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)

We studied the brains of rhesus monkeys infected with the primate malaria parasite Plasmodium fragile. Electron microscopy showed that, in these animals, erythrocytes infected with P. fragile undergo sequestration and that parasitized red blood cells adhere to endothelial cells in the cerebral microvessels by means of knobs. Cerebral microvessels with sequestered parasitized red blood cells were shown by immunohistochemical analysis to possess the platelet glycoprotein CD36, thrombospondin, and intracellular adhesion molecule-1. The formation of rosettes also was observed in the cerebral microvessels. In a fashion similar to human cerebral malaria, P. fragile produced neurological symptoms in the animals. Thus, rhesus monkeys infected with P. fragile, like those monkeys infected with Plasmodium coatneyi, can be used as a primate model to study human cerebral malaria.
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PMID:A nonhuman primate model for human cerebral malaria: rhesus monkeys experimentally infected with Plasmodium fragile. 751 25

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

Ultrastructural localization of CD36 in human hepatic sinusoidal lining cells, hepatocytes, human hepatoma (HepG2-A16) cells, and C32 amelanotic melanoma cells. Experimental Parasitology 79, 383-390. CD36 is expressed in the endothelial cells of some human organs, but the ultrastructural localization of this molecule in the sinusoidal lining cells of human liver is not well established. We report the ultrastructural localization of CD36 in the liver using a novel murine monoclonal antibody against CD36, namely MO30, as a primary antibody. Immunocytochemistry by the postembedding method showed that CD36 was localized in endothelial cells of sinusoids and in hepatocyte microvilli protruding into the space of Disse. Moreover, in cultured human hepatoma (HepG2-A16) cells and C32 amelanotic melanoma cells, MO30 reacted with microvilli. Hence, CD36 expressed on these cells may be involved in recognition and/or entry of these cells by malaria sporozoites.
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PMID:Ultrastructural localization of CD36 in human hepatic sinusoidal lining cells, hepatocytes, human hepatoma (HepG2-A16) cells, and C32 amelanotic melanoma cells. 752 38

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

Adhesion of parasitized red blood cells to vascular endothelium contributes to the ischaemic pathology of severe falciparum malaria. One of the endothelial cytoadhesion receptors, CD36, is also expressed by platelets. We have studied adhesion of flowing parasitized cells to a surface coated with immobilized, activated platelets, both as a model for CD36-mediated adhesion and because interaction with platelets might play a direct role in thrombotic complications of malaria. Parasitized cells were able to bind firmly to platelets over a range of shear stress (up to 0.3 Pa) close to those found in the microcirculation. The binding was largely abolished by treatment of platelets with antibody to CD36, with only a small effect by antibody to ICAM-1. Binding showed pH sensitivity consistent with previous reports of CD36-mediated cytoadhesion. Fixation of the platelet surface with formaldehyde preserved adhesion and its antibody sensitivity, while fixation with glutaraldehyde greatly reduced adhesion and increased the sensitivity to antibody against ICAM-1. Thus CD36-mediated binding is inhibited by glutaraldehyde--but not formaldehyde--fixation, while ICAM-1 can mediate adhesion after either form of fixation. We conclude that platelet-coated surfaces (with or without fixation) represent a practically simple model for studying malarial cytoadhesion and that platelets are likely to be able to bind parasitized cells in vivo and could thus promote vascular occlusion.
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PMID:Plasmodium falciparum: characterization of adhesion of flowing parasitized red blood cells to platelets. 752 16

The human CD36 antigen is a multifunctional membrane glycoprotein that acts as a receptor for thrombospondin, malaria-infected erythrocytes and oxidized low-density lipoprotein, as well as being implicated in the recognition of apoptotic neutrophils by macrophages. OKM5 and other anti-CD36 monoclonal antibodies have been shown to inhibit these CD36 adhesive functions, suggesting that the monoclonal-antibody epitopes and the domains that mediate these events are closely related. Analysis of a series of chimaeric exchanges between human and mouse CD36 shows that six anti-CD36 monoclonal antibodies (OKM5, FA6-152, L103, 5F1, SM phi and 10/5) recognize epitopes within the domain comprising amino acids 155-183. A seventh monoclonal antibody (13/10) binds to another domain that spans amino acids 30-76. Homologue-replacement mutagenesis performed within the human 155-183 immunodominant sequence identifies key residues for the binding of three functional monoclonal antibodies (OKM5, FA6-152 and L103). The fact that antibodies directed against the 155-183 domain can inhibit adhesion suggests that this domain is directly involved in CD36-ligand binding.
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PMID:Identification of an immunodominant functional domain on human CD36 antigen using human-mouse chimaeric proteins and homologue-replacement mutagenesis. 752 96

