UMLS:C0024530 - FACTA Search

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

It has earlier been shown that the Plasmodium falciparum-reactive human monoclonal antibody 33G2 inhibits parasite growth in vitro as well as cytoadherence of infected red blood cells to melanoma cells in vitro. MoAb 33G2 recognizes an epitope of the P. falciparum antigen Ag332 and cross-reactive determinants in Pf155/RESA and Pf11.1 located in repetitive regions containing sequences of regularly spaced pairs of glutamic acid. To study whether antibodies of this specificity frequently occur in human immune sera and if they could be of importance for protective immunity, antibodies were affinity purified on MoAb 33G2 reactive Ag332 peptides. The epitope specificity of the affinity purified antibodies, determined by the Pepscan method, resembled that of MoAb 33G2, but showed differences in fine specificity. The antibodies cross-reacted to some extent with Pf11.1 and Pf155/RESA repeat peptides as detected by peptide ELISA and Pepscan. In indirect immunofluorescence all purified antibodies displayed a dotted pattern of staining of late stage infected red blood cells of two lines of the P. falciparum strain FCR3, including a Pf155/RESA deficient line. The in vitro growth of these two lines was efficiently inhibited by the affinity purified antibodies, indicating that their inhibitory effect was mainly due to reactivity with antigens other than Pf155/RESA. This, and the fact that Pf11.1 has been shown not to be expressed by the asexual stages suggests that Ag332 may be an important target for potentially protective antibodies in vivo and that Ag332 based immunogens are of interest for development of malaria subunit vaccines.
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PMID:Epitope specificity and capacity to inhibit parasite growth in vitro of human antibodies to repeat sequences of the Plasmodium falciparum antigen Ag332. 769 77

Invasion of erythrocytes by malaria parasites involves multiple receptor-ligand interactions. To elucidate these pathways, we made use of four parasite clones with differing specificities for invasion, erythrocytes that are mutant for either glycophorin A or B, and enzyme modification of the erythrocyte surface with neuraminidase and trypsin. Neuraminidase alone abolishes invasion of two parasite clones (Dd2, FCR3/A2); these invade after trypsin treatment alone. A third clone (7G8) is unable to invade trypsin-treated erythrocytes. The fourth clone (HB3) can invade after either neuraminidase or trypsin treatment. The receptor for invasion of trypsin-treated erythrocytes was explored in two ways: treatment of trypsin-treated normal cells with neuraminidase, and trypsin treatment of glycophorin B-deficient cells. Both treatments eliminated invasion by all clones, indicating that the trypsin-independent pathway uses sialic acid and glycophorin B. To identify parasite proteins involved in the different pathways, erythrocyte binding assays were performed with soluble parasite proteins from each clone. Based on binding assays using erythrocytes that lack glycophorin A, the parasite protein known as EBA-175 appears to bind predominantly to glycophorin A. In contrast, the glycophorin B pathway does not appear to involve EBA-175, as binding of EBA-175 was similarly reduced to trypsin-treated normal and trypsin-treated glycophorin B-deficient erythrocytes. Thus, the glycophorin B-dependent, sialic acid-dependent invasion of trypsin-treated normal erythrocytes uses a different parasite ligand, indicating two or more sialic-dependent pathways for invasion. Clone 7G8, which cannot invade trypsin-treated erythrocytes, may be missing the ligand for invasion via glycophorin B.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glycophorin B as an EBA-175 independent Plasmodium falciparum receptor of human erythrocytes. 807 23

