UMLS:C0024530 - FACTA Search

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Query: UMLS:C0024530 (malaria)
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Sequence variation of the ribosomal DNA internal transcribed spacer 2 (ITS2) was examined for populations of the malaria vector Anopheles nuneztovari collected in Colombia, Venezuela, Bolivia, Suriname, and Brazil. Mosquitoes from Colombia and Venezuela had identical ITS2 sequences and were distinguished from sequences in other populations by three insertion/deletion events (indels) and by one transversion. The length of the ITS2 was 363-369 bp, and it had a G+C content of 55.3%-55.7%. Variation in the length of the ITS2 between and within populations was due to indels in simple repeats. ITS2 consensus sequences were similar or identical for samples from the following three groups: (1) Colombia, Bolivia, and Venezuela; (2) Suriname and northern Brazil; and (3) eastern and central Brazil. The presence of two different consensus sequences from a single location near Manaus, Brazil, suggests that populations from eastern Brazil and those from Suriname converge in this region of the Amazon Basin. These data show that putative cryptic species of An. nuneztovari are distinguished by very minor differences in DNA sequence of the ITS2 region.
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PMID:Sequence analysis of the ribosomal DNA internal transcribed spacer 2 from populations of Anopheles nuneztovari (Diptera: Culicidae). 801 35

The usefulness of random amplified polymorphic DNA (RAPD) was examined as a potential tool to differentiate cryptic mosquito species. It proved to be a quick, effective means of finding genetic markers to separate two laboratory populations of morphologically indistinguishable African malaria vectors, Anopheles gambiae and An. arabiensis. In an initial screening of fifty-seven RAPD primers, 377 bands were produced, 295 of which differed between the two species. Based on criteria of interpretability, simplicity and reproducibility, thirteen primers were chosen for further screening using DNA from thirty individuals of each species. Seven primers produced diagnostic bands, five of which are described here. Some problematic characteristics of RAPD banding patterns are discussed and approaches to overcome these are suggested.
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PMID:Random amplified polymorphic DNA (RAPD) markers readily distinguish cryptic mosquito species (Diptera: Culicidae: Anopheles). 826 99

Cryptic species complexes are groups of closely related species that are difficult or impossible to distinguish by morphological traits. These complexes are known from a wide variety of arthropods and are common among the well-studied, medically-important insects. For example, many of the anopheline vectors of malaria parasites are members of cryptic species complexes. Complexes typically include both vector and non-vector species, and two or more member species are often found sympatrically. Until the late 1950, only two such Anopheles complexes were known, the A. gambiae complex from Africa and the A. maculipennis complex from Europe. Today, dozens of Anopheles cryptic species complexes are recognized, and accumulating evidence suggests that most important malaria vectors are likely to be members of such complexes. A variety of methods have been developed for identifying the species of individual specimens from these complexes, although until recently only those based on species-specific allozymes and polytene chromosome inversions were widely used. The limitations inherent in these methods have been circumvented with DNA-based procedures, which are especially useful because both sexes and all developmental stages can be identified, and DNA can be recovered from samples stored by a wide variety of simple methods. Several DNA-based identification techniques have been developed, including hybridization assays based on species-specific repeat sequences, and diagnostic PCR fragments produced either by the use of random PCR primers or by amplifying DNA with primers based on known species-specific sequences. In this review we discuss the relative marks of different methods of cryptic species identification, with emphasis on the use of ribosomal DNA as a target for species-diagnostic PCR assays.
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PMID:A review of the use of ribosomal DNA (rDNA) to differentiate among cryptic Anopheles species. 863 May 29

Species-specific differences in the nucleotide sequences of the 2nd internal transcribed spacer (ITS2) of nuclear ribosomal DNA (rDNA) were used to develop a diagnostic assay based on the polymerase chain reaction (PCR) that can distinguish 4 of the 5 cryptic sibling species in the common malaria mosquito, Anopheles quadrimaculatus Say, complex. The assay requires only a small amount of tissue from an individual mosquito and a mixture of 5 PCR primers. The plus strand universal primer is derived from a sequence in the 5.8S coding region that is identical in all members of the complex. The 4 minus strand primers were selected from species-unique sequences within the ITS2 region. PCR amplification produces a different sized fragment for each of the 4 species which can be visualized readily under ultraviolet light after electrophoresis through an ethidium bromide-containing agarose gel. The assay has been developed and tested only with An. quadrimaculatus complex specimens from Florida populations.
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PMID:Polymerase chain reaction species diagnostic assay for Anopheles quadrimaculatus cryptic species (Diptera: Culicidae) based on ribosomal DNA ITS2 sequences. 890 13

