Characterization of immunoreactive proteins of Setaria cervi isolated by preparative polyacrylamide gel electrophoresis

Filarial parasites are complex mixtures of antigenic proteins and characterization of these antigenic molecules is essential to identify the diagnostically important filaria-specific antigens. In the present study, we have fractionated the somatic extracts from adults of Setaria cervi (bovine filarial parasite) on preparative SDS-polyacrylamide gel electrophoresis and tested the immunoreactivity of the separated gel fractions with polyclonal antibodies against filarial excretory-secretory antigens as well as filarial patients sera. The SDS-PAGE analysis of gel eluted fractions revealed 1 protein band in F-1 fraction, 2 protein bands in F-2 fraction and 2-3 protein bands in all other fractions (F3- F11). Seven gel eluted fractions (F1, F2, F3, F4, F5, F6 and F11) showed high ELISA reactivity with the polyclonal antibody (against excretory-secretory antigen) and four of these fractions (F-1, F-2, F3 and F6) exhibited high ELISA reactivity with antibodies present in filarial patient sera. The reactivities of the gel fractions (F1 and F2), recognized by filarial patients sera, were also tested with the monoclonal antibody (detecting the filarial circulating antigen). The F1 and F2 gel eluted fractions were found to have the target antigen of monoclonal antibody as evident by high reactivity with the monoclonal antibody in ELISA and immunoblotting. The S. cervi gel eluted F1 fraction (containing single antigen) could detect antibodies in filarial patients sera and not in non-filarial sera thereby suggesting its usefulness for specific serodiagnosis of human filariasis.

Immunogenicity of a plasmid DNA vaccine encoding 42kDa fragment of Plasmodium vivax merozoite surface protein-1

Plasmodium vivax is the second major human malaria parasite that inflicts debilitating morbidity and consequent economic impact in South-East Asian countries. The relapsing nature of P. vivax along with the emergence of drug-resistant P. vivax strains has emphasized the urgent need for a vaccine. However, the development of an effective vivax vaccine is seriously hampered due to the diversity and variation in parasite antigens and non-availability of suitable animal models. DNA based vaccines represent an alternative approach in inducing immunity to multiple targets from different stages of malaria parasite. DNA prime-boosting strategies induce both antibody mediated and cell-mediated immune responses that are the major mechanisms of protection against malaria parasites. We have earlier studied the immunogenicity and protective efficacy of the soluble and refolded forms of recombinant 42kDa fragment of Plasmodium vivax merozoite surface protein-1 (PvMSP-142) using P. cynomolgi rhesus monkey model. In the present study, we have constructed a recombinant DNA vaccine encoding 42kDa fragment of P. vivax MSP-1 and studied the immunogenicity of PvMSP-142 DNA vaccine construct in mice. The 42kDa gene fragment of PvMSP-1 was PCR amplified using gene specific primers and subcloned into pcDNA 3.1 (+) eukaryotic expression vector. In vitro expression of PvMSP-142 plasmid construct was checked by transfection in COS-1 cell line. Indirect immunofluorescence of transfected COS-1 cells probed with monoclonal antibodies against PvMSP-142 exhibited positive fluorescence. Immunization of BALB/c mice with PvMSP-142-pcDNA vaccine construct revealed the immunogenicity of recombinant vaccine plasmid that can be enhanced by prime boosting with recombinant protein corresponding to the DNA vaccine as evidenced by significant elevation of antibody and the cytokines responses.