The squirrel monkey, Saimiri sciureus, is a useful experimental host for the human malaria parasite Plasmodium falciparum. Twelve strains of P. falciparum, including monkey-adapted strains, culture-derived strains, and one human isolate were injected into naive, splenectomized Saimiri monkeys of karyotype 14-7. Several parameters were recorded following inoculation such as parasitemia, body temperature, standard hematological parameters, gametocytemia, rosette formation, autoagglutination, as well as HRPI and PfEMP3 expression. Each strain was injected into two to four monkeys and induced a reproducible course of infection. Four distinct patterns of parasite development were observed. For each strain, a multilocus genotype was established by PCR using several polymorphic (Pf60, RESA, RESA2, MSA1, MSA2, Pf332, TRAP, GLURP, CSP, and HRPI) or conserved (EBA175, GARP, MDRI, and RNA POL III) markers. RFLP analysis was conducted for the Pf11.1 locus. This genotyping approach showed that 3 strains presented strictly similar patterns, typical of FUP/SP parasites. A group of 7 other strains presented a highly similar FUP/CP (FCR3-like) genetic background, while 4 other strains showed unique patterns. Infectiousness did not depend on a RESA deletion, as several strains developed successfully while present ng a wild-type RESA gene. Conversely, an interesting correlation was found between allelic diversity at the HRPI locus and the course of blood stage infection. The data presented here provide the first precise genotyping of several monkey-adapted strains, allowing a more rational approach in the study of the role of parasite diversity on host/parasite interactions.
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PMID:Plasmodium falciparum: genetic diversity of several strains infectious for the squirrel monkey (Saimiri sciureus). 888 29

The Plasmodium falciparum multigene var family codes for approximately 50 variant adhesive proteins expressed in a mutually exclusive manner at the surface of infected red blood cells (iRBCs). Switching expression of var genes can lead to fundamental changes in the adhesive and antigenic properties of iRBCs. For example, a specific phenotypic switch in adhesion from CD36 to chondroitin sulphate A (CSA) is associated with malaria pathogenesis in pregnant women. The factors and DNA elements that control the expression of a particular member of the var gene family during gestational malaria remains enigmatic. Here, we report that the subtelomeric FCR3 varCSA is expressed under the control of a unique DNA element of 1.8 kb, whereas the other members of the var multigene family are flanked by common regulatory elements. The 5' varCSA-type element is conserved as a single copy in laboratory strains and clinical isolates from Brazil and West Africa and contains two distinct repetitive elements of 150 bp and 60 bp respectively. The 5' varCSA-type sequence tags a var gene in the 3D7 genome that is homologous to the FCR3 varCSA gene. A recombinant DBL gamma domain of this var gene showed specific binding to CSA. This subtelomeric varCSA gene is transcribed in the opposite sense when compared with the usual orientation of telomere-adjacent var genes. This unique arrangement might explain why the varCSA gene is relatively conserved in genetically distinct parasites despite being located in a highly recombinogenic chromosome compartment. The 5' untranslated region (UTR) of the varCSA-type sequence is also transcribed in placental isolates that bind to CSA, illustrating an important role for the unique 5' varCSA-type sequence in the regulation of var genes involved in malaria pathogenesis in pregnant women. However, this promoter is not always found to be transcribing var genes selected for expression of products that bind to CSA in vitro. Our work identifies a sequence tag for the identification of varCSA genes in placental isolates for the first time.
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PMID:A distinct 5' flanking var gene region regulates Plasmodium falciparum variant erythrocyte surface antigen expression in placental malaria. 1210 May 56

Adhesion to chondroitin sulfate A (CSA), a distinguishing feature of malaria parasites obtained from the human placenta, might be mediated by the Duffy-binding-like (DBL) gamma domain of the variant surface antigen Plasmodium falciparum erythrocyte membrane protein-1 (PfEMP1). We studied transcription of var genes (that encode PfEMP1) in placental parasites by amplifying and sequencing DBLgamma fragments from genomic DNA and cDNA of field isolates collected in western Kenya. We amplified DBLgamma fragments with divergent sequences from individual isolates by using various sequence-specific or degenerate primers. Transcripts detected with degenerate primers clustered phylogenetically within two DBLgamma subtypes with homology to chr5_1.gen_150 or FCR3.varCSA. Interestingly, the DBLalpha encoded by chr5_1.gen_150 was recently found to be commonly expressed by placental isolates from Malawi (Mol. Biochem. Parasitol. 185 (2002) 1207). The findings are consistent with earlier serologic evidence that surface antigens of placental parasites have conserved features, and suggest that vaccines based on DBLgamma may only need to target a limited number of variants.
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PMID:Two DBLgamma subtypes are commonly expressed by placental isolates of Plasmodium falciparum. 1210 74

