Expression of Plasmodium falciparum blood-stage antigens in Escherichia coli: detection with antibodies from immune humans.

Many proteins produced by blood stages of the malaria parasite Plasmodium falciparum are natural immunogens in man. As an approach to determining which of these are relevant to protective immunity we have constructed an expression library of P. falciparum cDNA sequences, cloned in Escherichia coli. The cDNA sequences were inserted into the beta-galactosidase gene of an ampicillin-resistant derivative of the temperature-sensitive lysogenic bacteriophage lambda gt11. About 5% of the resulting clones expressed P. falciparum sequences as polypeptides fused to beta-galactosidase. We have identified many clones that express P. falciparum antigens by immunological screening in situ with antibodies from immune human sera that inhibit P. falciparum growth in vitro. The antigen-positive clones contain P. falciparum cDNA sequences, as determined by hybridization. Some express polypeptides that are larger than beta-galactosidase and react both with antibodies to beta-galactosidase and with antibodies from humans immune to P. falciparum. The cloned P. falciparum antigens should facilitate new approaches to the identification of potential vaccine molecules.     

Anti-Plasmodium falciparum antibodies acquired by residents in a holoendemic area of Liberia during development of clinical immunity

Sera from 48 children and adolescents (2-15 years of age), residing in a malaria holoendemic area of Liberia were investigated for specificities and isotypes of anti-P. falciparum antibodies. No clear-cut relationship to the development of clinical immunity was found when the overall antibody activities to total parasite antigens were determined by enzyme-linked immunosorbent assay (ELISA). Although there was a certain rise of IgM, total IgG- and IgG2 antibody activities, this was most pronounced at ages when a clinical but nonsterile immunity is already present. When the sera were investigated by immunoprecipitation of 35S-methionine labeled parasite polypeptides, the total number of parasite antigens precipitated was similar at all ages. Analysis by indirect immunofluorescence (IFA), registering antibodies to intracellular parasite antigens, revealed no age-dependent changes in antibody titers. In contrast, when the sera were assayed by a novel IFA, specific for a restricted number of parasite antigens in the membrane of infected erythrocytes, the frequency of positive sera as well as the anti-P. falciparum titers rose in parallel with the development of clinical immunity. Thus, these antigens appeared to be important inducers of protective immune responses and may be suitable candidates for a vaccine against the asexual blood stages of P. falciparum.     

Characterization of a differential immunoscreen epitope of Plasmodium falciparum using combinatorial agents

A differential serological screening of a lambdagt11 cDNA expression library has identified several clones, which react exclusively to sera samples from persons clinically immune to malaria but not to acute malaria patient sera. One such clone, IPf9, has a 315-bp cDNA insert, which was found to be conserved in different strains of the human and rodent malarial parasite Plasmodium falciparum and Plasmodium berghei, respectively. The induced expression product of IPf9 was used to generate polyclonal sera in rabbits. The IPf9 expression product was also screened with phage surface display combinatorial libraries to isolate reagents that specifically bound to the IPf9 product. The polyclonal antisera and the combinatorial reagents recognized a 50-kDa protein from P. falciparum, and a 53-kDa product from P. berghei. Immunofluorescence studies using asexual and sexual stages of P. falciparum showed the protein to be present within the parasite in each of the asexual and sexual stages. The combinatorial reagents showed a partial inhibition in the growth of P. falciparum in vitro. Mice infected with the P. berghei showed the presence of T-cells that exhibited lymphoproliferation when stimulated with the IPf9 protein. It is suggested that IPf9 protein is a conserved protein epitope, and may be relevant for a protective immune response to malaria.     

Mature liver stages of cloned Plasmodium falciparum share epitopes with proteins from sporozoites and asexual blood stages

The liver merozoites of malaria parasites are of paramount importance, as they initiate the parasite invasion of red blood cells and start the cycle associated with the clinical features of malaria. Investigating liver merozoite antigen is difficult because of the lack of a rodent model of human malaria. In addition, only a low proportion of cells are obtained in vivo, the parasites from Cebus and Aotus monkeys are immature, and in-vitro experiments with liver cells are often confounded by contamination with the natural mosquito flora copurified with the sporozoites used for seeding the liver cultures. In our study, mature liver schizonts were shown to possess many of the antigenic determinants recognized by MoAbs and sera specific for defined sporozoite and blood-stage antigens. We employed an immunofluorescence procedure based on evaluating parasites in cryosections prepared from infected chimpanzee liver. Sufficient numbers of sectioned parasites were evaluated with each antibody to assure the reproducibility of the results, and the fixation procedure used was sufficiently non-destructive to parasite antigens so that clear differences between reactions of specific antibodies and negative controls were observed. Our evidence for sharing of epitopes by liver merozoites and sporozoites or by liver merozoites and asexual blood-stage parasites raises the possibility that immune responses elicited against sporozoites or asexual stage antigens being considered as vaccine candidates may also act against this important, little-studied stage of the parasite.     

