Preparation of mouse monoclonal antibodies and evidence for a host immune response to the preacetabular gland proteinase of Schistosoma mansoni cercariae

Identification of Myoferlin, a Potential Serodiagnostic Antigen of Clonorchiasis, via Immunoproteomic Analysis of Sera From Different Infection Periods and Excretory-Secretory Products of Clonorchis sinensis

Clonorchiasis, which is caused by Clonorchis sinensis, is an important foodborne disease worldwide. The excretory-secretory products (ESPs) of C. sinensis play important roles in host-parasite interactions by acting as causative agents. In the present study, the ESPs and sera positive for C. sinensis were collected to identify proteins specific to the sera of C. sinensis (i.e., proteins that do not cross-react with Fasciola hepatica and Schistosoma japonicum) at different infection periods. Briefly, white Japanese rabbits were artificially infected with C. sinensis, and their sera were collected at 7 days post-infection (dpi), 14 dpi, 35 dpi, and 77 dpi. To identify the specific proteins in C. sinensis, a co-immunoprecipitation (Co-IP) assay was conducted using shotgun liquid chromatography tandem-mass spectrometry (LC-MS/MS) to pull down the sera roots of C. sinensis, F. hepatica, and S. japonicum. For the annotated proteins, 32, 18, 39, and 35 proteins specific to C. sinensis were pulled down by the infected sera at 7, 14, 35, and 77 dpi, respectively. Three proteins, Dynein light chain-1, Dynein light chain-2 and Myoferlin were detected in all infection periods. Of these proteins, myoferlin is known to be overexpressed in several human cancers and could be a promising biomarker and therapeutic target for cancer cases. Accordingly, this protein was selected for further studies. To achieve a better expression, myoferlin was truncated into two parts, Myof1 and Myof2 (1,500 bp and 810 bp), based on the antigenic epitopes provided by bioinformatics. The estimated molecular weight of the recombinant proteins was 57.3 ku (Myof1) and 31.3 ku (Myof2). Further, both Myof1 and Myof2 could be probed by the sera from rabbits infected with C. sinensis. No cross-reaction occurred with the positive sera of S. japonica, F. hepatica, and negative controls. Such findings indicate that myoferlin may be an important diagnostic antigen present in the ESPs. Overall, the present study provides new insights into proteomic changes between ESPs and hosts in different infection periods by LC-MS/MS. Moreover, myoferlin, as a biomarker, may be used to develop an objective method for future diagnosis of clonorchiasis.

Adult 175 kDa collagenase antigen ofSetaria cerviin immunoprophylaxis againstBrugia malayiin jirds

A 175 kDa antigen fraction with collagenase activity was isolated and purified from somatic extracts of adultSetaria cervifemales using column chromatography involving consecutive steps of DEAE-Sepharose CL6B and Sephadex G-100. The optimum pH for 175 kDa collagenase was found to be pH 7.0. Sensitivities to a variety of inhibitors and activators indicated that the 175 kDa coIlagenolytic enzyme was metalloserine in nature. The enzyme hydrolysed a variety of protein substrates such as haemoglobin, casein, azocasein (general substrates) and collagen, FALGPA (furanoyl-acryloyl-leu-gly-pro-ala), the specific substrate of collagenase. The enzyme showed 57% inhibition by jird anti-somatic collagenase antibodies and reacted insignificantly with normal jird sera. Further analysis was undertaken on the immunoprophylactic potential of 175 kDa collagenase in inducing immunity againstBrugia malayi(a human filarial parasite) in jirds (Meriones unguiculatus)in vitroandin situ. Immune sera of jirds raised against this antigen promoted partial adherence of peritoneal exudate cells toB. malayimicrofilariae (mf) and infective larvae (L3)in vitroand induced partial cytotoxicity to the parasites within 48 h. The anti-S. cervi175 kDa antigen serum was more effective in inducing cytotoxicity toB. malayiL3, than mf. In the microchambers implanted inside immune jirds, host cells could migrate and adhere to the mf and infective larvae thereby killing them partially within 48 h.

