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)

CBA/N mice carry an X-linked, recessive gene, which results in the absence of a B cell subset, and is expressed primarily as an inability to respond to a certain class of thymus-independent antigens. We have examined the responses of these mice to the malaria parasite Plasmodium yoelii and found that primary infections induced by this parasite are more severe and last longer in mice with X-linked defect than in normal controls. The decreased resistance of the defective mice is associated with a striking deficiency in their IgM antibody response. After recovery from a primary infection, defective mice resist reinfection with the homologous parasite as well as normal mice. Although as resistant as normal controls, B cells from defective mice transfer considerably less immunity to naive recipients than B cells from normal animals. Hence, two modes of thymus-dependent protective immunity may contribute to the host response to P. yoelii. Control of an acute primary infection appears to involve a thymus-dependent antibody response that CBA/N mice are deficient in. Resistance to reinfection may be mediated primarily by a different mechanism.
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PMID:Experimental malaria in the CBA/N mouse. 38 72

The role of B lymphocytes in resistance to malaria was studied in defective and normal F1 mice derived from CBA/N mice, a strain with an X-linked B cell defect. When infected with normally nonlethal Plasmodium yoelii, immune defective F1 male mice had higher parasitemias and more prolonged infections than normal F1 mice, as well as a 50% mortality rate. Before infection the plasma levels of IgM and IgG were lower in defective F1 males than normal F1 mice. The polyclonal IgM and IgG responses of infected abnormal F1 mice were delayed and lower in absolute magnitude than those of normal F1 mice. Furthermore, specific IgM and IgG anti-plasmodial antibody titers, as determined by radioimmunoassay, were depressed on day 12 in the defective F1 males. Although IgG titers approached those of the normal F1 mice on day 19, defective F1 male IgM titers remained depressed. These data demonstrate that an X-linked gene that affects B cell function influences malarial resistance in mice, presumably via a decreased specific IgM response, and the slow development of a specific IgG response to P. yoelii infection.
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PMID:Defective resistance to Plasmodium yoelii in CBA/N mice. 44 43

The relationship between viruses and naturally occurring cancers, such as hepatocellular carcinoma and genital cancers, is of great importance to Africa. On the other hand, lymphomas, leukaemias and immunodeficiencies, although of less immediate public health importance, constitute an area of outstanding interest for research and their association with the Epstein-Barr virus (EBV) and the newly discovered human retroviruses merits world-wide attention. EBV-related malignancies in Africa include both Burkitt's lymphoma (BL) and nasopharyngeal carcinoma (NPC). Whether X-linked polyclonal lymphoproliferations exist in Africa remains an open question. The interrelationship between EBV, holoendemic malaria and genetic factors (oncogenes) has been deciphered in recent years, to make BL a kind of Rosetta stone for the understanding of multistage carcinogenesis. Although the role of EBV in the causation of NPC is not well understood, the viral capsid antigen (VCA) IgA test already allows both early detection of NPC in high-incidence areas and differential diagnosis in low-incidence areas. The question whether an EBV vaccine would be of value in African countries, in relation to EBV-associated malignancies, remains an open one. The diseases associated with the recently discovered human retroviruses (human T-lymphocyte leukaemia viruses: HTLVs) represent a new area for both research and public health assessment. Limited information is available today on the geographical distribution, age prevalence and association with disease in Africa of the different members of the retrovirus family (HTLV-1, HTLV-2, LAV/HTLV-3). The proportion of HTLV-related T-cell malignancies in different parts of Africa as well as the importance of immunodeficiencies caused by the different members of the retrovirus family remain to be determined. Typical acquired immunodeficiency syndrome (AIDS) appears to exist in Central Africa, especially Zaire, and HTLVs could be of public health importance if they cause severe forms of viral, bacterial or parasitic diseases through impairment of cell-mediated immunity. Africa, is and will long remain a continent of crucial importance with regard to the role of viruses in human malignancies and especially in haematopoietic proliferative disorders.
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PMID:Virus-associated lymphomas, leukaemias and immunodeficiencies in Africa. 610 Feb 86