A protective merozoite protein of Plasmodium falciparum shares an epitope with surface antigens of Paramecium

A Plasmodium falciparum cDNA expression clone, lambdaPf9, had been identified earlier as a protective epitope, using anti-lambdaPf9 antibodies and combinatorial phagotopes. A segment of the Pf9 gene showed homology with Paramecium immobilization surface antigens such as 51B, 51A and 156G. A synthetic Pf9-peptide was designed from this region, and specific antibodies were raised. Each of these anti-Pf9 antibodies and combinatorial reagents, as well as anti-Paramecium 51B antibodies, recognized the Pf9-peptide on ELISA, and the same protein band in parasite immunoblots. The P. falciparum protein was released from the merozoite membrane fraction on treatment with PI-PLC, indicating the presence of a GPI anchor. Anti-Pf9-peptide antibodies specifically inhibited the growth of P. falciparum in culture. Immunofluorescence assays showed the reactivity of anti-Pf9-peptide sera with P. falciparum merozoites and gametocytes, as well as on the surface of Paramecium tetraurelia. The Pf9-peptide was able to induce proliferation of splenic lymphocytes obtained from mice infected with the rodent malarial parasites Plasmodium berghei and Plasmodium yoelii. These results point towards Plasmodium Pf9 as a conserved novel protective protein, sharing an epitope with Paramecium surface antigens.     

Immunization of owl monkeys with a recombinant protein containing repeated epitopes of a Plasmodium falciparum glycophorin-binding protein.

A Plasmodium falciparum glycophorin binding protein (GBP-130) has been implicated in protective immunity to malaria. The gene for GBP-130 encodes a protein containing 11 tandemly repetitive 50 amino acid units. We report an immunization trial in Aotus monkeys using a recombinant DNA protein containing three of these 50 amino acid repeats. When administered with aluminum hydroxide, this antigen induced low levels of antibodies that reacted with the recombinant protein by ELISA and with parasite antigens in immunoblot and immunofluorescence assays, but not by immunoprecipitation. When administered with Freund's complete adjuvant, this antigen induced high levels of antibodies that reacted in ELISA, immunoblot, immunofluorescence, and immunoprecipitation assays. Serum from immunized monkeys did not inhibit parasite growth, and protection from intravenous challenge with P. falciparum-infected erythrocytes was not observed in any experimental group. These results suggest that the repetitive region of GBP-130 is not a useful vaccine candidate.     

A blood stage antigen of Plasmodium falciparum shares determinants with the sporozoite coat protein.

A cDNA clone expressing a Plasmodium falciparum blood-stage antigen in Escherichia coli was identified by colony immunoassay using immune human sera. Antibodies affinity-purified on extracts of this clone reacted with both asexual blood stages and sporozoites of P. falciparum, recognizing a Mr23,000 protein in the blood stages. The nucleotide sequence of the cDNA revealed a signal peptide and an internal hydrophobic sequence typical of transmembrane anchor sequences. Located 3' to the putative anchor are two tetramers, Asn-Ala-Asn-Pro and Asn-Ala-Asp-Pro, which are closely related to the repeats of the circumsporozoite protein of P. falciparum. The blood stage protein is conserved amongst several isolates of P. falciparum, and antibodies against it are common in the sera of individuals living in the area where the parasite is endemic.     

