicate that systemic endothelial activation is a feature of fatal malaria.
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PMID:An immunohistochemical study of the pathology of fatal malaria. Evidence for widespread endothelial activation and a potential role for intercellular adhesion molecule-1 in cerebral sequestration. 752 92

Increased serum concentrations of soluble intercellular adhesion molecule-1 (sICAM-1), soluble endothelial leucocyte adhesion molecule-1 (sELAM-1) and soluble vascular cell adhesion molecule-1 (sVCAM-1) were detected in Danish malaria patients infected with sequestering Plasmodium falciparum or non-sequestering P. vivax parasites, as well as in patients with sepsis or meningitis. Levels of soluble adhesion molecules remained elevated in the P. falciparum patients for several weeks after initiation of treatment. Plasma concentrations of sICAM-1, sVCAM-1 and sELAM-1 were higher in Gambian children with severe P. falciparum malaria than in children with mild malaria. Plasma levels of sVCAM-1 and sELAM-1 were significantly correlated. Plasma levels of sELAM-1 and sVCAM-1 may reflect endothelial inflammatory reactions and these reactions may be harmful for humans infected with malaria parasites.
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PMID:Increased plasma concentrations of sICAM-1, sVCAM-1 and sELAM-1 in patients with Plasmodium falciparum or P. vivax malaria and association with disease severity. 753 38

Adhesion of parasitized red blood cells to vascular endothelium is considered to be a major factor in the pathophysiology of falciparum malaria, and so the molecular mechanisms and rheologic characteristics of this interaction are of profound importance. We have investigated the adhesive behavior of wild-type parasite isolates cultured from the blood of Gambian children with falciparum malaria and allowed to flow over surfaces coated with formaldehyde-fixed human umbilical vein endothelial cells (HUVEC) or platelets. Parasitized cells were able to attach to HUVEC and/or to platelets, and studies with monoclonal antibodies showed that intercellular adhesion molecule-1 (ICAM-1) and CD36 antigen were the major mediators of adhesion for the two surfaces, respectively. The levels of adhesion to HUVEC and to platelets were highly variable but did not correlate with each other, so that different isolates express independently variable capacities to bind to the two receptors. Adhesion was stationary for platelets and generally at a higher level compared with binding to HUVEC, which was predominantly (about 60%) of a rolling type. The stationary component of adhesion to HUVEC represented a greater proportion of adhesion for the wild isolates than for laboratory-adapted strains, and this form of adhesion was relatively insensitive to antibody to ICAM-1. This suggests the existence of an additional endothelial cell-expressed receptor for the wild isolates. These studies show wide variation in the ability of wild isolates of Plasmodium falciparum to adhere to ICAM-1, CD36 antigen, and possibly other receptors in the presence of physiologically relevant flow.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanisms of cytoadhesion of flowing, parasitized red blood cells from Gambian children with falciparum malaria. 754 44


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