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1.
In the present study we analyzed the fine specificity of mouse monoclonal and human polyclonal antibodies directed against the repeat domain of the circumsporozoite (CS) protein of the human malaria parasite, Plasmodium vivax. Five synthetic peptides, representing monomeric and dimeric repeats of this malarial antigen, were assayed for their capacity to inhibit the binding of these antibodies to a yeast-derived recombinant CS protein. The results revealed the existence of at least two distinct repeated overlapping epitopes in the CS protein of P. vivax. Furthermore, polyclonal sera contain antibodies which recognize additional determinants not represented by the synthetic repeat peptides. Some of these sera contain antibodies recognizing a region flanking the repeat domain (region I). The present findings are in contrast with the antibody response in rodents and humans to the Plasmodium falciparum CS protein, which is directed against a single repeated immunodominant epitope.  相似文献   

2.
Rhoptries are cellular organelles localized at the apical pole of apicomplexan parasites. Their content is rich in lipids and proteins that are released during target cell invasion. Plasmodium falciparum rhoptry-associated protein 1 (RAP1) has been the most widely studied among this parasite species' rhoptry proteins and is considered to be a good anti-malarial vaccine candidate since it displays little polymorphism and induces antibodies in infected humans. Monoclonal antibodies directed against RAP1 are also able to inhibit target cell invasion in vitro and protection against P. falciparum experimental challenge is induced when non-human primates are immunized with this protein expressed in its recombinant form. This study describes identifying and characterizing RAP1 in Plasmodium vivax, the most widespread parasite species causing malaria in humans, producing more than 80 million infections yearly, mainly in Asia and Latin America. This new protein is encoded by a two-exon gene, is proteolytically processed in a similar manner to its falciparum homologue and, as observed by microscopy, the immunofluorescence pattern displayed is suggestive of its rhoptry localization. Further studies evaluating P. vivax RAP1 protective efficacy in non-human primates should be carried out taking into account the relevance that its P. falciparum homologue has as an anti-malarial vaccine candidate.  相似文献   

3.
Malaria vaccines containing the Plasmodium falciparum Circumsporozoite protein repeat domain are undergoing human trials. There is no simple method to evaluate the effect of vaccine-induced responses on P. falciparum sporozoite infectivity. Unlike the rodent malaria Plasmodium berghei, P. falciparum sporozoites do not infect common laboratory animals and only develop in vitro in human hepatocyte cultures. We generated a recombinant P. berghei parasite bearing P. falciparum Circumsporozoite protein repeats. These hybrid sporozoites are fully infective in vivo and in vitro. Monoclonal and polyclonal Abs to P. falciparum repeats neutralize hybrid parasite infectivity, and mice immunized with a P. falciparum vaccine are protected against challenge with hybrid sporozoites.  相似文献   

4.
Malaria during pregnancy in Plasmodium falciparum endemic regions is a major cause of mortality and severe morbidity. VAR2CSA is the parasite ligand responsible for sequestration of Plasmodium falciparum infected erythrocytes to the receptor chondroitin sulfate A (CSA) in the placenta and is the leading candidate for a placental malaria vaccine. Antibodies induced in rats against the recombinant DBL4ε domain of VAR2CSA inhibit the binding of a number of laboratory and field parasite isolates to CSA. In this study, we used a DBL4ε peptide-array to identify epitopes targeted by DBL4ε-specific antibodies that inhibit CSA-binding of infected erythrocytes. We identified three regions of overlapping peptides which were highly antigenic. One peptide region distinguished itself particularly by showing a clear difference in the binding profile of highly parasite blocking IgG compared to the IgG with low capacity to inhibit parasite adhesion to CSA. This region was further characterized and together these results suggest that even though antibodies against the synthetic peptides which cover this region did not recognize native protein, the results using the mutant domain suggest that this linear epitope might be involved in the induction of inhibitory antibodies induced by the recombinant DBL4ε domain.  相似文献   