Infection induces antibodies against the cercarial secretions, but not against the cercarial elastases of Schistosoma mansoni, Schistosoma haematobium, Schistosoma japonicum and Trichobilharzia ocellata

Cercarial secretions from different species of the parasite Schistosoma and from Trichobilharzia ocellata contain a proteolytic activity, cercarial elastase, which was demonstrated by a 30 kDa band in gelatin gels. Sera of patients infected with Schistosoma mansoni, Schistosoma haematobium or Schistosoma japonicum contain immunoglobulin G which react in ELISA with cercarial secretions from all schistosomes and cross-react among the different parasite species. In Western blots, however, infection sera from patients, as well as heavily infected mice or rabbits, did not react with a 30-kDa protein. Moreover, when sections from infected snails (Biomphalaria, Bulinus and Lymnaea) were analysed by immunofluorescence using the same infection sera, only the tegument of the developing cercariae was recognized, but not the acetabular glands. In contrast, when antisera against purified cercarial elastase from either S. mansoni or S. haematobium were tested with sections of infected Biomphalaria or Bulinus, fluorescence was strong in the preacetabular glands of the cercariae of either species, but undetectable with the tegument. Cross-reactivity of both antisera extended to T. ocellata-infected Lymnaea, but not to S. japonicum-infected Oncomelania. In conclusion, although immunization with purified cercarial elastase results in antibody production, the enzyme does not induce an apparent antibody response following natural infection.

Specificity of the solid phase alkaline phosphatase immunocapture assay for the diagnosis of human Schistosoma mansoni infection

The species specificity of the solid phase alkaline phosphatase immunocapture assay (APIA) for the immunological detection of human immunoglobulin G antibodies to the alkaline phosphatase of adult Schistosoma mansoni was evaluated. Sera from schistosomiasis patients from South America, West Africa, south-east Asia and uninfected control subjects were compared. Only the sera of patients infected with S. mansoni gave positive results. There was no apparent difference between 2 populations infected with S. mansoni, one from South America and the other from West Africa. The results with sera from various regions of West Africa were also indistinguishable. Although the APIA was not able to discriminate the geographical origin of the S. mansoni-infected subjects, the method appeared to be specific for S. mansoni and suitable for use in the immunodiagnosis of schistosomiasis mansoni, particularly in endemic areas where mixed infections of Schistosoma spp. occur.

Schistosoma mansoni elastase: an immune target regulated during the parasite life-cycle

Recombinant Schistosoma mansoni elastase was expressed in Escherichia coli and an antiserum raised against the recombinant protein was used to investigate stage-specific control of elastase in the parasite, and to determine whether the enzyme could form the basis of a strategy to prevent larval invasion of the host. Results showed that the expression of elastase is developmentally regulated, even if the basal promoter activity does not seem to be stage specific. The analysis of mRNA expression showed the presence of elastase transcript in adult worms although we could not detect the protein at this stage, suggesting that S. mansoni employs a form of translational control. The measurement of elastase levels in supernatants of culture schistosomula combined with the localization of elastase in cercarieae invading mouse skin showed that the enzyme is heavily released during penetration. Finally, we studied the cytotoxic activity of rat anti-elastase sera, and the analysis of the isotypic profile suggested that IgG2a anti-elastase may be responsible for the cytotoxic effect.

An estimate of the number of serine protease genes expressed in sheep blowfly larvae (Lucilia cuprina)

A large and diverse family of serine protease genes was identified in first-instar larval cDNA of the sheep blowfly (Lucilia cuprina). This complex repertoire of genes was identified via a PCR approach using highly degenerate primers based on structurally conserved regions which surround the active site His and Ser residues found in all serine proteases. PCR products from entire first-instar larval cDNA, or from third-instar larval salivary glands or cardia, generated using a microscale RT-PCR method, were cloned into a plasmid vector. Comparison of the restriction fragment patterns of PCR products generated from the three different sources suggests a highly diverse tissue-specific pattern of serine protease expression in this organism. Detailed analysis of the restriction fragment patterns of sixty-nine randomly selected clones from entire first-instar larvae revealed forty-nine different classes of PCR product. Maximum likelihood analysis of these data indicate that between 125 and 220 different serine protease genes are expressed in first-instar larvae of L. cuprina. DNA sequence analysis of ten randomly-selected clones, derived from the three tissue sources, indicated that all ten encoded serine protease gene fragments. A frequently occurring PCR product, generated from both first-instar total cDNA and third-instar cardia cDNA, showed 73% amino acid identity to a digestive protease expressed in Drosophila melanogaster larval gut cells.