Plasmodium falciparum-infected human erythrocytes evade host immunity by expression of a cell-surface variant antigen and receptors for adherence to endothelial cells. These properties have been ascribed to P. falciparum erythrocyte membrane protein 1 (PfEMP1), an antigenically diverse malarial protein of 200-350 kDa on the surface of parasitized erythrocytes (PEs). We describe the cloning of two related PfEMP1 genes from the Malayan Camp (MC) parasite strain. Antibodies generated against recombinant protein fragments of the genes were specific for MC strain PfEMP1 protein. These antibodies reacted only with the surface of MC strain PEs and blocked adherence of these cells to CD36 but without effect on adherence to thrombospondin. Multiple forms of the PfEMP1 gene are apparent in MC parasites. The molecular basis for antigenic variation in malaria and adherence of infected erythrocytes to host cells can now be pursued.
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PMID:Cloning the P. falciparum gene encoding PfEMP1, a malarial variant antigen and adherence receptor on the surface of parasitized human erythrocytes. 760 74

The adhesion of parasitized red blood cells (PRBC) to the endothelium (sequestration) may contribute to the pathogenic events in severe human malaria caused by P. falciparum. However, the factors involved in the pathophysiology, especially cerebral malaria are poorly understood. Previously, we have shown that the squirrel monkey Saimiri sciureus is a potential model for human cerebral malaria. In this paper we describe five stable clones of endothelial cell lines isolated immediately postmortem from different regions of the brain of Saimiri monkeys. The endothelial cell characteristics of these clones were confirmed by analyzing their ultrastructural aspects by transmission electron microscopy and by immunodetection of various endothelial cell markers. The Saimiri brain endothelial cell clones (SBEC) varied in their expression of different surface molecules. For example, various combinations of receptors involved in P. falciparum PRBC adherence such as CD36, ICAM-1 and E-selectin, were expressed at baseline values and could be up-regulated by human srTNF-alpha and human srIFN-gamma. One of the SBEC clones showed a strong cytoadherence for various laboratory strains of P. falciparum despite the absence of surface expression of any of the known endothelial receptors implicated in PRBC adherence. This finding suggests the existence of a new and uncharacterized PRBC binding receptor. The use of target organ specific endothelial cell lines expressing a number of different potential P. falciparum PRBC cytoadherence receptors, will be a useful in vitro system for the evaluation of strategies for the development of vaccine and antimalarial drugs to prevent human cerebral malaria.
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PMID:Isolation and characterization of brain microvascular endothelial cells from Saimiri monkeys. An in vitro model for sequestration of Plasmodium falciparum-infected erythrocytes. 762 66

Cytoadherence to HB3 and FC27 strains of Plasmodium falciparum-parasitized red blood cells (PRBC) was studied under shear conditions to elucidate the pathways of adherence to microvascular endothelial cells (MEC). HB3 PRBC bound exclusively to MEC CD36 and intercellular adhesion molecule-1 (ICAM-1) receptors. FC27 PRBC bound to CD36 and another unidentified pathway but not to ICAM-1. Down-regulation of CD36 and ICAM-1 expression by phorbol 12,13-dibutyrate abolished HB3 PRBC adherence. Selective up-regulation of CD36 with interferon-gamma (IFN-gamma) increased PRBC adherence. Conversely, selective up-regulation of ICAM-1 with tumor necrosis factor did not elevate cytoadherence. These data have defined the relative contributions of both CD36 and ICAM-1 to PRBC binding to MEC and have provided evidence for the presence of a novel adhesion mechanism. Furthermore, in addition to antibody blocking of cell adhesion molecules, anti-IFN-gamma antibody therapy or pharmacologic manipulation of endothelial cell receptor expression may reduce PRBC sequestration and ameliorate the events associated with human cerebral malaria.
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PMID:Cytoadherence of Plasmodium falciparum-infected erythrocytes to microvascular endothelium is regulatable by cytokines and phorbol ester. 768 61

Sequestration of Plasmodium falciparum infected erythrocytes in the cerebral circulation is strongly implicated in the pathogenesis of cerebral malaria. From previous studies it was postulated that genes essential for cytoadherence were located on the right arm of chromosome 9 as P. falciparum isolates with a deletion in this region lost the capacity to cytoadhere in vitro and no longer expressed Plasmodium falciparum erythrocyte membrane protein-1 (PfEMP-1) on the surface of the infected cells. We have selected a P. falciparum isolate from Papua New Guinea for high levels of cytoadherence to human umbilical vein endothelial cells (HUVECs) and have shown that the cloned parasite has several novel properties related to cytoadherence. The cloned parasite adheres to HUVECs, does not bind to melanoma cells, and expresses a surface molecule with most of the properties of PfEMP-1, despite a deletion in the right arm of chromosome 9. Interestingly, the surface expressed PfEMP-1 in this strain is resistant to trypsin treatment and infected cells continue to cytoadhere after trypsin digestion at a concentration of 100 micrograms ml-1. The receptor on HUVECs for the cloned parasite lines is a molecule different from any previously described, as parasitized cells do not adhere to soluble intercellular adhesion molecule 1, thrombospondin, vascular cell adhesion molecule 1, E-selectin or P-selectin, nor to CD36. Our work, taken together with the results from previous studies, suggest that the ability of parasites to cytoadhere is encoded in at least two distinct genomic locations in the parasite, and the diversity of receptor-ligand interaction is greater than previously described.
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PMID:A Plasmodium falciparum isolate with a chromosome 9 deletion expresses a trypsin-resistant cytoadherence molecule. 783 80


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