Cloning, overexpression and characterization of soluble 42kDa fragment of merozoite surface protein-1 of Plasmodium vivax

Plasmodium vivax represents the second most prevalent malaria species of major public health importance and the global eradication of malaria requires the development of vaccines to prevent infection. The lack of in vitro culture and a suitable animal model for P. vivax malaria are the major problems for the delay in developing a functional vivax vaccine. A number of antigens have been identified for P. vivax as potential malaria vaccine candidates and among these 42kDa fragment of merozoite surface protein-1 (MSP-142) is one of most promising antigen of asexual blood stage. In most of the earlier studies, the MSP-142 of malaria parasites was expressed as insoluble protein in inclusion bodies and it is difficult to get purified protein in conformation form. In the present study, we have cloned, overexpressed and characterized the 42kDa fragment of P. vivax MSP-1 as soluble protein in Escherichiacoli. The 42kDa gene fragment of P. vivax MSP-1 was PCR amplified using specific primers, sequenced and subcloned into pTriEx-4 expression vector. The optimum expression of recombinant P. vivax protein was obtained in SOC growth medium by inducing with 0.2mM IPTG at 37°C for 4h. The SDS-PAGE analysis showed a fusion protein of 55kDa and about 80% was present in soluble form. The purified P. vivax MSP-142 was characterized and found to be correctly folded and in conformation form as evident by CD spectroscopy, presence of 1 free -SH group and the reactivity with reduction sensitive conformational monoclonals against P. vivax MSP-142.

Cloning, overexpression, purification and characterization of Plasmodium knowlesi lactate dehydrogenase

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.

Biochemical and immunological characterization of E. coli expressed 42 kDa fragment of Plasmodium vivax and P. cynomolgi bastianelli merozoite surface protein-1

Plasmodium vivax is one of the most widely distributed human malaria parasites and due to drug-resistant strains, its incidence and prevalence has increased, thus an effective vaccine against the parasites is urgently needed. One of the major constraints in developing P. vivax vaccine is the lack of suitable in vivo models for testing the protective efficacy of the vaccine. P. vivax and P. cynomolgi bastianelli are the two closely related malaria parasites and share a similar clinical course of infection in their respective hosts. The merozoite surface protein-1 (MSP-1) of these parasites has found to be protective in a wide range of host-parasite systems. P. vivax MSP-1 is synthesized as 200 kDa polypeptide and processed just prior to merozoite release from the erythrocytes into smaller fragments. The C- terminal 42 kDa cleavage product of MSP-1 (MSP-1(42)) is present on the surface of merozoites and a major candidate for blood stage malaria vaccine. In the present study, we have biochemically and immunologically characterized the soluble and refolded 42 kDa fragment of MSP-1 of P. vivax (PvMSP-1(42)) and P. cynomolgi B (PcMSP-1(42)). SDS-PAGE analysis showed that both soluble and refolded E. coli expressed P. vivax and P. cynomolgi B MSP-1(42) proteins were homogenous in nature. The soluble and refolded MSP-1(42) antigens of both parasites showed high reactivity with protective monkey sera and conformation-specific monoclonal antibodies against P. cynomolgi B and P. vivax MSP-1(42) antigens. Immunization of BALB/c mice with these antigens resulted in the production of high titres of cross-reactive antibodies primarily against the conformational epitopes of MSP-1(42) protein. The immune sera from rhesus monkeys. immunized with soluble and refolded MSP-1(42) antigens of both parasites also showed high titered cross-reactive antibodies against MSP-1(42) conformational epitopes. These results suggested that the soluble and refolded forms of E. coli expressed P. vivax MSP-1(42) antigens were highly immunogenic and thus a viable candidate for vaccine studies.

Partial purification and characterization of acetylcholinesterase isozymes from adult bovine filarial parasite Setaria cervi