Generic approaches to obtaining efficacious antigens from vector arthropods

The development of vaccines to control ectoparasites is dependent upon the identification of key parasite antigens. While a rational, pragmatic approach to antigen identification has yielded a successful vaccine candidate from ticks, there may be problems with such an approach when dealing with other ectoparasites. As an alternative approach, the search for vaccine candidates may be facilitated by cloning and expressing parasite genes encoding proteins involved in key physiological roles. A number of criteria may be applied to short-list candidate vaccines, these being; (a) host antibodies should be able to gain access to the parasite antigen; (b) sufficient antibody must gain access to the antigen target; (c) the formation of antibody-antigen complex should disrupt the normal function of the parasite antigen (d) the antigen should share conserved structural/sequence motifs with related, characterised, proteins, thus allowing the use of recombinant DNA methods to clone and express the candidate antigen. We propose three major groups of parasite antigens which may fulfill these criteria; serine proteases, chemoreceptors/ion channels and neuropeptides.

Characterization of a native and recombinant Schistosoma haematobium serine protease inhibitor gene product

Immunologic screening of a Schistosoma haematobium cDNA library with species-specific human antisera identified a clone whose predicted amino acid sequence encodes a member of the serine protease inhibitor (serpin) gene family. This cDNA consists of 1397 bp with a single open reading frame that can encode a 409-amino acid protein of 46,261 Da. The native antigen is a 54-58-kDa glycoprotein and is located on the surface of adult worms. Sequence comparison with other serpins predicts the amino acid Phe at the putative reactive center of the protein. Phenylalanine is also found at the corresponding site of a vaccinia serpin that may contribute to the hemorrhagic phenotype of some strains of cowpox virus. Though the human parasites S. haematobium and Schistosoma mansoni demonstrate a close antigenic relationship, the S. haematobium serpin gene product demonstrates marked species-specific immunogenicity. By Northern blot hybridization, however, both species express a 1700-nucleotide mRNA that hybridizes with the S. haematobium serpin cDNA. The intensity of cross hybridization for the S. mansoni mRNA is 10-fold lower than that for S. haematobium. Southern blots of genomic DNA and gene titration experiments indicate that the S. haematobium gene is present in approximately 4-5 copies per haploid genome.

Identification of a 33-kilodalton immunodominant antigen of Trypanosoma congolense as a cysteine protease

A 33-kDa protein of Trypanosoma congolense is a major antigen in infected cattle and the production of antibody to this antigen appeared to correlate with enhanced resistance to trypanosomiasis [4]. Immunoelectron microscopy using a monoclonal antibody (mAb 4C5) raised against the 33-kDa antigen showed a lysosomal localisation, similar to that of a previously described 32-kDa cysteine protease of T. congolense. Both mAb 4C5 and anti-33 kDa antibody from infected cattle bound on Western blots to the cysteine protease that had been purified by affinity chromatography on cystatin-Sepharose. Sepharose-coupled mAb 4C5 was used to affinity purify the antigen from bloodstream forms of T. congolense. On sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE), the affinity-purified antigen had a molecular mass of 33 kDa under non-reducing conditions, and 40 kDa under reducing conditions. Anti-33-kDa antibody from infected cattle bound to both non-reduced and reduced affinity-purified antigen on Western blots. Serum from a rabbit immunised with the biochemically purified enzyme also bound the affinity-purified antigen. The affinity-purified antigen displayed proteolytic activity in fibrinogen-containing SDS-PAGE and against Azocoll. It hydrolysed benzyloxycarbonyl-Phe-Arg-7-amino-methyl coumarin (Z-Phe-Arg-NHMec) with a Km similar to that of the biochemically purified enzyme. Proteolytic and peptidolytic activities of the antigen were inhibited by the inhibitors of cysteine proteases, cystatin and trans-epoxysuccinyl-L-leucyl-amido (4-guanidino)butane (E-64). On two-dimensional gel electrophoresis, the antigen displayed similar characteristics to those of the biochemically purified enzyme. We conclude that the 33-kDa antigen of T. congolense and the cysteine protease are the same molecule.