The amino-terminal region of the serine repeat antigen (SERA) of Plasmodium falciparum is a major malaria-vaccine candidate. Variation in this molecule is essentially dimorphic and alleles may be grouped into the types FCR3, K1 and Honduras1. The Honduras1-type is thought to be the product of homologous recombination between FCR3 and K1 alleles. Here we have examined patterns of sequence diversity in exon II of SERA gene, which encodes most of the amino-terminal region of the antigen, in wild P. falciparum isolates from Indonesia (n=60), Myanmar (n=10) and Thailand (n=14). Among the Indonesian isolates the FCR-3 type predominated (56/60), twenty of which we characterized as novel alleles. A new K1-type allele was also found. In Myanmar, however, all isolates displayed K1-type SERA sequences, which included one new allele. The Honduras1-type was not detected in both countries. In contrast, the 14 isolates from Thailand displayed all three allelic types, with one new Honduras1-type and three new K1-type alleles. On examining the global distribution of SERA alleles by combining previously published sequence data with our results, the FCR3-type alleles predominated in Indonesia, Brazil, and Solomon Islands, but were not found in wild isolates from Myanmar and Africa. Brazil was the only area where K1-type alleles were not found. The distribution of Honduras1-type alleles seems to be mostly restricted to parasite populations from Vietnam, Thailand and Africa. In the allelic families FCR3 and K1, most diversity resulted from variation in sequence and number of octamer repeat units and of allotypes encoding the stretch of serine residues. Sequence analysis indicated that both insertions and deletions of repetitive motifs (creating variation within dimorphic allelic families) and homologous recombination between alleles belonging to different allelic families (creating Honduras1-type alleles) play a role in generating new SERA alleles. Since repeat motifs in the amino-terminal region of SERA contain epitopes recognized by parasite-inhibitory antibodies, sequence variation in exon II may represent one of the parasite's immune-evasion strategies.
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PMID:Sequence diversity in the amino-terminal region of the malaria-vaccine candidate serine repeat antigen in natural Plasmodium falciparum populations. 1279 23

Maternal malaria is associated with the sequestration, in the placenta, of Plasmodium falciparum-infected erythrocytes onto chondroitin sulfate A (CSA), via the duffy binding-like (DBL)-gamma3 domain of the P. falciparum erythrocyte membrane protein 1 (PfEMP1(CSA)) (DBL-gamma3(CSA)). The production of antibodies against CSA-binding infected erythrocytes (IEs(CSA)) is correlated with resistance to maternal malaria in multiparous women. We produced recombinant DBL-gamma3(CSA) (rDBL-gamma3(CSA)) in insect cells, corresponding to 2 variant DBL-gamma3(CSA) subtypes that mediate binding to CSA in laboratory lines and placental isolates. Both recombinant cysteine-rich DBL-gamma3(CSA) domains blocked IEs(CSA) binding to CSA. Immunization of mice, with the rDBL-gamma3(CSA)-FCR3 and rDBL-gamma3(CSA)-3D7 domains, resulted in the generation of antibodies recognizing homologous and heterologous rDBL-gamma3(CSA), a finding indicating conserved epitopes inducing a pan-reactive immune response. Mouse monoclonal antibodies (MAbs) against both recombinant proteins were pan-reactive with various IEs(CSA). One MAb efficiently inhibited and reversed IE(CSA) cytoadhesion to endothelial cells in vitro. Thus, DBL-gamma3(CSA) is the target of inhibitory and pan-reactive antibodies. Saimiri sciureus monkeys immunized with FCR3-rDBL-gamma3(CSA) developed pan-reactive and inhibitory antibodies, a finding suggesting that the development of a vaccine to prevent maternal malaria is feasible.
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PMID:Immunization with recombinant duffy binding-like-gamma3 induces pan-reactive and adhesion-blocking antibodies against placental chondroitin sulfate A-binding Plasmodium falciparum parasites. 1282 85