Identification of karyopherin beta as an immunogenic antigen of the malaria parasite using immune mice and human sera

A differential immunoscreening of the lambdagt11 Plasmodium falciparum genomic expression library was carried out using anti-P. yoelii sera (convalescent-phase mouse sera) and immune sera collected from healthy adults, to identify novel cross-reactive and possibly protective antigens of the parasite. One clone, with an insert size of 1132 bp that reacted strongly with both the sera was selected. The insert was found to be a part of the P. falciparum karyopherin beta (PfKbeta) homologue. RT-PCR and Northern blot analysis confirmed the expression of PfKbeta in the blood stages of the parasite. The approximately 110 kDa protein was localized in the cytoplasm at the ring and trophozoite, and in the parasitophorous vacuole at the schizont stage. Two large fragments of PfKbeta representing the N- and C-terminal halves were expressed in E. coli. The recombinant proteins were highly immunogenic in mice, and also found to be the target for immune response in natural infections of Plasmodium spp. Anti-sera against the protein showed a low level of anti-parasitic activity. Immunization with recombinant PfKbeta fragments was only partially protective against a heterologous challenge infection in mice. Our results show that the parasite releases a highly immunogenic, cytoplasmic protein into the host which may not contribute to the development of protective immunity.     

Characterization of a Plasmodium falciparum epitope recognized by a monoclonal antibody with broad isolate and species specificity.

Monoclonal antibody (MAb) 7H8 raised against Plasmodium yoelii reacted with a series of proteins from P. falciparum that range in molecular weight from 46 to 194 kDa. By immunofluorescence assay, this MAb reacted with all isolates of P. falciparum tested. MAb 7H8 was used to screen a genomic expression library of asexual blood stage antigens of P. falciparum, Malayan Camp K+ and 7 independent clones were identified. These 7 clones were sequenced and the epitope recognized by MAb 7H8 in the recombinant protein of one of these clones was mapped. This epitope contained Lys Tyr Pro as core amino acids. However, similar sequences were not found in the other clones, indicating that this MAb binds to a structural epitope formed by different amino acids. The variable composition of the epitope may account for the number of P. falciparum malarial proteins recognized by MAb 7H8.     

Immunization against malaria with antigen from Plasmodium falciparum cultivated in vitro.

Aotus monkeys, which are generally killed when infected with the human malaria parasite Plasmodium falciparum, have been identified and grouped by karyotype. These animals were immunized with parasite material obtained from P. falciparum cultivated in vitro which had been maintained in culture for over a year. When sufficient amounts of this antigenic material were used with a synthetic muramyl dipeptide (MDP), protective immunity was induced without presenting the antigen in complete Freund's adjuvant.     

How specific is the immune response to malaria in adults living in endemic areas?

It is documented that people living in malaria endemic areas acquire immunity against malaria after repeated infections. Studies involving passive transfer of IgG from immune adults to the nonimmune subjects have shown that circulating antibodies play an important role, and that immune adults possess protective antibodies, which susceptible malaria patients do not. Through a differential immunoscreen, we have identified several novel cDNA clones, which react exclusively and yet extensively with immune sera samples. Specific antisera raised against the immunoclones inhibit the growth of parasites in culture. The clones studied so far turn out to be novel conserved Plasmodium genes. In order to study the response of sera of adults from malaria endemic areas of India and Africa to these immunogens, we carried out ELISA assays using these immunopeptides, other P. falciparum specific antigens, peptides, antigens from other infections such as mycobacterial infections and other proteins such as BSA. Children from the same areas and normal healthy urban people showed very little activity to each of these categories. A large percentage of adults from endemic areas responded positively to all the malarial immunogens tested. However, the same persons also showed high response to other antigens and proteins as well. The implications of these results are reported in this paper.     

Protective immunity to malaria: studies with cloned lines of Plasmodium chabaudi and P. berghei in CBA/Ca mice. I. The effectiveness and inter-and intra-species specificity of immunity induced by infection

CBA/Ca mice were immunized by infection with cloned lines of Plasmodium berghei (isolates ANKA, KSP-11). Plasmodium chabaudi chabaudi (AS, CB) or Plasmodium chabaudi adami (DS) and then challenged with either homologous or heterologous parasites. Protective responses were assessed in immune mice relative to the controls by their ability to (i) extend the time taken for the mean parasitaemia to reach a predetermined level (1% or 0.1%) (ii) reduce peak parasitaemia (iii) resolve the parasitaemia sooner and/or (iv) control or eliminate recrudescences. At both the inter- and intra-species level, immunity appeared largely specific for the cloned line inducing it. At the interspecies level marginally effective cross-immunity was sometimes evident, thus P. berghei KSP-11 immune mice displayed some immunity against P.c. chabaudi AS, although immunity to this parasite was relatively ineffective against P. berghei ANKA or KSP-11. Cross-immunity was more apparent between the subspecies P.c. adami and P.c. chabaudi and between cloned lines of the latter parasite derived from the AS and CB isolates. These data reflect considerable inter- and intra-species structural and immunogenic differences in certain antigens of parasitized erythrocytes and merozoites, which have been identified in a number of murine malarias and associated with protective immunity. Similar differences recently identified in the equivalent antigens of the human parasite P. falciparum may therefore have important implications for protective immunity in man.     

