Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Allotypes of IgG1, IgG2, IgG3, and IgA2 subclasses were investigated in seven Lebanese communities (three Moslem and four Christian). The Gm-Am haplotypes found were mainly those prevalent in Caucasians with a low frequency of haplotypes usually observed in Africans and Orientals. The difference between highlanders and lowlanders as expressed by G2m(23) was highly significant and suggested a possible adaptation to selective pressure related to the gamma2 genes, possibly due to endemic malaria in the past. Exceptional Gm-Am haplotypes were unambiguously determined by family studies. Some were characterized either by a deletion or a repression or, in contrast, by a partial or total duplication of gamma genes. Two others had uncommon combinations of allotypes: Gm17;23;5,10,11,13,14 A2m1, where G1m (17) was present without G1m (1); and Gm3;23;5,14 A2m1, where the CH3 allotypes G3m (10,11,13) were lacking.
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PMID:Common and uncommon immunoglobulin haplotypes among Lebanese communities. 64 Jun 54

In view of the recent demonstration that antibodies that are protective against Plasmodium falciparum malaria may act in collaboration with blood monocytes, we have investigated the isotype content of sera from individuals with defined clinical states of resistance or susceptibility to malaria. Profound differences in the distribution of each Ig subclass and particularly in the ratio of cytophilic versus noncytophilic antibodies were found. In protected subjects, two cytophilic isotypes, IgG1 and IgG3 were found to predominate. In non-protected subjects, i.e. children and primary attack adults, three different situations were encountered: a) an imbalance in which IgG2, a non-cytophilic class, predominated (mostly seen in primary attacks); b) an imbalance in which mostly IgM antibodies predominated (a frequent event in children) or c) less frequently, an overall low level of antimalarial antibodies. Of 33 non immune subjects studied all, except one, had one of the above defects. The function of total Ig presenting such an isotype imbalance was studied in vitro in Antibody-Dependent-Cellular-Inhibition assays. Not only did IgG from protected subjects cooperate efficiently with blood monocytes, whilst IgG from non-protected groups did not, but moreover the latter inhibit the in vitro effect of the former: in competition assays whole IgG from primary attack cases with increased IgG2 content, competed with IgG from immune adults, thus suggesting that non-protected subjects had antibodies to epitopes critical for protection, but that these antibodies are non functional.
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PMID:Antibodies in falciparum malaria: what matters most, quantity or quality? 134 95

In view of the recent demonstration that antibodies that are protective against Plasmodium falciparum malaria may act in collaboration with blood monocytes, we investigated the isotype content of sera from individuals with defined clinical states of resistance or susceptibility to malaria. Profound differences in the distribution of each immunoglobulin subclass were found. Immunoglobulin G1 (IgG1) and IgG3, two cytophilic isotypes, predominated in protected subjects. In nonprotected subjects, i.e., children and adults that have sustained a primary malarial attack, four different situations were encountered: (i) an imbalance in which IgG2, a noncytophilic class, predominated (mostly seen in primary attacks), (ii) an imbalance also concerning IgG2 but only of a given antigenic specificity, (iii) an imbalance in which mostly IgM antibodies predominated (a frequent event in children), and, less frequently, (iv) an overall low level of antimalarial antibodies. Of 33 nonimmune subjects studied, all but one had one of the above defects. The function of total immunoglobulin presenting such an isotype imbalance was studied in vitro in antibody-dependent cellular inhibition assays. IgG from protected subjects cooperated efficiently with blood monocytes, whereas IgG from nonprotected groups did not. Also, the latter could inhibit the in vitro effect of the former: in competition assays whole IgG from primary-attack cases with increased IgG2 content and IgG or IgM from children from endemic areas competed with IgG from immune adults. This led us to formulate the hypothesis that nonprotected subjects have antibodies to epitopes critical for protection, but that these antibodies are nonfunctional. These results bring some clues to the very long delay required to reach protection against malaria and clearly stress the need to investigate immune responses in both quantitative and qualitative terms.
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PMID:Plasmodium falciparum malaria: evidence for an isotype imbalance which may be responsible for delayed acquisition of protective immunity. 154 71

A phagocytic assay performed with human peripheral mononuclear cells and malaria-infected erythrocytes enabled the study of opsonizing antibodies in human serum from donors presenting different levels of protective immunity. Opsonizing activity was found in sera from individuals who could be considered immune, i.e. asymptomatic parasite carriers and subjects residing in endemic regions who presented neither symptoms nor parasites. This contrasted with subjects showing an absence of symptoms or who had experienced only a single malarial infection. All sera contained high levels of antimalarial antibodies, as shown by immunofluorescence assay (IFA). IgG of different subclasses were immunopurified from these sera. All subclasses were shown to bind to the surface of infected erythrocytes by FACS analysis, but only IgG1 and IgG3 were able to mediate opsonization. IgG2 and IgG4 did not opsonize and inhibited the opsonizing activity of IgG1 and IgG3 in competition experiments. These results suggest the existence of a correlation between immune protection, the ability of serum to mediate opsonization of infected erythrocytes and the predominance, in this serum, of IgG1 and IgG3 over IgG2 and IgG4 directed against the surface of the infected erythrocytes.
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PMID:Opsonization as an effector mechanism in human protection against asexual blood stages of Plasmodium falciparum: functional role of IgG subclasses. 170 37