In this study we characterized the CD4+ T cell response directed against two distinct epitopes located in the circumsporozoite (CS) protein of Plasmodium yoelii. The immunization of mice with P. yoelii sporozoites induced CD4+ T cells which were mostly directed against one of these peptides, Py-1, previously reported to contain a CD4+ epitope. The CD4+ T cells directed against this immunodominant epitope were mostly of the Th-1 type. Another newly identified peptide, AS44, induced a specific CD4+ T cell response, which was mainly detectable after immunization with the corresponding peptide. Several CD4+ T cell clones, recognizing this epitope, were generated and their lymphokine expression was characterized, as well as their surface markers and their anti-parasite activity in vivo. It was noteworthy that some of these CD4+ T cell clones, which recognize this cryptic epitope and were of different Th subtypes, were shown to have a strong inhibitory effect on the development of liver stages of malaria parasites.
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PMID:Plasmodium yoelii: peptide immunization induces protective CD4+ T cells against a previously unrecognized cryptic epitope of the circumsporozoite protein. 893 72

Plasmodium falciparum malaria, the most lethal form of human malaria, claims at least 2 million lives worldwide each year. Recently, there has been a significant advance in our understanding of the molecular basis of P. falciparum sequestration, a distinctive pathologic feature that often leads to fatal human cerebral malaria. Parasite-derived VAR proteins (Plasmodium falciparum-infected erythrocyte membrane protein 1) have been cloned and identified as antigenically diverse cytoadherent receptors localized to the knob protrusions that act as attachment points in parasite sequestration. Evidence now supports the hypothesis that cryptic regions of band 3 protein are parasite-induced, host-derived erythrocyte receptors mediating parasite sequestration. Knob structures have been localized to spectrin-actin-protein 4.1 junctions in intact spread membrane skeletons. A recombinant domain of knob-associated histidine-rich protein, a major protein found in both membrane-intact and isolated knobs, has been shown to associate with filamentous actin and spectrin. Parasite- and host-derived erythrocyte membrane proteins involved in P. falciparum sequestration are discussed in this review.
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PMID:Erythrocyte membrane alterations in Plasmodium falciparum malaria sequestration. 910 33

Genetic restriction of immune responses to malaria antigens is an important issue for a better comprehension of malaria immunity as well as for development of subunit vaccines. To experimentally define the major histocompatibility complex restriction of immune responses to the highly repetitive Plasmodium falciparum high-molecular-weight antigen Pf332, H-2-congenic mice were immunized with EB200, a recombinant fragment of Pf332 consisting of degenerate repeat motifs. Strong B- and T-cell responses were elicited in H-2d and H-2k mice whereas responses in H-2b, H-2q and H-2s mice were of lower magnitude. The T-cell specificity elicited by EB200 was defined by in vitro proliferative responses to a panel of overlapping peptides spanning EB200. Dominant epitopes were identified for H-2d and H-2k mice, respectively, and an additional epitope was recognized by all five mouse strains. Selected EB200-derived peptides were further investigated for their ability to elicit T-cell help when injected as multiple antigen peptides. Defined H-2d- and H-2k-restricted T-cell epitopes generated high antibody levels in the respective mouse strains, as did several peptides lacking defined epitopes indicating the presence of additional H-2d- and H-2k-restricted, cryptic or subdominant T-cell epitopes in EB200. The biased H-2 restriction pattern of T-cell epitopes in Pf332 and, as previously reported, in structurally related repeats in the malaria antigens Pf11.1 and Pf155/RESA may be explained by a shared motif for H-2d and H-2k class II-restricted T-cell epitopes, as revealed by alignment of these sequences.
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PMID:Predominance of H-2d- and H-2k-restricted T-cell epitopes in the highly repetitive Plasmodium falciparum antigen Pf332. 929 71