保护性免疫血清及单克隆抗体筛选日本血吸虫成虫cDNA文库

目的　为寻找有效的抗日本血吸虫感染疫苗候选抗原分子。方法　用紫外线照射致弱尾蚴免疫兔血清筛选日本血吸虫成虫cDNA文库 ,再用同法免疫鼠脾细胞制备的单克隆抗体对所获阳性克隆进行再筛选 ,并对免疫筛选的阳性克隆的cDNA插入片段进行PCR扩增。结果　兔免疫血清确定 12个阳性克隆 ,其中 6个克隆与 2株以上的单抗呈阳性反应 :PCR扩增cDNA插入片段大小约 40 0bp～ 1 4kb左右。结论　已筛选到与致弱尾蚴免疫兔血清及同法免疫制备单抗产生特异反应的阳性克隆 ,获得一批编码可能具有保护性作用的日本血吸虫抗原的基因片段。     

Identification and expression in Escherichia coli of merozoite stage-specific genes of the human malarial parasite Plasmodium falciparum.

The key steps in the development of a malaria vaccine through gene cloning are the identification of the proteins involved in host protective immunity and the cloning, identification, and expression of the genes coding for these proteins. Recent data have indicated that certain proteins synthesized at the late schizont-merozoite stage of Plasmodium falciparum play a major role in malaria immunity. This paper reports the identification, in a cDNA library, of recombinant clones corresponding to genes expressed specifically during the late schizont-merozoite stage of P. falciparum development. The 132 cDNA clones thus identified out of 10,000 were found to correspond to only 12 different genes, probably representing most of the major schizont-merozoite specific genes. The stage-specific cDNAs can be efficiently expressed in Escherichia coli cells. The protein products of some of these clones are recognized by monoclonal antibodies specific for late schizont-merozoite proteins. We conclude that only a small set of genes is specifically induced in the schizont-merozoite stage and that the stage-specific cDNA clones we have isolated are very likely to include the genes coding for the immunologically relevant proteins of P. falciparum.     

Epitope specificity and capacity to inhibit parasite growth in vitro of human antibodies to repeat sequences of the Plasmodium falciparum antigen Ag332

It has earlier been shown that the Plasmodium falciparum-reactive human monoclonal antibody 33G2 inhibits parasite growth in vitro as well as cytoadherence of infected red blood cells to melanoma cells in vitro. MoAb 33G2 recognizes an epitope of the P. falciparum antigen Ag332 and cross-reactive determinants in Pf 155/RESA and Pf 11.1 located in repetitive regions containing sequences of regularly spaced pairs of glutamic acid. To study whether antibodies of this specificity frequently occur in human immune sera and if they could be of importance for protective immunity, antibodies were affinity purified on MoAb 33G2 reactive Ag332 peptides. The epitope specificity of the affinity purified antibodies, determined by the Pepscan method, resembled that of MoAb 33G2, but showed differences in fine specificity. The antibodies cross-reacted to some extent with Pf 11.1 and Pf 155/RESA repeat peptides as detected by peptide ELISA and Pepscan. In indirect immunofluorescence all purified antibodies displayed a dotted pattern of staining of late stage infected red blood cells of two lines of the P. falciparum strain FCR3, including a Pf 155/RESA deficient line. The in vitro growth of these two lines was efficiently inhibited by the affinity purified antibodies, indicating that their inhibitory effect was mainly due to reactivity with antigens other than Pf 155/RESA. This, and the fact that Pf 11.1 has been shown not to be expressed by the asexual stages suggests that Ag332 may be an important target for potentially protective antibodies in vivo and that Ag332 based immunogens are of interest for development of malaria subunit vaccines.     