Characterization of proteolytic enzymes from larval and adult Nippostrongylus brasiliensis

Proteases from infective larval (L3) and adult stages of Nippostrongylus brasiliensis were investigated with a combination of techniques involving gelatin degradation and cleavage of fluorogenic substrates. Analysis of L3 excretory-secretory (ES) products revealed enzymes of Mr 51, 58, 79, approximately 150 and approximately 250 kDa. Inhibition profiles indicate that the major 51 kDa protease is a metallo-enzyme. Significantly, little activity was present in larval somatic extracts, suggesting the synthesis of zymogens or precursor forms prior to secretion. Adult ES contained a distinct enzyme, of 50 kDa, and a number of other proteases were detected in somatic extracts of this stage, ranging from 51 to greater than 300 kDa. The largest of these adult somatic enzymes is also a putative metallo-protease. While nearly all enzymes from both L3 and adult are heat labile, incubation at 100 degrees C generated a previously unobserved activity at 20 kDa. Furthermore, a protease of similar size may be found in uninfected rat intestinal tissue, suggesting specific uptake of a host-associated enzyme by the parasite in the form of an inactive, heat-labile complex.

Proteases in the schistosome life cycle: a paradigm for tumour metastasis

Cancers and parasites have a number of properties in common, particularly those that relate to their respective capacities to evade host defence mechanisms. This review highlights the similarities between metastatic tumours and schistosomes in particular, and describes the role that proteases may have in the migration, growth, survival and transmission of the different stages of the schistosome life-cycle in the vertebrate host. An elastase-like serine protease of schistosome larvae has been particularly well characterized, and its substrate profile and other properties are indicative of a role in facilitating migration of the parasite through skin tissue early after infection. The primary structures of a cathepsin B-like enzyme, and a putative 'haemoglobinase' found in adult worms have also recently been derived, these enzymes being responsible for degradation of haemoglobin in erythrocytes upon which the adults feed. Adult schistosome worms reside and produce eggs intravascularly, and the processes that mediate the extravasation and subsequent migration of the egg through host tissue are dependent on both blood platelets and the immune response. Fibrino(geno)lytic enzymatic activity that is present in the egg could modulate the thrombogenic potential that eggs might have as a result of their capacity to cause platelet aggregation in vitro and in vivo. The roles of other proteases and peptidases that have been found in schistosome larvae, worms and eggs are less clear. Some of these enzymes may modulate immunological and haemostatic defence mechanisms and thus prolong survival of the parasite, and the consequences of the interactions between schistosomes and host protease inhibitors could also be immune modulatory.

Schistosoma mansoni: localization of the 28 kDa secreted protease in cercaria

Monospecific rabbit antibodies were utilized to localize the 28 kDa serine protease which is released from transforming schistosomula of Schistosoma mansoni in cercariae and freshly transformed schistosomula. This protease exerts two postulated activities, degradation of connective tissue proteins thus promoting skin penetration and release of the cercarial glycocalyx leading to accelerated schistosomular transformation. Upon immunogold labelling of cercarial cryosections, the 28 kDa protease was found stored in both the preacetabular and postacetabular glands. This enzyme was also detected in the cercarial glycocalyx by immunogold and immunofluorescence labelling and by its proteolytic activity. Following transformation and shedding of the glycocalyx, the same 28 kDa protease was found on the surface membrane of transformed schistosomula which are resistant to immune damage. It is suggested that the 28 kDa membrane protease which cleaves in vitro the complement proteins C3, C3b and C9, may promote in vivo immunoresistance of S. mansoni.

Production of a mouse monoclonal antibody against the alkaline phosphatase of adult Schistosoma mansoni

This study describes the production and characterization of a monoclonal antibody (mAb) against the alkaline phosphatase of Schistosoma mansoni from splenocytes of chronically infected mice. Convenient selection of the mAb was achieved using the catalytic activity of the antigen in a developed enzyme-antigen immunoassay. The mAb was of the IgG1 subclass and it specifically recognized the alkaline phosphatase in adult worm sections by indirect immunofluorescence. Preincubation of the antibody with partially purified adult alkaline phosphatase did not result in inhibition of the enzyme activity and it did not mediate complement-dependent cytotoxicity against mechanically transformed schistosomula in vitro. The mAb was able to immunoprecipitate under reducing conditions a polypeptide of 65 kDa, similar in size to the monomeric subunit of the schistosome enzyme. The specificity of the mAb was assessed by competitive inhibition with antibodies of infected human sera in an immunoadsorption assay. Periodate treatment of the antigen resulted in altered electrophoretic mobility of alkaline phosphatase, which confirmed the presence of carbohydrate in the molecule, but this did not prevent binding by the mAb. Although the use of the mAb in capture assays for detection of circulating alkaline phosphatase in infected host sera was unsuccessful, the production of this antibody confirmed that the enzyme is exposed by adult worms to the host and that it is immunogenic; additionally, a monoclonal probe is available for further characterization of the structure and function of this important parasite surface molecule.

