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)

Merozoite surface protein-1 (MSP-1, also referred to as P195, PMMSA or MSA 1) is one of the most studied of all malaria proteins. The protein is found in all malaria species investigated and structural studies on the gene indicate that parts of the molecule are well-conserved. Studies on Plasmodium falciparum have shown that the protein is in a processed form on the merozoite surface, a result of proteolytic cleavage of the large precursor molecule. Recent studies have identified some of these cleavage sites. During invasion of the new red cell most of the MSP1 molecule is shed from the parasite surface except for a small C-terminal fragment which can be detected in ring stages. Analysis of the structure of this fragment suggests that it contains two growth factor-like domains that may have a functional role.
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PMID:A malaria merozoite surface protein (MSP1)-structure, processing and function. 134 16

Plasmodium falciparum merozoite surface antigens MSP1 and MSP2 and an exported antigen, Exp-1, exhibit allelic polymorphism in natural populations. To explain this, one hypothesis is that antigen polymorphisms are maintained by frequency-dependent immune selection. An expectation of the hypothesis is that rare variants have an advantage over common variants because of a lower level of acquired immunity against them and thus increase in frequency until an equilibrium is attained. To test this hypothesis, the frequencies of polymorphic epitopes of MSP1, MSP2, and Exp-1 were determined among isolates from malaria patients in an urban area of The Gambia, during different periods of one transmission season (1988) and in different years (1982, 1983, 1988, and 1989). The frequencies remained very stable throughout the period of study, alternative epitope variants remaining either rare or common, without shifts in relative frequencies. These results are discussed with reference to the immune-selection hypothesis, with the conclusion that frequencies of the major dimorphic serological classes of MSP1 are probably not maintained by immune selection.
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PMID:Longitudinal study of Plasmodium falciparum polymorphic antigens in a malaria-endemic population. 137 64

Plasmodium falciparum isolates were obtained from 17 pairs of Gambian children, each pair living in the same house and presenting with malaria at the same time. Frequencies of allelic serotypes of 3 polymorphic blood stage proteins (MSP1, MSP2, and Exp-1) were previously determined from a large number of isolates from patients in the local area, and the probability of a random pair of isolates containing an identical genotype was calculated to be less than 0.01. However, 3 of 8 household pairs in one year, and 6 of 9 in the next year, contained identical P. falciparum genotypes, a much higher frequency than expected randomly (P less than 0.00005, for each year). This finding is discussed in terms of the probable contribution of single mosquitoes infecting more than one person.
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PMID:Genetic evidence for the importance of interrupted feeding by mosquitoes in the transmission of malaria. 175 49

By definition, the biology of a living organism must be characterized before its molecular biology can be interpreted. Malariologists are fortunate in that the malaria parasite was used as a well-controlled therapy for tens of thousands of hospital patients. During many of these treatments the opportunity was taken to study malaria and the behaviour of the parasite in detail. From these, and similar studies on volunteers, together with numerous epidemiological surveys, the operational characteristics of immunity to malaria in man have been well defined. Unfortunately this information, which exists in some detail in the older literature, does not seem to have been available to many investigators. This situation has led to interpretations of molecular data which are inconsistent with the known biology of the parasites and human-parasite relationships. This article considers how the structure of one of the best studied antigens, MSP1, can be viewed in the context of the host-parasite relationship. It postulates some testable hypotheses which aim to reconcile the molecular characteristics of the antigen with the biology and immunology of the asexual erythrocytic stage of the parasite.
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PMID:Protective immune responses as indicators of antigenic diversity and stability. 182 Jun 98

In areas where Plasmodium falciparum is endemic, immunoglobulin G is acquired by the fetus in utero, mainly during the third trimester of pregnancy. The potential protective effect of transferred anti-P. falciparum maternal antibodies was examined in a longitudinal study of 100 infants from birth to 1 year of age. The probability of acquiring a P. falciparum infection and developing an episode of clinical malaria was determined in relation to the P. falciparum-specific antibody level of the infant at birth against P. falciparum schizont antigen or recombinant merozoite surface protein MSP1(19) antigen. The risk of acquiring an episode of clinical malaria increased from birth to 6 months of age, after which it decreased. The overall prevalence of P. falciparum parasitemia was highest (48.9%) in the 6-month-old infants. The age-specific hematocrit value showed the lowest mean value (30.2) from 6 to 9 months, and the spleen rate was the highest (69.8%) at the same age. There was a lower risk of developing an episode of clinical malaria during the first year of life in the infants with high levels of anti-MSP1(19) antibodies at birth. The level of maternally derived overall anti-schizont antigen antibodies did not seem to play a role in the relative risk of developing malaria infection or disease during the first year of life, though the level of specific anti-MSP1(19) antibodies may be associated with protection.
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PMID:Relationship between maternally derived anti-Plasmodium falciparum antibodies and risk of infection and disease in infants living in an area of Liberia, west Africa, in which malaria is highly endemic. 755 16