恶性疟原虫FCC1／HN株185 kDa和8241kDa保护性抗原的超微结构定位

用LR White树脂低温包埋感染人恶性疟原虫FCC1／HN株的红细胞，用保护性单克隆抗体F6－D3和F6－C2并结合蛋白A－胶体金探针免疫标记恶性疟原虫红内期185kDa和82／41kDa蛋白。结果表明单克隆抗体F6－D3识别的185kDa蛋白定位于游离的和细胞内的裂殖子表面以及未成熟裂殖体的细胞质、质膜及带虫泡膜。而单克隆抗体F6－C2识别的81／41kDa蛋白则定位于未成熟裂殖体及成熟殖子的棒状体中。从超微结构上表明185kDa和82／41kDa保护性抗原分别为恶性疟原虫FCC1／HN株的裂殖子表面抗原和裂殖子棒状体抗原。     

Ultrastructural localization of protective antigens of Plasmodium yoelii merozoites by the use of monoclonal antibodies and ultrathin cryomicrotomy

The production of two hybridoma cell lines secreting monoclonal antibodies (MAb), both of which react specifically with erythrocytic merozoites of Plasmodium yoelii in the indirect immunofluorescence assay, has been reported earlier. MAb 25.77 was reactive with a localized region within each merozoite, while MAb 25.1 appeared to be specific for the plasma membrane of schizonts and merozoites. The parasite antigens recognized by antibodies 25.77 and 25.1 are proteins of 235,000 and 230,000 molecular weight, respectively, both of which induce protective immunity against P. yoelii in mice. In order to establish the precise localization of these protective antigens within erythrocyte merozoites, ultrathin cryomicrotomy was used in conjunction with the MAb and protein A-gold. This technique showed that gold particles were exclusively concentrated over the rhoptries when erythrocytic merozoites were incubated with MAb 25.77. On the other hand, gold particles were distributed uniformly over the merozoite surface when parasites were incubated with MAb 25.1. These results demonstrate, for the first time, that a protective antigen of the erythrocytic stage of P. yoelii is localized within the rhoptries as well as on the merozoite surface.     

Protective antibodies against erythrocytic stages of Plasmodium falciparum in experimental infection of the squirrel monkey, Saimiri sciureus

Serum and ascitic fluid from squirrel monkeys ( Saimiri sciureus ) inoculated with erythrocytic stages of Plasmodium falciparum were collected at different periods of the infection. Protection against P. falciparum was achieved by passive transfer of the sera or fluid recovered from animals after spontaneous or drug-induced cure. Purified immunoglobulins from the ascitic fluid also conferred protection. In contrast, protective antibodies directed against erythrocytic stages of P. falciparum could never be demonstrated during the acute phase of infection in spite of the high titres of malarial antibodies detected by immunofluorescence. The comparative immunochemical analysis of antigens recognized by protective and non-protective antibodies revealed quantitative differences which may be of use for the identification of antigens inducing protection.     

抗恶性疟重组复合抗原的免疫血清对恶性疟原虫体外生长的抑制作用

本文初步观察了兔抗两种重组恶性疟复合抗原（C和CAC）的免疫血清对恶性疟原虫的体外抑制作用。实验结果显示：抗C和抗CAC两种免疫血清对疟原虫体外生长均有明显抑制作用，但抗CAC血清的抑制效果更明显（P＜0．05）。抑制程度随培养物中免疫血清浓度的增高及作用时间的延长而增强，其中抗CAC免疫血清在1％、10％和20％浓度时对疟原虫第2增殖周期（72h）的抑制率分别可达15％、54％和82％。免疫血清作用后较多原虫呈现发育不良及裂殖子凝集和成熟原虫退变现象，提示可能与复合抗原中的多个保护性抗原位点所产生的多功能抗体有关。     

Molecular cloning of Plasmodium falciparum blood stage antigens and application of the recombinant proteins in serodiagnosis.

A Plasmodium falciparum genomic DNA library was established in the expression vector lambda gt11, cloned in Escherichia coli. The library was screened with human hyperimmune sera by in situ hybridization. Twenty clones expressing P. falciparum sequences as polypeptides fused to beta-galactosidase were identified. One, CD3A/9025/60, reacted with all immune sera and expressed polypeptides that were larger than beta-galactosidase as well as reacting with antibodies to beta-galactosidase and to P. falciparum. When the fusion proteins were used as target antigens to diagnose malaria antibodies, a result was obtained which correlated well with indirect fluorescence assay.