UMLS:C0024530 - FACTA Search

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)

PBL from individuals with no history of malaria exposure, as well as cord blood lymphocytes, were tested for proliferation to T cell epitopes from the malaria circumsporozoite proteins of Plasmodium falciparum and Plasmodium vivax. Cells from many individuals proliferated in response to these peptides, but for two peptides (P. vivax317-336 and P. falciparum CS331-350) the response rate ranged from 64 to 93%, with the specific stimulation indices reaching as high as 38. The phenotype of the cells responding to PfCS331-350 was predominantly CD4+,CD8-,CD45Ra+,CD45Ro-, which was the inverse of the phenotype of the cells responding to tetanus toxoid with respect to CD45 isoforms. T cell clones from different individuals specific for PfCS331-350 were restricted by at least four different HLA-DR molecules and there was no evidence that the peptide was a "superantigen." Overlapping peptides were used to demonstrate that clones had different fine specificities although the peptide specificities of the DR4-restricted and DR11-restricted clones were similar. Although the individuals tested here have had no history of malaria exposure, these data demonstrate that they have T cells specific for malaria sequences present in high frequency that proliferate as intensely as some memory responses. Although one clone from an individual with a history of BCG vaccination did react strongly with PPD, the phenotype of these cells suggests that they are not classical memory cells for a cross-reactive recall Ag. Such cells may affect the induction or expression of malaria immunity.
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PMID:Promiscuous malaria peptide epitope stimulates CD45Ra T cells from peripheral blood of nonexposed donors. 137 May 23

In this study we examined the association of a promiscuous malaria T cell epitope, CS.T3, to different HLA-DR alleles. A large series of singly substituted or truncated variants of CS.T3 was prepared and tested for the ability to be recognised in association with, or to bind to, three distinct HLA-DR alleles (DR1, DRw11, and DRw14(w6)) and three natural variants of HLA-DRw11. We found that although association with the different DR molecules mapped to identical or closely overlapping regions of the peptide, distinct substitutions could drastically influence the capacity of the peptide to interact with one but not another of the three DR molecules tested. Based on analysis of the distribution of residues recognized by T cell clones restricted to the different DR alleles, we suggest that the peptide CS.T3 is not bound, at least for the three DR examined, as an alpha-helix. In addition we tested three subtypes of DRw11 as APC for the CS.T3 analogues and observed that the peptide is most likely bound in the same conformation to the three natural variants of the DRw11 molecule.
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PMID:Analysis of the permissive association of a malaria T cell epitope with DR molecules. 170 96

We have examined T cell recognition of a recombinant polypeptide (190L), corresponding to a 175-amino-acid-long conserved region of the major surface antigen (p190) of Plasmodium falciparum merozoites. We show that 190L contains a variety of T cell epitopes, and can be recognized in association with many different MHC class II molecules, including HLA-DR, DP, and DQ antigens. Most of the epitope-containing peptides are able to bind to more than one DR, and a single DR molecule can bind to different peptides. These findings, together with the fact that humans are generally heterozygous at the DR, DQ, and DP beta chain loci, suggest that MHC restriction should not be a major constraint in the development of malaria subunit vaccines.
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PMID:HLA polymorphism and T cell recognition of a conserved region of p190, a malaria vaccine candidate. 171 5

Significant proliferative responses of peripheral blood mononuclear cells (PBMC) to crude Plasmodium falciparum schizont antigen (M.Ag) or purified recombinant 31.1 Ag (part of gp 195) were observed only in 46 and 39%, respectively, of 50 healthy subjects 5 to 63 years old living in Gabon, a malaria-endemic area. High responses to pokeweed mitogen were observed in all the subjects except one. Interferon-gamma (IFN-gamma) production paralleled the proliferative response, but in some subjects proliferation without a IFN-gamma response was observed. The proportion of subjects responding to M.Ag and 31.1 Ag increased with age. By cytofluorometric analysis performed with PBMC from 27 subjects, a substantial proportion of CD3+ T cells was found to bear the activation marker HLA-DR. However, the CD3+ cells expressed very low levels of CD25 (p55 chain of IL-2 receptor). The expression of CD25 on T cells and their capacity to respond to M.Ag were significantly correlated. In four subjects an increase in the percentage of CD3+ cells bearing the very late activation marker VLA-1 was observed.
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PMID:In vivo decreased expression of CD25 (p55 chain of IL-2 receptor) on CD3+ T cells correlates with low in vitro responsiveness to Plasmodium falciparum antigen in subjects living in a malaria endemic area. 182 93

We have examined immune responses to a cultured Plasmodium falciparum gametocyte lysate and to an affinity-purified preparation of the 48/45-kDa gamete surface Ag in a group of 30 malaria immune individuals and in 24 Europeans with no previous exposure to malaria. Cellular responses were assessed in vitro by lymphoproliferation and production of IFN-gamma; antigamete antibodies were detected by immunofluorescence, Western blotting, and competitive ELISA. Cells from all the malaria immune donors responded to the gametocyte lysate in both assays while cells from nonimmune donors gave only weak proliferative responses. Antigamete antibodies were detected in the serum of all the immune donors but not in serum from nonimmunes. Nonimmune donors were completely unresponsive to the purified 48/45-kDa surface Ag while cells from 40% of immune donors responded by either proliferation or IFN-gamma production. Only 3 of 30 immune donors had detectable antibodies to the 48/45-kDa Ag. Class II HLA type was determined for 27 of the immune donors but no relationship between HLA-DR or -DQ and responsiveness to the 48/45-kDa Ag was discerned. The possible reasons for limited recognition of this gamete surface Ag are discussed.
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PMID:Cellular and humoral immune responses to Plasmodium falciparum gametocyte antigens in malaria-immune individuals. Limited response to the 48/45-kilodalton surface antigen does not appear to be due to MHC restriction. 211 74