Filariasis is a major health problem, affecting millions of people in tropical and sub-tropical regions of the world. The isolation and characterization of parasite-specific enzyme targets is essential for developing effective control measures against filariasis. Acetylcholinesterase (AchE, E.C. 3.1.1.7), an important enzyme of neuromuscular transmission is found in a number of helminths including filarial parasites and may be playing a role in host-parasite interactions. Earlier, we demonstrated the presence of two isozymes of AchE, different from the host enzyme in the human (Brugia malayi) and bovine (Setaria cervi) filarial parasites. In the present study, two isozymes of AchE (pAchE1 and pAchE2) were isolated from S. cervi adults and characterized biochemically and immunochemically. The AchE was partially purified on Con-A Sepharose column and then subjected to preparative polyacrylamide gel electrophoresis (PAGE) for separation of the isozymes. The AchE activity was localized by the staining of gel and the isozymes were isolated from the PAGE strips by electroelution. Both isozymes preferentially utilized acetylcholine iodide as substrate and were strongly inhibited by the true AchE inhibitor (BW284c51), suggesting that they were true AchE. The polyclonal antibodies produced against the isozymes showed significant cross-reactivity with B. malayi AchE, but not against the host enzyme. These findings suggested that both the isozymes were biochemically (in terms of their substrate specificity and inhibitor sensitivity) and immunochemically similar, but different from the host enzyme.

Merozoite surface protein 1 of Plasmodium vivax induces a protective response against Plasmodium cynomolgi challenge in rhesus monkeys

The 42-kDa fragment of the merozoite surface protein 1 (MSP-1(42)) is a leading candidate for the development of a vaccine to control malaria. We previously reported a method for the production of Plasmodium vivax MSP-1(42) (PvMSP-1(42)) as a soluble protein (S. Dutta, L. W. Ware, A. Barbosa, C. F. Ockenhouse, and D. E. Lanar, Infect. Immun. 69:5464-5470, 2001). We report here a process to manufacture the same PvMSP-1(42) protein but as an insoluble inclusion body-derived protein which was then refolded in vitro. We compared the immunogenicity and protective efficacy of the soluble and refolded forms of PvMSP-1(42) protein by using a heterologous but closely related P. cynomolgi-rhesus monkey challenge model. As comparative controls we also expressed, purified, and immunized rhesus with the soluble and refolded forms of the P. cynomolgi MSP-1(42) (PcMSP-1(42)) proteins. All proteins induced equally high-titer, cross-reacting antibodies. Upon challenge with P. cynomolgi, none of the MSP-1(42)-vaccinated groups demonstrated sterile protection or a delay in the prepatent period. However, following an initial rise in parasitemia, all MSP-1-vaccinated animals had significantly lower parasite burdens as indicated by lower cumulative parasitemia, lower peak parasitemia, lower secondary peak parasitemia, and lower average daily parasitemia compared to the adjuvant control group (P < 0.05). Except the soluble PcMSP-1(42) group, monkeys in all other groups had fewer numbers of days with parasitemia of >10,000 parasites mm(-3). Interestingly, there was no significant difference in the level of partial protection observed in the homologous and heterologous groups in this challenge model. The soluble and refolded forms of PcMSP-1(42) and PvMSP-1(42) proteins also appeared to have a similar partially protective effect.

Diagnosis of malaria by detection of plasmodial lactate dehydrogenase with an immunodot enzyme assay

We have previously demonstrated, using polyclonal and monoclonal antibodies, that the lactate dehydrogenase (LDH) of malaria parasites is immunologically distinct from the host enzyme. The polyclonal antibodies, produced against the affinity purified plasmodial LDH (pLDH) in rabbits, showed specificity to LDH of malaria parasites. In the present study, these anti-pLDH polyclonal antibodies were used to develop an immunodiagnostic test (immunodot enzyme assay of plasmodial LDH) based on the detection of parasite LDH in patient blood. The immunodot enzyme assay of plasmodial LDH was evaluated using blood samples from patients with malaria or other infections. Out of 502 microscopically positive malaria blood samples, 497 blood samples showed positive immunodot assays of pLDH while all the 423 microscopically negative cases were found negative by our test. The blood samples from other infections and non-endemic controls were negative by the immunodot enzyme assay of pLDH. This LDH based test was also found negative in blood samples of cured patients 7 days after chloroquine treatment. The test is simple to perform, can be read visually, econimal, highly specific with a sensitivity of approximately 99% and is thus suitable for accurate diagnosis of malaria in field conditions.