5.
Plasmodium falciparum parasites that sequester in the placenta bind to the molecule chondroitin sulfate A (CSA). Women become resistant to malaria during pregnancy as they acquire antibodies that inhibit parasite adhesion to CSA, suggesting that a vaccine against placental malaria is feasible. Hyaluronic acid (HA) and non-immune IgG have also been proposed as receptors for P. falciparum adhesion in the placenta, but evidence for their roles is inconclusive. In this study, CSA, HA, and IgG were simultaneously assessed for their relative contributions to placental adhesion. Placental parasites collected in Tanzania uniformly adhered to the molecule CSA, and soluble CSA completely inhibited adhesion of most samples to placental cryosections. Three of 46 placental parasite samples also adhered to immobilized HA, but HA failed to inhibit adhesion of any placental parasites to placental cryosections. Similarly, non-immune IgG and protein A failed to inhibit adhesion of parasite samples to placental cryosection. P. falciparum adhesion in the placenta appears to be a non-redundant process that requires CSA as a receptor. Vaccines that elicit functional antibodies against CSA-binding parasites may confer resistance to pregnancy malaria.  相似文献   

6.
An IgM monoclonal antibody (Mab 36) which reacts with the circumsporozoite (CS) proteins of both P. falciparum and P. berghei was isolated from Plasmodium falciparum sporozoite-immunized mice. In assays of biological activity, Mab 36 induces the CS precipitation reaction with live sporozoites and blocks the invasion of hepatoma cells by sporozoites in vitro at concentrations much lower than those observed for previously reported CS protein-specific monoclonal antibodies. Mab 36 also provided complete protection against P. berghei sporozoite challenge in mice at low doses. Linear epitope mapping revealed that the epitope specificities recognized by Mab 36 are completely encompassed by other monoclonals previously shown to be associated in vivo with protection against P. falciparum or P. berghei sporozoite infection. These results suggest that the ability to make high-affinity IgM antibody to specific CS protein repeat epitopes may be important for eliciting protection against malarial infection.  相似文献   

7.
The C-terminal region of the merozoite surface protein 1 (MSP1_(19)) is one of the mostpromising vaccine candidates against the erythrocytic forms of malaria.In the present study,a gene encodingPlasmodium falciparum MSP1_(19) was expressed in yeast Pichia pastoris.A non-glycosylated form of therecombinant protein MSP1_(19) was purified from culture medium.This recombinant protein maintains itsantigenicity.Significant immune responses were seen in C57BL/6 mice after the second immunization.Moreover,the specific antibodies recognized the native antigens of P.falciparum,The prevailing isotypesof immunoglobulin (Ig)G associated with immunization were IgG1,IgG2a and IgG2b.The antibodiesisolated from mouse sera immunized with MSP1_(19) can inhibit parasite growth in vitro.Based on theseimmunological studies,we concluded that MSP1_(19) deserves further evaluation in pre-clinical immunizationsagainst P.falciparum.  相似文献   

8.
9.
Plasmodial lactate dehydrogenase, key enzyme of anaerobic glycolysis, has been shown to be a potential immunodiagnostic marker as well as a novel target for chemotherapy. We have cloned, overexpressed and immunochemically characterized the recombinant lactate dehydrogenase of Plasmodium knowlesi, the fifth human malaria parasite. The P. knowlesi lactate dehydrogenase (PkLDH) gene was PCR amplified and 0.9 kb PCR product was cloned into pGEM-T Easy vector. Sequencing and BLAST analysis revealed open reading frame of 316 amino acids of PkLDH showing 96.8% homology with Plasmodium vivax LDH and around 90% with Plasmodium falciparum, Plasmodium malariae and Plasmodium ovale LDHs. The PkLDH gene was subcloned into pGEX-6P1 expression vector and the SDS-PAGE analysis revealed that about 70% of fusion protein was present in the soluble fraction. The fusion protein was cleaved with PreScission protease and recombinant PkLDH (34 kDa) was affinity purified to homogeneity. The purified PkLDH exhibited high reactivity with polyclonal and monoclonal antibodies against plasmodial LDH. The polyclonal antibody produced against purified recombinant PkLDH in rabbits showed high ELISA reactivity with both native and recombinant PkLDH and could detect parasite LDH in malaria infected blood samples by sandwich ELISA. The purified recombinant PkLDH can be used to produce P. knowlesi specific monoclonal antibodies for specific diagnosis of P. knowlesi infection in humans.  相似文献   