Antigenicity of adult Schistosoma mansoni alkaline phosphatase

Antibodies to the alkaline phosphatase (AP) of Schistosoma mansoni in infected human and mice sera were evaluated by a direct solid-phase AP immunoadsorption assay (APIA) and by Western blot and immunostaining. APIA consisted of (a) solid-phase capture of immunoglobulins from infected human or mice, (b) immunoadsorption of the enzyme antigen by the antibodies, and (c) detection of the enzymatic activity. By this procedure the appearance of the anti-AP response in mice was detected around 50 days post-infection; this response was not specific for an AP of a given schistosome strain and it was not induced by an autoimmunity phenomenon. Fourteen out of 15 sera from infected people tested by APIA showed a clear antibody response against this enzyme. Immunoblots in non-reducing conditions supported APIA results indicating that the parasite AP was specifically recognized by the antibodies present in infected human and mice sera. These results suggest the possible usefulness of the schistosome AP as a marker for S. mansoni infection.

Immunodiagnosis of Schistosomiasis mansoni with APIA (alkaline phosphatase immunoassay)

The previously shown antigenicity of Schistosoma mansoni (JL venezuelan strain) alkaline phosphatase (Mg2+, pH 9.5) allowed its use in an immunodiagnosis assay, that consisted in the immunoadsorption of the enzymatic activity. Protein-A coated polyvinyl plates were used as solid phase to capture IgG from sera of infected human patients. After buffered saline washings, the plates were incubated with an enzyme-rich fraction (a n-butanol aqueous extract of adult worm obtained from pairs). Immunoadsorbed alkaline phosphatase (AP) was revealed by adding rho-nitrophenyl phosphate. Anti-AP antibodies were detected in 93% of coproparasitologically proven S. mansoni-infected venezuelan patients but not in parasite-free control sera and sera from patients infected with parasitosis other than schistosomiasis. The APIA did not correlate with cure but the anti-AP antibody response was progressively reduced after treatment. The use of an AP substrate amplifying system allowed an improvement of the assay sensitivity without loss of specificity. The data suggest that the APIA could be used as a marker of infection by S. mansoni.

Toxocara canis: proteolytic enzymes secreted by the infective larvae in vitro

Second-stage larvae of the dog nematode Toxocara canis are infective to man and cause the syndromes of visceral larva migrans and ocular toxocariasis. Larvae cultured in vitro secrete proteases which degrade components of a model of extracellular matrix and basement membranes. These enzymes have been characterized using a variety of techniques. Multiple enzyme activities were demonstrated by substrate gel electrophoresis, associated with proteins of molecular weights of 120 and 32 kDa. The enzyme activity was inhibited both in substrate gels and in a radiogelatin microplate assay by phenylmethylsulfonyl fluoride. Optimal activity occurred at pH 9, with minor activities apparent at pH 5 and 7; the relationship between these proteolytic activities is currently under investigation.

Primary structures of Sm31/32 diagnostic proteins of Schistosoma mansoni and their identification as proteases

We have constructed cDNA clones containing the complete nucleotide sequences coding for two highly antigenic Schistosoma mansoni adult worm proteins, Sm31 and Sm32. The predicted amino acid sequence of Sm31 shows significant homology to mouse, rat and human cathepsin B. The nucleotide sequence of Sm32 is identical to that reported by others for S. mansoni "haemoglobinase'. The different nucleotide sequences demonstrate the existence of two different proteolytic enzymes, both of which are synthesised in the form of precursor molecules. Structural homology of the schistosome cathepsin B to the mammalian ones indicates that the mature protein is processed from a propeptide. The calculated molecular weight of haemoglobinase of 47,000 suggests that post-translational processing is also involved in generating an active protease.