Analysis and potential of excretory-secretory antigens of Setaria cervi for immunodiagnosis of human filariasis

The excretory-secretory (E-LS) products released by the adult Setaria cervi, a bovine filarial parasite, were used to raise polyvalent hyperimmune serum in rabbits. Analysis of E-S products, using anti-E-S serum showed the presence of 10-14 immunogenic proteins, the rabbit anti-E-S serum showed reciprocal antibody titres in the range of 100,000-250,000 by enzyme linked immunosorbent assay. The anti-E-S antibodies could detect circulating antigen in filarial patients sera by Counter immunoelectrophoresis.

Monoclonal antibodies against lactate dehydrogenase of Plasmodium knowlesi

Lactate dehydrogenase (LDH) of malarial parasites has been demonstrated to be biochemically and immunochemically distinct from the equivalent host enzyme. The polyclonal antibodies raised against the purified plasmodial LDH showed specificity to Plasmodium spp. Six hybridoma cell lines secreting monoclonal antibodies specific to Plasmodium knowlesi LDH have been obtained. The two monoclonal antibodies (2A3B7 and 4A6A7) showed high reactivity with LDH from simian (P. knowlesi. P. cynomolgi), human (P. falciparum, P. vivax) and rodent (P. berghei, P. yoelii) malarial parasites and did not cross-react with red cell LDH as well as with isoenzymic forms of mammalian LDH (A4, B4 and C4). One monoclonal antibody (4A6A7) strongly inhibited the enzyme activity specifically of plasmodial LDH and did not have any effect on the activity of red cell LDH. The other monoclonal (2A3B7) did not show inhibitory effect on parasite LDH. These findings as well as competitive immunoassay studies suggest the presence of at least two parasite specific epitopes on plasmodial LDH.

Monoclonal antibodies against antigenic epitopes common between Setaria cervi and Brugia malayi

Several common antigens between the bovine (Setaria cervi) and human (Brugia malayi) filarial parasites have been demonstrated [Immunol Investig, 16 (1987) 139]. Hybridoma cell lines producing monoclonal antibodies against such common antigenic epitopes were obtained by immunizing the BALB/c mice with S. cervi antigen, fusing the spleen cells with Sp2/0 myeloma cells and screening the culture supernatants for antibody against both S. cervi and B. malayi antigens by ELISA. Nine monoclonal antibodies directed against antigenic epitopes common between the bovine and human filarial parasites were identified. Two monoclonal antibodies (I3B4 and I5D6) showed reactivity with the antigen(s) present in filariasis patients serum and thus may have potential for detecting circulating antigen in filaria infected individuals.

Enzymes of PEP-succinate pathway in Setaria cervi and effect of anthelmintic drugs

Localization of different enzymes of PEP-succinate pathway has been done in Setaria cervi, a bovine filarial worm. Succinate dehydrogenase and fumarate reductase were localized in mitochondria rich particulate fraction while all other enzymes were cytosolic. The in vitro effect of certain antifilarial/anthelmintic agents on these enzymes was also investigated. Sumarmin, at low concentration, could cause a marked inhibition of most of the enzymes of this pathway. Centperazine, an antifilarial drug being developed by CDRI showed significant inhibitory action on pyruvate kinase, lactate dehydrogenase, fumarase and succinate dehydrogenase while CDRI compound 72/70 showed significant inhibition of PEP-carboxykinase activity. Diethylcarbamazine and levamisole, however, were found to be more or less ineffective at lower concentrations against all the enzymes of this pathway.

Comparative analysis of surface components of adult, micro-filariae and infective larvae of Brugia malayi

A comparative analysis of surface proteins of adult, microfilariae and infective larvae of Brugia malayi, the human filarial parasite, has been carried out using IODOGEN (1,3,4,6-tetrachloro-3,alpha 6 alpha-diphenyl-glycoluril) and lactoperoxidase methods. SDS-polyacrylamide gel electrophoretic and autoradiographic analyses revealed the presence of 9 proteins (15-200 kDa) in adults, while microfilariae and infective larvae showed 8 and 6 proteins (15-120 kDa), respectively. The pattern of proteins radiolabelled by IODOGEN method was very similar to that of proteins labelled by the lactoperoxidase method. Since these proteins are released by the protease treatment of whole parasites, they are likely to be present on the surface of the parasite.