10.
The multiplication of Plasmodium falciparum within RBC is energy-dependent and the glucose consumption of infected RBC is increased more than 50 times over the consumption of normal RBC. High levels of glycolytic enzymes such as fructose-1,6-diphosphate aldolase (p41) have been detected in infected RBC. Expression of the cloned aldolase gene of P. falciparum in Escherichia coli resulted in an enzymatically active polypeptide with a high sp. act. and the recombinant p41 aldolase was used for enzymatic and immunologic studies reported here. The presence of antibodies against p41 in the sera of human adults partially immune to malaria and immunization experiments in monkeys suggest that p41 is implicated in protective immune response against the parasite. Therefore, we analyzed the capacity of various antisera to inhibit P. falciparum aldolase activity. It was found that anti-p41 antibodies raised in mice, rabbits, and monkeys inhibited very efficiently aldolase activity in vitro up to dilutions higher than 10(-3). In contrast none of the human sera with high levels of anti-p41 antibodies were able to inhibit parasite aldolase activity even at a dilution of 1/2. The inability of human antisera to neutralize parasite aldolase is not related to antibody titers but is probably related to the specificity of the human antibodies. This finding is discussed in relation to homology of structure of P. falciparum and mammalian aldolase and to a possible mechanism of parasite adaptation and survival in its natural host.  相似文献   

11.
Merozoite surface protein 1 (MSP1) is the major protein component on the surface of the merozoite, the erythrocyte-invasive form of the malaria parasite Plasmodium. Present in all species of Plasmodium, it undergoes two distinct proteolytic maturation steps during the course of merozoite development that are essential for invasion of the erythrocyte. Antibodies specific for the C-terminal maturation product, MSP1-19, can inhibit erythrocyte invasion and parasite growth. This polypeptide is therefore considered to be one of the more promising malaria vaccine candidates. We describe here the crystal structure of recombinant MSP1-19 from P.falciparum (PfMSP1-19), the most virulent species of the parasite in humans, as a complex with the Fab fragment of the monoclonal antibody G17.12. This antibody recognises a discontinuous epitope comprising 13 residues on the first epidermal growth factor (EGF)-like domain of PfMSP1-19. Although G17.12 was raised against the recombinant antigen expressed in an insect cell/baculovirus system, it binds uniformly to the surface of merozoites from the late schizont stage, showing that the cognate epitope is exposed on the naturally occurring MSP1 polypeptide complex. Although the epitope includes residues that have been mapped to regions recognised by invasion-inhibiting antibodies studied by other workers, G17.12 does not inhibit erythrocyte invasion or MSP1 processing.  相似文献   

12.
Pf72/Hsp70-1, a heat-shock protein of m.w. 72 kDa from Plasmodium falciparum is one of the Ag of interest to be included in a polyvalent vaccine against malaria. It is one of the major immunogens present in a fraction of purified blood stage parasites that elicited protection against experimental infection of Saimiri monkeys with blood stages of P. falciparum. It is present at all blood stages and one of its B cell epitopes is also detected on the surface of the infected hepatocyte. Moreover, Pf72 appears to be well conserved among different isolates of P. falciparum. We have examined the immune response against Pf72/Hsp70-1 in individuals from different age groups living in a holoendemic area (West Africa). The immune response against the native Ag (purified from schizonts and called Pf/Hsp70) was analyzed both at the humoral level by ELISA and at the cellular level by assessing in vitro proliferation and IFN-gamma production of PBMC. Of the individuals studied 52% had a statistically significant level of anti-Pf/Hsp70 antibodies as compared with unexposed individuals. These positive individuals showed a heterogeneous distribution because significant levels of antibodies were found in 70% of the adults but in only 26% of the children. The presence of Pf/Hsp70-specific reactive T cells in the blood was detected in 32% of the individuals. The total anti-Pf/Hsp70 antibody level (IgG+IgM) appeared strongly age related and correlated positively with parasite exposure, whereas the T cell response failed to correlate either with the antibody level or with age. Moreover, PBMC of donors responded to the Pf/Hsp70 in a dissociated way, namely, by either T cell proliferation or IFN-gamma production. Ten synthetic peptides based on sequences found in the C-terminal part of Pf72/Hsp70-1 were further tested as potential T cell epitopes. The proliferative response of PBMC from individuals continuously exposed to the parasite showed that three peptides more frequently trigger significant T cell proliferation (in 21% to 27% of the individuals) and three others less frequently (10%). None of these peptides allowed detection of reactive T cells in PBMC of Europeans with no previous exposure to malaria. Some of the stimulating peptides are highly similar to human heat-shock Hsc and Hsp70 with large stretches of identical amino acids.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