Three subunit vaccines based on the major repeat, (QGPGAP)n, and flanking regions of the Plasmodium yoelii circumsporozoite protein were designed, produced, and tested. All were immunogenic, but none gave consistent protection against a 40-200 sporozoite challenge. To demonstrate that antibodies to P. yoelii CS protein could provide protection we established a passive transfer model. Passive transfer of NYS1, an IgG3 MAb against the P. yoelii CS protein, protected 100% of mice against challenge with 5000 P. yoelii sporozoites. Binding of NYS1 to sporozoites was inhibited by incubation with (QGPGAP)2, indicating that the epitope on sporozoites recognized by this MAb was included within this peptide. The levels of antibodies to (QGPGAP)2 by ELISA, and to sporozoites by IFAT and CS precipitation reaction were similar in sera from mice that received NYS1 in passive transfer and were protected against challenge with 5000 sporozoites, and from mice that had been immunized with subunit vaccines containing QGPGAP but were not protected against challenge with 40-200 sporozoites. To determine if antibody avidity, not the absolute concentration, could explain the striking differences in protection, we established a thiocyanate elution assay. The results suggest that NYS1, the protective MAb, has a lower avidity for (QGPGAP)2 and for sporozoites than do the vaccine-induced antibodies. The data clearly demonstrate that antibodies to the CS protein can protect against intense sporozoite infection. Improved understanding of the differences between protective MAbs and non-protective polyclonal antibodies will be important in the further development of malaria vaccines.
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PMID:Active and passive immunization against Plasmodium yoelii sporozoites. 170 34

An analysis of Plasmodium falciparum-specific antibodies was performed in pairs of maternal and cord sera from Gabon, a region endemic for malaria. All paired sera (n = 59) had P. falciparum-specific antibodies. Immunofluorescence assays detected parasite-specific IgG1, IgG2, and IgG3 in 100% of the tested pairs (n = 26) and IgG4 in 42% of them. The titers of specific IgG2 and IgG3 were significantly lower in cord than in maternal sera. All maternal sera had specific IgM. Of the seven P. falciparum-IgM positive cord sera, six were associated with malaria-related histological placental changes (MRHPC). In addition, higher titers of specific IgG1 in maternal and cord sera and of specific IgG3 in cord sera were associated with MRHPC. Similar P. falciparum antigens were recognized by cord and corresponding maternal sera in radioimmunoprecipitation and Western blot assays (n = 40). Sixteen of 20 cord sera and 15 of 20 paired maternal sera significantly inhibited in vitro parasite growth. The extent of inhibition did not correlate with the titer of specific antibodies. These data confirm the very effective placental transfer of anti-malarial antibodies. The presence of IgM in some cord sera raise the question of intrauterine sensitization to malaria antigens.
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PMID:Isotypic analysis, antigen specificity, and inhibitory function of maternally transmitted Plasmodium falciparum-specific antibodies in Gabonese newborns. 171 45

Previous studies have demonstrated the importance of antibodies in mediating immunity to malaria, but the relative contribution of the different immunoglobulin isotypes has not been assessed. In this study, hyperimmune plasma was generated against Plasmodium yoelii and separated by protein A-Sepharose chromatography into fractions containing immunoglobulin G1 (IgG1), IgG2a, IgG2b, or IgG3 antibodies and the remaining nonbinding plasma proteins, including IgM. Following concentration, the antimalarial titer of each isotypic fraction was approximately equivalent to the corresponding isotype in hyperimmune plasma. The isotypic fractions were passively transferred to BALB/c and outbred ICR mice prior to challenge with virulent P. yoelii 17XL and to CBA/CaJ mice challenged with avirulent P. yoelii 17XNL. Only mice receiving IgG2a antibodies experienced an altered course of infection. Immunoprecipitation studies showed that all four IgG isotypes appear to recognize a similar set of antigens. These results suggest that antimalarial antibodies of the IgG2a isotype play a dominant role in modulating P. yoelii parasitemias.
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PMID:Antimalarial antibodies of the immunoglobulin G2a isotype modulate parasitemias in mice infected with Plasmodium yoelii. 189 61