This is a report about a 9 year old turkish boy suffering from recurrent episodes of high fever caused by Plasmodium vivax-infection (Malaria tertiana), 12 months after returning from his malarious homeland. After a 3-day course of Chloroquin, we administrated Primaquin to eliminate residual extraerythrocyte forms of Plasmodium vivax. On the 7th day of treatment acute haemolysis developped. This was caused by Glucose-6-Phosphate-Dehydrogenase-Deficiency, which could be demonstrated by a red-cell-enzyme analysis. The investigation of the patient's whole family showed the typical recessive X-linked inheritance of this enzyme-defect. Frequency and clinical manifestations of this defect are discussed.
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PMID:[Manifestation of glucose-6-phosphate dehydrogenase deficiency caused by primaquine in malaria therapy]. 635 Sep 92

Studies on anopheline mosquitoes in selected villages of Punjab Province, Pakistan have incriminated Anopheles culicifacies species A as the primary malaria vector. Although An. stephensi and An. subpictus showed higher immediate gut infection rates, estimations of relative abundance, age structure and survivorship, and observations of late gut and salivary gland infection rates suggested that neither species was a major vector in these villages. A survey of An. culicifacies populations detected the presence of both species A and B in several localities in Pakistan. Laboratory investigations demonstrated that both species are capable of supporting the extrinsic cycle of Plasmodium vivax. No recombination was observed between X-linked loci in species A/species B hybrid females; however, recombination was observed between loci in chromosome 2. Allelic tests between the X-linked white eye locus in species A and an X-linked white eye mutant in species B showed that the two loci are not allelic.
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PMID:Vector incrimination studies and observations on species A and B of the taxon Anopheles culicifacies in Pakistan. 639 Aug 3

Glucose-6-phosphate dehydrogenase (G6PD) deficiency, the most common enzymopathy of humans, affects over 400 million people. The geographical correlation of its distribution with the historical endemicity of malaria suggests that this disorder has risen in frequency through natural selection by malaria. However, attempts to confirm that G6PD deficiency is protective in case-control studies of malaria have yielded conflicting results. Hence, for this X-linked disorder, it is unclear whether both male hemizygotes and female heterozygotes are protected or, as frequently suggested, only females. Furthermore, how much protection may be afforded is unknown. Here we report that, in two large case-control studies of over 2,000 African children, the common African form of G6PD deficiency (G6PD A-) is associated with a 46-58% reduction in risk of severe malaria for both female heterozygotes and male hemizygotes. A mathematical model incorporating the measured selective advantage against malaria suggests that a counterbalancing selective disadvantage, associated with this enzyme deficiency, has retarded its rise in frequency in malaria-endemic regions. Although G6PD deficiency is now regarded as a generally benign disorder, in earlier environmental conditions it could have been significantly disadvantageous.
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PMID:Natural selection of hemi- and heterozygotes for G6PD deficiency in Africa by resistance to severe malaria. 2343 53

The glucose-6-phosphate dehydrogenase (G6PD) gene is X-linked. There are numerous mutations that cause a deficiency of this enzyme in erythrocytes. G6PD deficiency can produce anemia, both when drugs are administered and under the stress induced by infection. Functionally severe variants cause hereditary non-spherocytic hemolytic anemia, i.e. anemia even in the absence of stress. Neonatal jaundice occurs in G6PD deficiency, but it is likely that it is largely due to impairment of liver function, rather than to hemolysis. It has been suggested that there are clinical manifestations of G6PD deficiency that are related to other tissues, but the existence of these is not well documented. Some mutations that produce G6PD deficiency in red cells exist at polymorphic frequencies. Individuals with such mutations seem to have enjoyed a selective advantage because of resistance to falciparum malaria. Different mutations, each characteristic of certain populations, are found, and have been characterized at the deoxyribonucleic acid (DNA) level. G6PD A-(202A376G) is the most common African mutation. G6PD Mediterranean(563T) is found in Southern Europe, the Middle East and in the Indian subcontinent. Several other mutations are common in Asia. Genetic variability of G6PD has played an important role in the understanding of a variety of developmental processes.
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PMID:G6PD: population genetics and clinical manifestations. 886 Dec 78