Schistosome proteases

While studies of schistosome antigens have proceeded rapidly over the past ten years, studies of schistosome enzymes have also been increasing apace. Now the two `lines' of research are coming together. Parasites such as schistosomes hardly present antigens merely to stimulate a host immune response, so it is not surprising that many antigens turn out to have functions, for example, as enzymes. One type of antigenic schistosome enzyme - glutathione S-transferase - already shows promise as a vaccine candidate. Here, Jim McKerrow and Mike Doenhoff review another important class of enzyme, many of which are clearly antigenic, the schistosome proteases.

The Schistosomatium douthitti cercarial elastase is biochemically and structurally distinct from that of Schistosoma mansoni

The cercarial acetabular gland proteinase of Schistosomatium douthitti, an agent of 'swimmer's itch', has been identified and characterized. Like the corresponding proteinase of Schistosoma mansoni, it has significant elastase activity and can degrade a model of dermal extracellular matrix. However, unlike the S. mansoni enzyme, it has a higher molecular weight (50,000 versus 30,000), is of a different proteinase class (metallo versus serine), and has no significant primary structure homology to the S. mansoni proteinase. While these findings indicate that the failure of S. douthitti to produce chronic schistosomiasis in humans is not due to its lacking, or having a less potent 'penetration proteinase' than S. mansoni, the proteolytic enzymes are sufficiently different to support the hypothesis that the Schistosomatium line diverged quite early from the main branch of Schistosoma evolution.

Excretory-secretory products of helminth parasites: effects on host immune responses

Parasitic helminths excrete or secrete (ES) a variety of molecules into their mammalian hosts. The effects of these ES products on the host's immune responses are reviewed. Investigations into the source of antigenic or immunoregulatory ES products have identified the cuticular and tegumental surfaces of some nematodes and trematodes respectively as being important sources of ES products; other ES molecules are released through specialized excretory or secretory organs. It is proposed that the active shedding of surface antigens may serve as an important source of parasite antigens available to the immune system in a form in which they can be taken up and processed by antigen-presenting dendritic cells, macrophages and certain B cells for presentation to T helper cells. The ES products of nematodes, trematodes and cestodes contribute to immune evasion strategies of the parasites through mechanisms including shedding of surface-bound ligands and cells, alteration of lymphocyte, macrophage and granulocyte functions and modulation of complement and other host inflammatory responses. Immunopathology may be induced by ES products as in the development of granulomas around entrapped schistosome eggs. In some host-parasite systems ES antigens may induce host-protective immune responses and this source of protective antigens has been utilized in the successful vaccination against helminth infections, particularly against infection with trichurid nematodes and the metacestode stage of cestode parasites. The use of ES antigens in immunodiagnosis of helminth infection is also briefly discussed.

Molecular cloning of Schistosoma mansoni myosin

A cDNA library representative of adult Schistosoma mansoni mRNA populations was screened with serum from infected rats (refractory hosts), positive plaques being rescreened with serum from infected mice and humans. Based on general reactivity, one clone was selected for further study. As judged by immunofluorescence data, size of corresponding mRNA, and nucleotide sequence analysis, the recombinant expresses approximately 625 amino acids of a schistosome muscle myosin rod. Antibodies evoked by the protein do not cross-react with human cardiac or skeletal muscle, are not invariably stimulated in naturally infected human beings, and rise in titer after chemotherapeutic cure, findings which suggest that the antigen is not a causative agent of Katayama fever, and is probably presented by degenerating worms. The schistosome sarcomeric myosin gene, the most primitive examined to date, appears to be unique inasmuch as it may not be a member of a multigene family and encodes a single mRNA transcript; nonetheless, predicted higher order structure of its translation product is consistent with expected function.

Cloning of diagnostic 31/32 kilodalton antigens of Schistosoma mansoni

A cDNA library derived from messenger RNA of adult Schistosoma mansoni was constructed in lambda gt11 and schistosome antigens were expressed as fusions with the amino terminus of the beta-galactosidase of Escherichia coli. Using mouse and human infection sera, recombinant clones specific for a 31/32 kDa doublet having a potential in the immunodiagnosis of schistosomiasis were selected. The specificity of the clones was verified by their reactivity with monoclonal antibodies. The identity of the cloned epitopes with those of the native proteins was confirmed by Western blot analysis of total schistosome proteins, using both antibodies affinity purified from the fusion proteins and antisera raised in rabbits against the fusions. The reactivity of the cloned antigens with human infection sera suggests their usefulness for the immunodiagnosis of human schistosomiasis.