Protection against maternal malaria has been associated with the acquisition of a specific antibody response that prevents adhesion of Plasmodium falciparum-infected erythrocytes to the glycosaminoglycan chondroitin-4-sulphate (CSA), which is present in the placental intervillous space. These antibodies are directed against variant forms of the P. falciparum erythrocyte membrane protein 1 (PfEMP1) that mediate binding to CSA. We have generated insertional disruption mutants of the gene encoding the CSA-binding phenotype in the P. falciparum clone FCR3 (varCSA) to test the hypothesis that strategies targeting the parasite's determinant for this adhesive phenotype may prevent sequestration of infected erythrocytes in the placenta and hence the development of maternal malaria. The varCSA-disruption mutants were initially unable to adhere to CSA; however, they could recover the phenotype after repeated selection over CSA. We show that recovery of CSA binding is varCSA independent and mediated by the activation of a novel var variant. Importantly, the corresponding PfEMP1 protein reacts with a monoclonal antibody recognizing the DBL3 gamma domain of the varCSA gene product, indicating that the DBL3 gamma CSA-binding domains are conserved between these PfEMP1-binding variants. Our data support strategies exploring these conserved epitopes as vaccine candidates against maternal malaria.
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PMID:Recovery of adhesion to chondroitin-4-sulphate in Plasmodium falciparum varCSA disruption mutants by antigenically similar PfEMP1 variants. 1286 50

The adhesion of Plasmodium falciparum-infected erythrocytes (IEs) to chondroitin-4-sulfate (CSA) via the PfEMP1-CSA parasite ligand domain is correlated with placental malaria in primigravidae. The recent identification of parasite genes encoding CSA adhesion molecules and the development of pan-reactive monoclonal antibodies against the Pf(CSA) ligand have opened up new avenues for the development of anti-IE sequestration therapies for the prevention of placental malaria. A model closely mimicking placental sequestration of IEs during pregnancy is needed for the preclinical and clinical evaluation of candidate molecules for the induction of antibodies that could protect pregnant women from placental malaria. We found that normal placenta cryosections were a specific and highly consistent support for the binding of IEs to CSA in flow conditions under physiological conditions. This model makes possible the quantitative and qualitative analysis of IE adhesion. We identified distinct CSA-binding phenotypes within the FCR3(CSA)-selected parasites in flow analyses, but not in static analyses. We also analyzed inhibitors of placental parasite binding such as soluble CSA and antibodies directed against the Pf(CSA) ligand. Our data demonstrate that placenta cryosections could be used to standardize assays between laboratories, potentially advancing the development of therapies against placental malaria.
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PMID:Placenta cryosections for study of the adhesion of Plasmodium falciparum-infected erythrocytes to chondroitin sulfate A in flow conditions. 1502 11

The complications of malaria in pregnancy are caused by the massive sequestration of parasitized erythrocytes (PE) in the placenta. Placental isolates of Plasmodium falciparum are unusual in that they do not bind the primary microvasculature receptor CD36 but instead bind chondroitin sulphate A (CSA). Pregnant mothers develop antibodies that recognize placental variants worldwide, suggesting that a vaccine against malaria in pregnancy is possible. Some members of the Duffy binding-like gamma (DBL-gamma) domain of the large and diverse P. falciparum erythrocyte membrane protein-1 (PfEMP-1) family, when expressed on Chinese hamster ovary (CHO) cells, bind CSA. To characterize better the molecular requirements for DBL-gamma adhesion to CSA, we determined the binding of various DBL-gamma domains. Most DBL-gamma did not bind CSA, and no conserved region was identified that strictly differentiated binders from non-binders. Structure-function analysis of the FCR3-CSA DBL-gamma domain localized the minimal CSA binding region to a 67-residue fragment. This region was partially conserved among some binding sequences. Serum from a rabbit immunized with the minimal domain reacted with CSA-binding parasite lines, but not with non-CSA-adherent PE lines that adhered to CD36 and other receptors. The identification of a minimal binding region from a highly variable cytoadherent family may have application for a vaccine against malaria in pregnancy.
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PMID:Identification of a 67-amino-acid region of the Plasmodium falciparum variant surface antigen that binds chondroitin sulphate A and elicits antibodies reactive with the surface of placental isolates. 1522 26

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