Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: UMLS:C0024530 (
malaria
)
44,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The membranes of Plasmodium falciparum-infected human red blood cells contain antigens of demonstrably cryptic character. We show here, by a cell surface radioimmunoassay using anti-human red cell membrane antisera, that raising the membrane microviscosity of intact cells leads to a marked increase in the
cell surface antigen
reactivity of normal cells, and even more so in cells infected in vitro with two strains of P. falciparum. A variety of sera from adults and children living in endemic areas and from
malaria
patients, all of which showed no detectable surface reactivity with either normal or infected red cells, were demonstrably surface-reactive to infected cells whose sterol membrane content has been raised by means conservative of cell integrity. New epitopes become exposed on the surface of infected cells after lipid modification. The present studies indicate that the reduced membrane viscosity reported in
malaria
-infected cells determines to a considerable extent the expression of cell surface antigens of both host and parasite, and could play a significant role in parasite immune evasion.
...
PMID:Passive modulation of antigenic expression in the surface of normal and malaria-infected erythrocytes. 247 77
Individual susceptibility to
malaria
infection, disease and death is influenced by host genotype, parasite virulence and a number of environmental factors including
malaria
-specific immunity. Immune responses are themselves determined by a combination of host genes and environmental effects. The extent to which host genotype limits the spectrum of possible immune responses may influence the outcome of infection and has consequences for vaccine design. Associations have been observed between human major histocompatibility complex (MHC) genotype and susceptibility to severe
malaria
, but no similar associations have been observed for mild malarial disease or for specific antibody responses to defined
malaria
antigens. Epidemiological studies have shown that, in practice, neither T helper cell nor antibody responses to
malaria
parasite are limited by host MHC genotype, but have revealed that genes lying outside the MHC may influence T cell proliferative responses. These genes have yet to be identified, but possible candidates include T cell receptor (TcR) genes, and genes involved in TcR gene rearrangements. More importantly, perhaps, longitudinal epidemiological studies have shown that the anti-malarial antibody repertoire is selective and becomes fixed in
malaria
-immune individuals, but is independent of host genotype. These findings suggest that the antibody repertoire may be determined, at least in part, by stochastic events. The first of these is the generation of the T and B cell repertoire, which results from random gene recombinations and somatic mutation and is thus partially independent of germline genes. Secondly, of the profusion of immunogenic peptides which are processed and presented by antigen presenting cells, a few will, by chance, interact with T and B
cell surface antigen
receptors of particularly high affinity. These T and B cell clones will be selected, will expand and may come to dominate the immune response, preventing the recognition of variant epitopes presented by subsequent infections-a process known as original antigenic sin or clonal imprinting. The immune response of an individual thus reflects the balance between genetic and stochastic effects. This may have important consequences for subunit vaccine development.
...
PMID:The role of MHC- and non-MHC-associated genes in determining the human immune response to malaria antigens. 868 35
Plasmodium vivax is considered to be rare in the predominantly Duffy negative populations of Sub-Saharan Africa, as this red blood
cell surface antigen
is essential for invasion by the parasite. However, despite only very few reports of molecularly confirmed P. vivax from tropical Africa, serological evidence indicated that 13% of the persons sampled in Congo had been exposed to P. vivax. We identified P. vivax by microscopy in 8 smears from Ugandan pregnant women who had been enrolled in a longitudinal study of
malaria
in pregnancy. A nested polymerase chain reaction (PCR) protocol was used to detect and identify the Plasmodium parasites present. PCR analysis confirmed the presence of P. vivax for three of the women and analysis of all available samples from these women revealed clinically silent chronic low-grade vivax infections for two of them. The parasites in one woman carried pyrimethamine resistance-associated double non-synonymous mutations in the P. vivax dihydrofolate reductase gene. The three women found infected with P. vivax were Duffy positive as were nine of 68 women randomly selected from the cohort. The data presented from these three case reports is consistent with stable transmission of
malaria
in a predominantly Duffy negative African population. Given the substantial morbidity associated with vivax infection in non-African endemic areas, it will be important to investigate whether the distribution and prevalence of P. vivax have been underestimated in Sub-Saharan Africa. This is particularly important in the context of the drive to eliminate
malaria
and its morbidity.
...
PMID:Transmission of Plasmodium vivax in south-western Uganda: report of three cases in pregnant women. 2160 49
Plasmodium falciparum, the most lethal
malaria
parasite species for humans, vastly remodels the mature erythrocyte host cell upon invasion for its own survival. Maurer's clefts (MC) are membraneous structures established by the parasite in the cytoplasm of infected cells. These organelles are deemed essential for trafficking of virulence complex proteins. The display of the major virulence protein, P. falciparum erythrocyte membrane protein 1 (PfEMP1) on the surface of the infected red blood cell and the subsequent cytoadhesion of infected cells in the microvasculature of vital organs is the key mechanism that leads to the pathology associated with
malaria
infection. In a previous study we established that PFE60 (PIESP2) is one of the protein components of this complex. Here we demonstrate that PFE60 plays a role in MC lamella segmentation since in the absence of the protein, infected cells display a higher number of stacked MC compared with wild type infected red blood cells. Also, another exported parasite protein (Pf332) failed to localise correctly to the MC in cells lacking PFE60. Furthermore - unlike all other described resident MC membrane proteins - PFE60 does not require its transmembrane regions to be targeted to the organelle. We also provide further evidence that PFE60 is not a red blood
cell surface antigen
.
...
PMID:Plasmodium falciparum exported protein PFE60 influences Maurer's clefts architecture and virulence complex composition. 2910 Aug 11