Malarial gametocytes, which are taken up by mosquitoes during a blood meal, develop in the gut of the mosquito into gametes. Gametes and gametocytes contain the target antigens of transmission-blocking immunity. Here, we show that the peripheral blood of nonexposed donors contains Plasmodium falciparum gamete-reactive T cells at frequencies ranging from 1/300 to 1/4000. Studies on long-term clones demonstrated that these cells often recognized antigens shared between gametes and asexual stage parasites or even between heterologous gametes, although it has been possible to derive a P. falciparum gamete-specific T clone. The T clones examined were T3+, T4+, T8-, and either HLA-DR- or HLA-DQ-restricted. They responded to gametes by both proliferation and the secretion of gamma-interferon. The gamete-specific clone and other asexual cross-reactive clones examined could be stimulated in vitro by a preparation of mature gametocytes within RBC, but not by RBC alone, suggesting that gametocytes are immunogenic or can become immunogenic for T cells in vivo. The significance of these observations to mosquito transmission of malaria and development and application of a gamete vaccine are discussed.
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PMID:Human T clones reactive to the sexual stages of Plasmodium falciparum malaria. High frequency of gamete-reactive T cells in peripheral blood from nonexposed donors. 243 Oct 58

An ideal vaccine should elicit a long lasting immune response against the natural parasite, both at the T- and B-cell level. The immune response should occur in all individuals and be directed against determinants that do not vary in the natural parasite population. A major problem in designing synthetic peptide vaccines is that T cells generally recognize peptide antigens only in association with one or a few of the many variants of major histocompatibility complex (MHC) antigens. During the characterization of epitopes of the malaria parasite Plasmodium falciparum that are recognized by human T cells, we analysed a sequence of the circumsporozoite protein, and found that synthetic peptides corresponding to this sequence are recognized by T cells in association with many different MHC class II molecules, both in mouse and in man. This region of the circumsporozoite protein is invariant in different parasite isolates. Peptides derived from this region should be capable of inducing T-cell responses in individuals of most HLA-DR types, and may represent good candidates for inclusion in an effective anti-malaria peptide vaccine.
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PMID:A malaria T-cell epitope recognized in association with most mouse and human MHC class II molecules. 246 73

HLA-A,B,C and DR types were determined for 46 adults living in the Madang area of Papua New Guinea. Sera from these individuals were tested by ELISA for antibodies against: (i) sonicated schizont extract of Plasmodium falciparum; (ii) circumsporozoite repeat regions of P. falciparum and P. vivax; and (iii) epitopes on the 230 and 48/45 kD gametocyte antigens of P. falciparum. All sera were from highly immune individuals and reacted strongly to the schizont antigen. The proportions responding to circumsporozoite repeat regions were 60.7% and 23.9% for P. falciparum and P. vivax, respectively. Between 32.6 and 47.8% of adults responded to each gametocyte epitope as assessed by inhibition of monoclonal antibodies. The limited number of alleles present at each HLA locus which is characteristic of coastal Papua New Guinea was observed. Five HLA-DR alleles were detected, of which only three (HLA-DR2, 4 and w5) were present at frequencies over 0.12. All individuals possessed at least one DR2,4 or w5 allele, and 96% of individuals possessed DR2, or 4 or both. There was no evidence for association between HLA type and antibody response to circumsporozoite repeat regions or the gametocyte epitopes. Homozygotes for DR2 and 4 were able to respond to each antigen. These results imply that either there is no HLA restriction of the response to these antigens or that each DR type is responding to a different variant of the T-epitope. Even in the latter case the results are encouraging for the prospects of inclusion of an HLA-restricted T-epitope in a malaria vaccine for Papua New Guinea since a limited number of versions would be required to cover a population with an HLA profile similar to that in Madang.
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PMID:Association between HLA type and antibody response to malaria sporozoite and gametocyte epitopes is not evident in immune Papua New Guineans. 248 46

Associations between HLA-DR/DQ phenotypes and immune responses to the circumsporozoite (CS) protein of the human malaria parasite, Plasmodium falciparum, were investigated in Thai adults. The frequency of DR and DQ types did not differ between 15 high antibody responders and 16 antibody non-responders. Initial results which suggested that lymphocyte responses to a CS-derived peptide (R32tet32) might be HLA-DR associated were not confirmed by subsequent extension of the study. Thus, MHC restriction appears not to be a major factor in the frequently observed unresponsiveness of the immune system to the P. falciparum sporozoite. Based on these results, it is expected that MHC restriction will not be a major obstacle to the application of a malaria vaccine in outbred human populations.
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PMID:Immune responses to the circumsporozoite protein of Plasmodium falciparum in relation to HLA-DR type. 268 92

Genetic factors may play an important role in individual susceptibility to infection. Hitherto this problem has been investigated by attempting to relate the distribution of genetic polymorphisms in populations to present or past infection, or by analysing specific infections by classical twin studies or group comparisons. There is reasonable evidence that the common red-cell polymorphisms involving haemoglobin, enzymes or membrane have been maintained by relative resistance to malaria. Blood-group heterogeneity, including secretor status, may reflect varying susceptibility to bacterial, virus and yeast infection. There is increasing evidence that the HLA-DR system may be involved in modifying the clinical course of bacterial, virus and parasitic infection. So far no specific resistance or susceptibility loci similar to those found in murine models have been found in man. DNA analysis, particularly involving restriction fragment length polymorphism associations with candidate genes, offers a valuable new approach to this problem.
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PMID:Genetic factors as determinants of infectious disease transmission in human communities. 290 48

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