Malaria-parasitized erythrocytes have increased endothelial adherence due to exposure of previously buried intramembranous sites of band 3. Because sickle erythrocytes also show increased adhesiveness and because the membrane portion of band 3 is aggregated in both types of cells, we examined the role of band 3 in sickle cell adhesiveness. Synthetic peptides derived from the second and third exofacial, interhelical regions of band 3 completely inhibited the abnormal adherence of sickle cells to an endothelial monolayer in a static assay. This effect was observed independently of plasma factors, required micromolar levels of peptide, was sequence-specific, and was found with both L- and D-isomers. The active peptides also inhibited the increased adherence induced by low-dose calcium loading of normal red blood cells. Finally, a monoclonal antibody against an active peptide specifically immunostained a fraction of sickle cells. These findings implicate a role for band 3 in at least one type of sickle cell adhesiveness via the exposure of normally cryptic membrane sites.
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PMID:Band 3 peptides block the adherence of sickle cells to endothelial cells in vitro. 935 88

We have investigated the proliferative and Th cell responses to the Plasmodium chabaudi adami DS homologue of the Plasmodium falciparum apical membrane Ag 1 (AMA-1), a leading malaria vaccine candidate. Immunodominant T cell epitopes were defined following immunization of BALB/c mice with Escherichia coli-expressed, refolded P. c. adami DS AMA-1 recombinant protein and testing cells from the draining lymph nodes for responses against a series of overlapping peptides spanning P. c. adami AMA-1. A limited number of major T cell sites were identified in both conserved and variable regions of the protein. Several cryptic epitopes that evoked T cell responses following immunization with peptides, but not after protein immunization, were also identified. Adoptive transfer of a T cell line specific for a conserved cryptic epitope (corresponding to residues 31-50) provided help for an anti-AMA-1 protein-specific Ab response following in vivo challenge with P. c. adami parasitized RBC, such that AMA-1-specific Abs appeared more rapidly in recipient mice than in controls. Furthermore, T cells specific for cryptic epitopes afforded partial protection against P. c. adami infection in nude mice. The identification of conserved cryptic Th cell epitopes has important implications for malaria vaccine design.
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PMID:A cryptic T cell epitope on the apical membrane antigen 1 of Plasmodium chabaudi adami can prime for an anamnestic antibody response: implications for malaria vaccine design. 954 94

A cysteine-containing peptide motif, EWSPCSVTCG, is found highly conserved in the circumsporozoite protein (CSP) and the thrombospondin-related anonymous protein (TRAP) of all the Plasmodium species analyzed so far and has been shown to be crucially involved in the sporozoite invasion of hepatocytes. We have recently shown that peptide sequences containing this motif, and also the antibodies raised against the motif, inhibit the merozoite invasion of erythrocytes. However, during natural infection, and upon immunization with recombinant CSP, this motif represents a cryptic epitope. Here we present the results of immunization studies with two linear multiepitopic constructs, a 60-residue (P60) and a 32-residue (P32) peptide, containing the conserved motif sequence. Both the peptides per se generated high levels of specific antibodies in BALB/c mice. P32 was found to be genetically restricted to H-2(d) and H-2(b) haplotypes of mice, whereas P60 was found to be immunogenic in five different strains of mice. The antibody response was predominantly targeted to the otherwise cryptic, conserved motif sequence in P60. Anti-P60 antibodies specifically stained the asexual blood stages of Plasmodium falciparum and Plasmodium yoelii in an immunofluorescence assay, recognized a 60- to 65-kDa parasite protein in an immunoblot assay, and blocked P. falciparum merozoite invasion of erythrocytes in a dose-dependent manner. Immunization with P60 also induced significant levels of the cytokines interleukin-2 (IL-2), IL-4, and gamma interferon in BALB/c mice. Moreover, >60% of mice immunized with P60 survived a heterologous challenge infection with a lethal strain of P. yoelii. These results indicate that appropriate medium-sized synthetic peptides might prove useful in generating specific immune responses to an otherwise cryptic but critical and putatively protective epitope in an antigen and could form part of a multicomponent malaria vaccine.
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PMID:Induction of protective immune responses by immunization with linear multiepitope peptides based on conserved sequences from Plasmodium falciparum antigens. 963 90

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