Genetic distance measurements are an important tool to differentiate field populations of disease vectors such as the mosquito vectors of malaria. Here, we have measured the genetic differentiation between Anopheles arabiensis and Anopheles gambiae, as well as between proposed emerging species of the latter taxon, in whole genome scans by using 23-25 microsatellite loci. In doing so, we have reviewed and evaluated the advantages and disadvantages of standard parameters of genetic distance, F(ST), R(ST), (delta mu)(2), and D. Further, we have introduced new parameters, D' and D(K), which have well defined statistical significance tests and complement the standard parameters to advantage. D' is a modification of D, whereas D(K) is a measure of covariance based on Pearson's correlation coefficient. We find that A. gambiae and A. arabiensis are closely related at most autosomal loci but appear to be distantly related on the basis of X-linked chromosomal loci within the chromosomal Xag inversion. The M and S molecular forms of A. gambiae are practically indistinguishable but differ significantly at two microsatellite loci from the proximal region of the X, outside the Xag inversion. At one of these loci, both M and S molecular forms differ significantly from A. arabiensis, but remarkably, at the other locus, A. arabiensis is indistinguishable from the M molecular form of A. gambiae. These data support the recent proposal of genetically differentiated M and S molecular forms of A. gambiae.
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PMID:When genetic distance matters: measuring genetic differentiation at microsatellite loci in whole-genome scans of recent and incipient mosquito species. 1155 12

Of the seven recognized species of the Anopheles gambiae complex, A. gambiae s.s. is the most widespread and most important vector of malaria. It is becoming clear that, in parts of West Africa, this nominal species is not a single panmictic unit. We found that the internal transcribed spacer (ITS) of the X-linked rDNA has two distinct sequences with three fixed nucleotide differences; we detected no heterozygotes at these three sites, even in areas of sympatry of the two ITS types. The intergenic spacer (IGS) of this region also displays two distinct sequences that are in almost complete linkage disequilibrium with the distinct ITS alleles. We have designated these two types as S/type I and M/type II. These rDNA types correspond at least partly to the previously recognized chromosomal forms. Here we expand the geographic range of sampling to 251 individuals from 38 populations. Outside of West Africa, a single rDNA type, S/type I, corresponds to the Savanna chromosomal form. In West Africa, both types are often found in a single local sample. To understand if these findings might be due to unusual behavior of the rDNA region, we sequenced the same region for 46 A. arabiensis, a sympatric sibling species. No such distinct discontinuity was observed for this species. Autosomal inversions in one chromosome arm (2R), an insecticide resistance gene on 2L, and this single X-linked region indicate at least two genetically differentiated subpopulations of A. gambiae. Yet, rather extensive studies of other regions of the genome have failed to reveal genetic discontinuity. Evidently, incomplete genetic isolation exists within this single nominal species.
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PMID:Genetic differentiation in the African malaria vector, Anopheles gambiae s.s., and the problem of taxonomic status. 1219 1

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is the most common enzymopathy in humans. Deficiency alleles for this X-linked disorder are geographically correlated with historical patterns of malaria, and the most common deficiency allele in Africa (G6PD A-) has been shown to confer some resistance to malaria in both hemizygous males and heterozygous females. We studied DNA sequence variation in 5.1 kb of G6pd from 47 individuals representing a worldwide sample to examine the impact of selection on patterns of human nucleotide diversity and to infer the evolutionary history of the G6PD A- allele. We also sequenced 3.7 kb of a neighboring locus, L1cam, from the same set of individuals to study the effect of selection on patterns of linkage disequilibrium. Despite strong clinical evidence for malarial selection maintaining G6PD deficiency alleles in human populations, the overall level of nucleotide heterozygosity at G6pd is typical of other genes on the X chromosome. However, the signature of selection is evident in the absence of genetic variation among A- alleles from different parts of Africa and in the unusually high levels of linkage disequilibrium over a considerable distance of the X chromosome. In spite of a long-term association between Plasmodium falciparum and the ancestors of modern humans, patterns of nucleotide variability and linkage disequilibrium suggest that the A- allele arose in Africa only within the last 10,000 years and spread due to selection.
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PMID:Nucleotide variability at G6pd and the signature of malarial selection in humans. 1252 54

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