The p190 protein (also called MSA1 or MSP1) of the asexual blood stage forms of Plasmodium falciparum, a human malaria vaccine candidate, shows polymorphism between different isolates. Mice were immunized with p190-3, a recombinant protein which contains mostly conserved sequences derived from the p190 protein of the K1 parasite isolate. Proliferative T-cell responses of lymph node cells from immunized mice were assessed by stimulation in vitro with p190-3 or preparations of parasitized red blood cells (PRBC) containing the native protein. The p190-3-specific T cells from C57BL/6 mice consistently responded to some P. falciparum isolates, representing either the K1 or MAD20 serotype of p190, but not to other P. falciparum strains or to rodent malaria parasite-infected red blood cells. p190-3-specific T-cell responses from other mouse strains (BALB/c, C3H/He) did not distinguish between P. falciparum isolates. The polymorphic epitopes which were preferentially recognized by T cells from C57BL/6 mice were identified.
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PMID:Identifying polymorphic regions of the p190 protein from different Plasmodium falciparum strains by using specific T cells. 768 80

The epidemiology of malaria results from the interactions of three gene pools--parasite, human, and mosquito vector--with one another and with their environment. Methods are being developed for characterizing the genetics of human populations at risk and of potential vectors. The characterization of natural populations of Plasmodium and knowledge of their distribution within the human and insect hosts in any given area under study would also greatly enhance understanding of the epidemiology, pathology and biology of this parasite, particularly when combined with simultaneous human and vector studies. This paper describes a polymerase chain reaction (PCR)-based assay which provides a sensitive, reproducible and practical method by which parasite populations within species can be characterized. In order to illustrate the suitability of the PCR assay, four polymorphic domains on the genes of three P. falciparum proteins (MSP1 blocks 2 and 4, MSP2, and GLURP) and one largely conserved region (MSP1 block 17) were chosen for amplification by PCR. DNA derived from 15 in-vitro cultured lines of P. falciparum (7 of which were cloned) and from blood samples obtained from infected patients in Thailand were used as templates for PCR amplification. The amplification products were analysed by gel electrophoresis for length polymorphisms. Seven allelic variants of GLURP, five of MSP1 block 2, three of MSP1 block 4, and nine of MSP2 were detected. This high degree of polymorphism can be used to characterize the genetic composition of any parasite population, at a given time. The paper discusses the applicability of this type of genotyping to epidemiology and urges the adoption of international standards for its use so that data from different areas and different times can be compared.
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PMID:Genotyping of Plasmodium falciparum isolates by the polymerase chain reaction and potential uses in epidemiological studies. 770 31

In the aim to determine the possible role of HLA-antigens in malaria infection, sera from 50 HLA-typed donors from Dielmo (Senegal) were tested in immunoblotting (using crude merozoites as antigen) and immunoprecipitation (using detergent-extracts from surface-iodinated merozoite as antigen). The donors were previously tested on lymphocyte proliferation in vitro and gamma-interferon production and grouped into two classes: high responders and low responders. In immunoblotting and immunoprecipitation experiments, no specific differences were found in the antibody reactivity with native merozoite antigen in individuals with high (HR) or low (LR) in vitro proliferative T cell responses. In other words, both groups of responders, high and low, showed antibodies in their sera against a wide range of different parasite antigens; although between individual donors striking differences were found. Individual donors had developed different levels of antibodies, or no antibodies at all, against individual natural antigens. These differences, however, could not be correlated with HR or LR. The band patterns obtained were compared with HLA-antigens of donors phenotypes. Results showed that there was no correlation found between the different merozoite antigens recognized by sera of the different donors or groups of donors (HR and LR) and the donors' HLA-phenotypes. The fact that donors with HLA-B51 all recognized (MSP1(42) and donors with DR1 recognized MSP1(19), was not a convincing correlation.
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PMID:[Analysis of the antibody response to merozoite antigens in a malaria holoendemic area]. 775 76

The major merozoite surface protein of Plasmodium falciparum (PfMSP1) is a candidate antigen for a malaria vaccine. A 19-kDa C-terminal processing product of PfMSP1 (PfMSP1(19)) is composed of two domains sharing a cysteine-rich motif with epidermal growth factor (EGF) and is the target of monoclonal antibodies which block erythrocyte invasion in vitro. We have evaluated human antibody responses to PfMSP1(19) by using recombinant proteins representing the EGF motifs encoded by the two main alleles of the MSP1 gene. We find that both EGF motifs are antigenic but that only 10 to 20% of malaria-exposed individuals have serum antibodies that recognized either of the motifs. When both EGF motifs were expressed together as a single protein, they were recognized by more than 40% of sera from malaria-exposed individuals. Major epitopes recognized by human antibodies are dependent upon the correct tertiary structure of the protein and are cross-reactive between the different allelic sequences of PfMSP1(19). This suggests that antibodies induced by vaccination with one or the other allelic forms of the protein could recognize all strains of P. falciparum. Immunoglobulin G (IgG) subclass-specific enzyme immunoassays indicate that PfMSP1(19) antibodies are predominantly of the IgG1 subclass.
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PMID:Serum antibodies from malaria-exposed people recognize conserved epitopes formed by the two epidermal growth factor motifs of MSP1(19), the carboxy-terminal fragment of the major merozoite surface protein of Plasmodium falciparum. 782 10

Antigenic diversity and immune evasion by the parasite are important factors in the epidemiology of malaria and in determining the incidence of severe malaria. The dynamics of the parasitaemia in current studies in mice immunized with P.c.chabaudi native MSP1 or recombinant C-terminal subunits thereof, strongly indicate evasion of components of the immune response induced by these antigens by parasites multiplying after challenge infection.
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PMID:Antigenic diversity, antigenic variation and merozoite surface protein 1. 823 3

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