13.
A 33-kDa soluble antigen identified in the culture supernatant by patient serum and monoclonal antibodies was present in rings, trophozoites, schizonts, and merozoites of Plasmodium falciparum. The antigen which is released into the culture supernatant by growing parasites was also observed in the host cells of trophozoites and schizonts and could be localized on the host cell surface. Its specificity for the surface of trophozoites and schizonts was observed to decrease with increased duration without subculture. The antigen could then be detected on the surface of noninfected erythrocytes. The antigenicity of the 33-kDa antigen was destroyed by heating at 65 degrees C. Monoclonal and polyclonal specific antibodies weakly inhibited parasite growth in vitro. The antigen was present in both knob positive and knob negative parasites in all the P. falciparum isolates tested.  相似文献   

14.
The core protein of the large hyaline cartilage proteoglycan, aggrecan, is composed of six distinct domains: globular 1 (G1), interglobular, globular 2 (G2), keratan sulfate attachment, chondroitin sulfate (CS) attachment, and globular 3 (G3). Monoclonal antibodies that recognize epitopes in these domains were raised against Swarm rat chondrosarcoma aggrecan that was either denatured through reduction and alkylation or partially deglycosylated through chondroitinase ABC digestion or alkali elimination, the latter with or without sulfite addition. Monoclonal antibodies were further characterized for reactivity to purified aggrecan substructures including rat chondrosarcoma G1 and CS attachment domains, a recombinant rat chondrosarcoma G3 domain fusion protein, bovine articular cartilage G2 domain, and rat chondrosarcoma link protein (LP). Biochemical characterization of the specificities of these monoclonal antibodies indicated that one (1C6) recognized an epitope shared by both the G1 and the G2 domains; one (5C4) recognized an epitope shared by both LP and the G1 domain; one (7D1) recognized an epitope shared by both the G1 and the CS attachment domains; two (14A1 and 15B2) recognized epitopes in the CS attachment domain; one (14B4) recognized an epitope in the G3 domain; and one (13D1) recognized a ubiquitous epitope shared by the G1, G2, G3, and CS attachment domains of aggrecan and also LP. Collectively the specificities of these antibodies confirm the occurrence of multiple repeated epitopes (both carbohydrate and protein in nature) throughout the different domain structures of aggrecan. These antibodies have been proven to be useful for identifying aggrecan-like molecules in several connective tissues other than cartilage.  相似文献   

15.
Synthesis of peptides corresponding to the 59-72 and 25-36 sequences of human IL-2 is reported. The former peptide, which had been shown to be immunogenic in the protein molecule, was prepared to obtain antipeptide antibodies for isolation and purification of the recombinant IL-2. We located the epitope at the C-terminus of this peptide. In accordance with the IL-2 secondary structure and hydrophilicity profile analysis, the 25-36 fragment was chosen as the potential epitope. The peptides were synthesized by conventional methods in solution, conjugated with a protein carrier, and polyclonal rabbit antisera were obtained. Antibodies against both peptides were shown to be specific to human IL-2 in ELISA. Besides, monoclonal antibodies to IL-2 recognized in ELISA the 59-72 peptide, suggesting the epitope located in this region to be main one in the protein molecule.  相似文献   

16.
The precursor of the major merozoite surface Ag (PMMSA) represents one of the principal molecules of the erythrocytic stages of malarial parasites. Previously we reported that mAb 302 recognizing the 230-kDa PMMSA of Plasmodium yoelii provided passive protection to mice challenged with this parasite. We now report that the protective capacity of mAb 302 is variant specific, affording protection against infection with only three of five P. yoelii lines. Immunoprecipitation analyses of their PMMSA revealed that the expression of the epitope recognized by mAb 302 also varied and correlated completely with the results of the passive protection studies. Although this specific determinant was not present on the merozoite Ag of all P. yoelii lines, the common expression of other B cell epitopes was noted by the demonstration of serologic cross-reactivity between these molecules. Furthermore, the relatedness of the genes encoding the PMMSA of several murine plasmodial strains and species was clearly shown in nucleic acid hybridization studies. Although strain-common and strain-variable epitopes have been observed in the PMMSA of the human parasite, Plasmodium falciparum, little is known concerning the variability of its biologically relevant epitopes. The current studies using the P. yoelii model system demonstrate that the epitope recognized by a protective mAb is strain variable. Because of the similarities between these antigens of P. falciparum and P. yoelii, this information may impact on the construction of an effective blood-stage malarial vaccine.  相似文献   