Antibodies to lactate dehydrogenase of Plasmodium knowlesi are specific to Plasmodium species

Polyclonal immune monkey serum raised against schizonts of Plasmodium knowlesi (H-strain) showed the presence of antibodies to lactate dehydrogenase (LDH) of P. knowlesi by immunodot enzyme staining method. The anti-LDH antibodies are most probably directed towards an epitope distinct from the catalytic site as shown by the specific enzyme staining of LDH after binding with antibody on nitrocellulose paper. These antibodies showed reactivity with LDH from different strains (H, P and W1 strains of P. knowlesi) and species (P. cynomolgi B, P. berghei, P. yoelii, P. falciparum and P. vivax) of malarial parasites but did not cross-react with three isoenzymic forms of mammalian LDH (A4, B4 and C4) as well as with LDH from some protozoan and helminth parasites. These findings suggest that the anti-LDH antibodies have defined specificity to Plasmodium spp.

Ancylostoma ceylanicum: I. Protein and antigenic composition of adult and larval stages

The protein and antigenic composition of adult and larval stages of Ancylostoma ceylanicum, a human hookworm maintained in golden hamsters (Mesocricetus auratus), was studied employing immunochemical techniques. SDS-polyacrylamide gel electrophoresis revealed the presence of 47 and 43 protein bands in adult worms and infective larvae respectively in the molecular weight range of 10-170 kD. Crossed immunoelectrophoretic analysis, using immune rabbit sera, showed the presence of 32 antigenic peaks in adults and 19 in infective larval stage. Most of the antigens were common between adult and larval stage as evidenced by cross-line immunoelectrophoresis, although some stage specific antigens were also identified. These studies also demonstrate the complex nature of adult worms as compared to larvae.

Antigenic characterization of excretory-secretory products of Setaria cervi

Excretory-secretory products (ES) of Setaria cervi, a bovine filarial parasite, were prepared by in vitro maintenance of the worms in a protein free defined medium at 37 degrees C. RPMI-1640 medium proved to be the best as the worms remained motile in it for the maximum period of time without change of medium, and approximately 12-15 mg protein per 100 adult worms could be obtained. Crossed immunoelectrophoretic analysis of ES products revealed 11-15 antigens and most of them were common to somatic antigenic preparations from both adult worms and microfilariae. The ES products were also found to contain 3-4 host proteins, including serum albumin.

Identification of antigenic proteins of setaria cervi by immunoblotting technique

Identification and characterization of antigenic proteins of Setaria cervi (bovine filarial parasite) adults and microfilariae was done by immunoblotting technique using hyperimmune rabbit sera against S. cervi and Brugia malayi. The antigens recognized by these sera were detected by using 125I protein-A followed by autoradiography. Fifteen different antigens were observed to be common between adult and microfilarial stages of the parasite. Some stage specific antigens were also identified. Many antigens of S. cervi adults and microfilariae were also recognized by rabbit anti-B.malayi serum showing the existence of common antigenic determinants between the bovine and human filarial parasites.

Protein and antigenic composition of adult and microfilarial stages of Setaria cervi

The protein and antigenic pattern of adult (female/male) and microfilarial stages of Setaria cervi, a bovine filarial parasite, was studied using certain immunochemical techniques. SDS-polyacrylamide gel electrophoretic analysis showed the presence of 35-40 protein bands in adults and 25-29 protein bands in microfilariae in molecular weight range of 10,000-200,000. Immunoelectrophoresis revealed the presence of 9-10 precipitin lines in adult and only 4 precipitin lines in microfilarial antigenic preparations. Crossed immunoelectrophoresis resolved these antigenic preparations further, and revealed the presence of 22-24 antigens in adults and 12-14 in microfilariae. These results demonstrate complex nature of somatic extracts of adult stage as compared to microfilariae and also reveal some qualitative and quantitative differences between these stages.