The infection by a non-lethal strain of Plasmodium yoelii induces the formation of autoantibodies such as anti-DNA and anti-Sm antibodies in mice. The extent of the relative increase in serum levels of IgM and IgG anti-DNA and anti-Sm antibodies and their kinetics were found to be similar to those of anti-hapten antibodies and of total IgM and IgG levels. This strongly suggested that anti-DNA and anti-Sm autoantibody responses observed in malaria-infected mice are a result of polyclonal activation of B cells. The analysis of the IgG subclasses reacting with DNA antigen showed significant levels of the T cell-dependent isotypes, IgG1 and IgG2. The role of T cells in the activation of autoreactive B cells was confirmed by using athymic nude mice. Indeed, BALB/c-nu/nu and C57BL/6-nu/nu mice failed to produce IgG anti-DNA antibodies after infection with P. yoelii. Moreover, the reconstitution of BALB/c nude mice with lymph node cells from congenic euthymic BALB-Igb mice showed the activation of autoreactive B cells in nude mice by T cells from euthymic mice. Studies in mice depleted of CD4+ T cells strongly suggested that malaria-induced anti-DNA antibodies were almost entirely dependent on the presence of CD4+ T cells, as this depletion significantly decreased IgM anti-DNA antibodies and completely abolished the IgG anti-DNA production, including the IgG3 subclass in infected mice. In contrast, depletion of the CD8+ T cell subset had no effect on the production of autoantibody in malaria-infected mice. Our results indicate that CD4+ T cells play a major role for both IgM and IgG anti-DNA production during the course of malaria infection.
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PMID:CD4+ T cells play a major role for IgM and IgG anti-DNA production in mice infected with Plasmodium yoelii. 196 98

One of the primary strategies for malaria vaccine development has been to design subunit vaccines that induce protective levels of antibodies against the circumsporozoite (CS) protein of malaria sporozoites. In the Plasmodium yoelii mouse model system such vaccines have been uniformly unsuccessful in protecting against sporozoite-induced malaria. To demonstrate that antibodies to P. yoelii CS protein could provide protection we established a passive transfer model. Passive transfer of Navy yoelii sporozoite 1 (NYS1), an IgG3 mAb against the P. yoelii CS protein, protected 100% of mice against challenge with 5000 P. yoelii sporozoites. Binding of NYS1 to sporozoites was inhibited by incubation with (QGPGAP)2, a synthetic peptide derived from the repeat region of the P. yoelii CS protein, indicating that the epitope on sporozoites recognized by this mAb was included within this peptide. The levels of antibodies to (QGPGAP)2 by ELISA, and to sporozoites by indirect fluorescent antibody test and CS precipitation reaction were similar in sera from mice that received NYS1 in passive transfer and were protected against challenge with 5000 sporozoites, and from mice that had been immunized with subunit vaccines containing (QGPGAP)2 but were not protected against challenge with 40-200 sporozoites. To determine if antibody avidity, not absolute concentration could explain the striking differences in protection, we established a thiocyanate elution assay. The results suggest that NYS1, the protective mAb, has a lower avidity for (QGPGAP)2 and for sporozoites than do the vaccine-induced antibodies. Although the results of the conventional antibody assays did not correlate with protection, sera from the protected animals inhibited sporozoite development in mouse hepatocyte cultures significantly more than did the sera from the unprotected, subunit vaccine-immunized animals, correlating with protection. The data clearly demonstrate that antibodies to the CS protein can protect against intense sporozoite infection. Improved understanding of the differences between protective mAb and nonprotective polyclonal antibodies will be important in the further development of malaria vaccines.
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PMID:Monoclonal, but not polyclonal, antibodies protect against Plasmodium yoelii sporozoites. 198 90

We have evaluated the in vitro biological activities of antibodies directed against sporozoites and compared them with their capacity to protect against challenge with both human and rodent malaria. The anti-Plasmodium falciparum antibodies evaluated with the test included monoclonal antibodies (MAbs) NFS1 and NFS2 as well as polyclonal antibodies contained in human hyperimmune sera directed against sporozoites of P. falciparum. The inhibitory effect of these antibodies was dependent on their concentration. However, total inhibition was not observed except occasionally with highly concentrated MAbs (10-100 micrograms/ml). Strong but also incomplete inhibition was observed with sera from humans living in hyperendemic areas. In the P. yoelii rodent system, we tested sera from mice immunized with subunit vaccines. None of these mice were protected in vivo against challenge with 40-200 sporozoites. In vitro only a sub-total inhibition was achieved (maximum 91% at 1:10 serum dilution). In contrast, we tested sera from mice that received NYS1, an IgG3 MAb, in passive transfer and were protected against challenge with 5000 sporozoites. At 1:10 dilution, 100% inhibition was achieved in vitro while IFA titres from these mice were similar to those of vaccinated mice. These data show a close correlation between in vivo and in vitro findings and thus suggest that the inhibition of liver-stage development assay (ILSDA) appears appropriate to evaluate the potential of antibodies.
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PMID:Evaluation of an in vitro assay aimed at measuring protective antibodies against sporozoites. 209 92


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