17.
Pf12 in Plasmodium falciparum has been characterized as a merozoite surface protein and the Pf12 gene is actively transcribed during schizont stage. An orthologous gene, Pv12, has been identified in genome of P. vivax, but the protein product has not been characterized. The Pv12 is a 362 amino acid long polypeptide encoded by a single exon gene PVX_113775, for which orthologous genes have been identified in other Plasmodium species by bioinformatic approaches. Pv12 contains two predicted six-cysteine (6-Cys) domains, which may be constrained by predicted disulfide bonds, and a transmembrane domain and a predicted GPI anchor attachment site in C-terminal region. The recombinant Pv12 protein is recognized by serum antibodies of patients naturally exposed to P. vivax and the native Pv12 protein from parasite extract is also recognized by immune mouse serum. The Pv12 is localized in rhoptry; an apical organelle of the merozoite, and the localization pattern of Pv12 is distinct from that of Pf12 in P. falciparum. The present study suggests that Pv12 is immunogenic in humans during parasite infection and it could play an important role in erythrocyte invasion.  相似文献   

18.
R F Howard  H A Stanley  R T Reese 《Gene》1988,64(1):65-75
During its intra-erythrocytic cycle, Plasmodium falciparum synthesizes a protein of apparent Mr 250,000-300,000. Its precise size is dependent on the P. falciparum isolate examined. This protein contains phosphate covalently bound to one or more serine residues and hence is termed PP300. Monoclonal antibody, McAb4-1F, binds to PP300 on immunoblots of protein extracts from all parasite isolates tested, both those exhibiting and those lacking the knob phenotype. Using McAb4-1F, the polypeptide was shown to be physically associated with the plasma membrane in a membrane-isolation procedure. However, in an indirect immunofluorescence assay the McAb appeared to bind to antigen associated with the erythrocyte plasma membrane in parasitized cells. However, it reacted only to fixed, not unfixed, parasitized erythrocytes indicating that the epitope is not normally exposed to extracellular antibodies. Clone 29-2 was isolated by a McAb4-1F immunoscreen of a P. falciparum complementary DNA (cDNA) expression library created in pUC8. Rat anti-clone serum which was raised to the purified protein encoded by the lacZ-29-2 fusion in pUC8 reacted with PP300 in immunoblots of parasite antigen. In Southern-blot analyses of parasite DNA digested with EcoRI, HindIII, or EcoRV, the 29-2 DNA insert hybridized to more than one fragment even though the insert lacked internal sites for these enzymes. In addition, hybridization studies were conducted using two oligodeoxy-nucleotides which were constructed based on the sequence of a cDNA clone which encoded part of a similar high-molecular-weight P. falciparum protein [Coppel et al., Mol. Biochem. Parasitol. 20 (1986) 265-277]. Analysis of these results indicates that the two cDNA sequences are parts of the same gene or a family of related genes.  相似文献   

19.
The relationship between autoimmunity and malaria is not well understood. To determine whether autoimmune responses have a protective role during malaria, we studied the pattern of reactivity to plasmodial antigens of sera from 93 patients with 14 different autoimmune diseases (AID) who were not previously exposed to malaria. Sera from patients with 13 different AID reacted against Plasmodium falciparum by indirect fluorescent antibody test with frequencies varying from 33-100%. In addition, sera from 37 AID patients were tested for reactivity against Plasmodium yoelii 17XNL and the asexual blood stage forms of three different P. falciparum strains. In general, the frequency of reactive sera was higher against young trophozoites than schizonts (p < 0.05 for 2 strains), indicating that the antigenic determinants targeted by the tested AID sera might be more highly expressed by the former stage. The ability of monoclonal auto-antibodies (auto-Ab) to inhibit P. falciparum growth in vitro was also tested. Thirteen of the 18 monoclonal auto-Ab tested (72%), but none of the control monoclonal antibodies, inhibited parasite growth, in some cases by greater than 40%. We conclude that autoimmune responses mediated by auto-Ab may present anti-plasmodial activity.  相似文献   

20.
Monoclonal antibodies (mAbs) have been raised to gonococcal outer membranes. A panel of six mAbs was identified by several criteria as reacting with outer membrane protein III (P.III). Competitive radioimmunoassays showed that the mAbs could be grouped into three pairs recognizing different epitopes on P.III. These epitopes are equally present on all pathogenic Neisseria. The mAbs demonstrated differing protective effects in model systems. Those directed against one epitope were particularly effective in protecting Chang conjunctiva epithelial cells against gonococcal challenge. mAbs against this epitope and another promoted complement-mediated bactericidal activity, while those directed against the third epitope were ineffective. Thus the biological effects of mAbs directed against P.III vary according to the epitope recognized.  相似文献   

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