Comparison of immunoblot and immunoprecipitation methods for analyzing cross-reactive antibodies to filarial antigens

Qualitative analysis of antibody responses in helminth infections is essential not only for developing better immunodiagnostic antigens but also for understanding immune recognition and its relevance to immunopathogenesis and protective immunity. In this study 2 qualitative analytic methods (immunoprecipitation and immunoblotting) were compared for the ability to define the extent of cross-reactivity in the serum antibodies from patients with various forms of filariasis (caused by Brugia malayi, Wuchereria bancrofti, Loa loa and Tetrapetalonema perstans) or other non filarial helminth infections (ascariasis, strongyloidiasis, trichinosis, echinococcosis and schistosomiasis). Our results demonstrated that the spectrum of cross-reactive antibodies identified by immunoprecipitation was limited because of the selective radiolabeling of particular filarial antigens, while immunoblotting was able to detect a much wider range of cross-reactive antibodies in both filarial and non-filarial serum pools. In addition, this latter procedure was easily adapted for simultaneous analysis of different antibody isotopes (e.g., IgE and IgG) to the same antigens in individual sera. Immunoblotting thus provides an excellent tool for studying the spectrum of antibodies of different isotypes evoked during helminth infections and for discriminating between those responses that are species-specific and those that are cross-reactive.

Brugia malayi: Stage-specific expression of carbohydrates containing N-acetyl-d-glucosamine on the sheathed surfaces of microfilariae

Microfilariae, infective larvae, and adult worms of Brugia malayi were incubated with a panel of seven lectins in order to study the expression of surface carbohydrates. Infective larvae and adult worms did not bind any of the lectins utilized. Microfilariae, on the other hand, bound wheat germ agglutinin. The binding of this lectin was saturable and specific, and attributed to the presence of N-acetyl-D-glucosamine. In addition, microfilariae derived in vitro bound concanavalin A, indicating the presence of glucose and/or mannose on this stage of the parasite. The fact that similar concanavalin A binding was not seen on microfilariae recovered directly from the infected host implies that there is masking or loss of parasite surface antigens as microfilariae mature in vivo.

Excretory-secretory and somatic antigens in the diagnosis of human filariasis

In order to compare the immunodiagnostic value of excretory-secretory (E-S) antigens derived from adult Brugia malayi worms with somatic antigens derived from adults, microfilariae (Mf) and infective larvae (L3) of these parasites, well defined serum pools from patients with filarial (brugia, bancrofti, loa and perstans) and non-filarial (ascaris, stronglyoides, toxocara, echinococcus, cysticercus and schistosoma) helminth infections were tested against antigens derived from these different life cycle stages of B. malayi in a Staphylococcus aureus radioimmunoprecipitation assay (S. aureus RIA). The adult brugia antigens proved significantly more discriminatory than those of the other parasite stages, with the homologous brugia serum pool also showing greater reactivity to adult than to L3 and Mf antigens. Similar results were obtained when individual sera from patients (rather than serum pools) were tested in the same assay. The most surprising finding was the minimal reactivity seen between the adult filarial antigens and the non-filarial serum pools despite the presence in these pools of strong antibody reactivity with their homologous antigens. The reasons underlying the unexpected specificity of this S. aureus RIA for discriminating among sera from filarial and non-filarial infections were analysed qualitatively by immunoprecipitation techniques. It was found that use of the chloramine-T method for radioiodination resulted in preferential labelling of the low molecular weight (mol. wt) proteins (10-70,000 daltons) in the B. malayi adult somatic antigen and that these antigens were bound primarily by the filarial and not the non-filarial serum pools. These findings suggest that lower mol. wt helminth antigens may show greater species specificity than those with higher mol. wt, and those with higher mol. wt, greater cross-reactivity. If substantiated by further analysis, such results would have important implications for the subsequent isolation of diagnostically important filarial parasite antigens.

Identification and characterization of excretory-secretory products of Brugia malayi, adult filarial parasites

Although E-S antigens may be particularly important for both the pathogenesis and immunodiagnosis of helminth infections, little is known about the immunochemistry or functional roles in human filarial infections. In the present paper, we have done some initial identification and characterization of E-S products of adult Brugia malayi by employing a combination of sensitive biochemical and immunochemical techniques. E-S products, collected by incubating B. malayi adults in vitro in a defined protein-free medium, were radiolabeled with 125I. SDS-polyacrylamide gel electrophoresis (PAGE) and autoradiography of labeled E-S products revealed 11 protein bands in the m.w. range of 10,000 to 70,000. Comparison of radiolabeled E-S products and adult somatic antigen (B.m.A) in SDS-PAGE indicated many common bands, and crossed immunoelectrophoresis and competitive Staph-A RIA confirmed the presence of most E-S antigens in B.m.A. Of the 11 E-S bands, two appeared to be derived from the surface of the adult worms and microfilariae as shown by SDS-PAGE and autoradiography of lodogen surface-labeled parasites; the presence of two host proteins in E-S was detected by crossed-line immunoelectrophoresis. The E-S antigens were highly immunogenic when tested both with rabbit antiserum raised against B.m.A and with a serum pool of patients with natural filarial infection.

Identification and characterization of excretory-secretory products of Brugia malayi, adult filarial parasites

Although E-S antigens may be particularly important for both the pathogenesis and immunodiagnosis of helminth infections, little is known about the immunochemistry or functional roles in human filarial infections. In the present paper, we have done some initial identification and characterization of E-S products of adult Brugia malayi by employing a combination of sensitive biochemical and immunochemical techniques. E-S products, collected by incubating B. malayi adults in vitro in a defined protein-free medium, were radiolabeled with 125I. SDS-polyacrylamide gel electrophoresis (PAGE) and autoradiography of labeled E-S products revealed 11 protein bands in the m.w. range of 10,000 to 70,000. Comparison of radiolabeled E-S products and adult somatic antigen (B.m.A) in SDS-PAGE indicated many common bands, and crossed immunoelectrophoresis and competitive Staph-A RIA confirmed the presence of most E-S antigens in B.m.A. Of the 11 E-S bands, two appeared to be derived from the surface of the adult worms and microfilariae as shown by SDS-PAGE and autoradiography of lodogen surface-labeled parasites; the presence of two host proteins in E-S was detected by crossed-line immunoelectrophoresis. The E-S antigens were highly immunogenic when tested both with rabbit antiserum raised against B.m.A and with a serum pool of patients with natural filarial infection.

Antigenic analysis of Giardia lamblia from Afghanistan, Puerto Rico, Ecuador, and Oregon

The trophozoite antigens of Giardia lamblia to which host humoral and cellular immune responses are directed have not been identified. Therefore, we initiated studies to characterize these antigens in strains of G. lamblia from Afghanistan, Oregon, Ecuador, and Puerto Rico. By polyacrylamide gel electrophoresis, the electrophoretic mobility patterns of proteins of the four strains were similar; molecular weights of protein bands ranged between 12,000 and 140,000. The antigens which reacted with rabbit and anti-G. lamblia antisera by immunoelectrophoresis were also similar for the four strains. However, comparison by crossed immunoelectrophoresis showed the Oregon strain, which has been the longest in culture, lacked a set of anodic antigens and the single neutral antigen which were present in the other three strains. In addition, other minor antigen differences between the strains were detected by this technique. When we employed trophozoites from each strain as antigen in an enzyme-linked immunosorbent assay against 10 human antisera of various liters, we also detected some differences between the strains. Although polyacrylamide gel electrophoresis and immunoelectrophoresis revealed gross similarity among G. lamblia from widely differing geographic locations, subtle differences detected by crossed electrophoresis and enzyme-linked immunosorbent assay suggest the existence of potentially important antigenic differences among these strains.