Expression, immunolocalization, and serological reactivity of a novel sphingomyelin phosphodiesterase-like protein, an excretory/secretory antigen from Clonorchis sinensis.

Clonorchiasis, caused by Clonorchis sinensis infection, is a zoonotic parasitic disease of hepatobiliary system in which the proteins released by adult are major pathogenetic factors. In this study, we first characterized a putative sphingomyelin phosphodiesterase (CsSMPase) A-like secretory protein, which was highly expressed in the adult worm. The full-length gene was cloned. The putative protein is of relatively low homology comparing with SMPase from other species, and of rich T cell and B cell epitopes, suggesting that it is an antigen of strong antigenicity. The complete coding sequence of the gene was expressed in the Escherichia coli. The recombinant CsSMPase (rCsSMPase) can be recognized by C. sinensis-infected serum, and the protein immunoserum can recognize a specific band in excretory/secretory products (ESPs) of C. sinensis adult by western blotting. Immunolocalization revealed that CsSMPase was not only localized on tegument, ventral sucker of metacercaria, and the intestine of adult but also on the nearby epithelium of bile duct of the infected Sprague-Dawley rats, implying that CsSMPase was mainly secreted and excreted through adult intestine and directly interacted with bile duct epithelium. Although immunized rats evoked high level antibody response, the antigen level was low in clonorchiasis patients. And the sensitivity and specificity of rCsSMPase were 50.0 % (12/24) and 88.4 % (61/69), in sera IgG-ELISA, respectively. It is likely due to the fact that CsSMPase binding to the plasma membrane of biliary epithelium decreases the antigen immune stimulation.

Cloning and expression of 21.1-kDa tegumental protein of Clonorchis sinensis and human antibody response to it as a trematode-nematode pan-specific serodiagnosis antigen.

A complete cDNA encoding a 21.1-kDa tegumental protein (CsTP21.1) was recognized from Clonorchis sinensis adult full-length cDNA plasmid library by bioinformatics analysis. Recombinant CsTP21.1 was highly expressed in Escherichia coli, purified by affinity chromatography, and identified by Western blotting. Immunohistochemistry demonstrated that CsTP21.1 is localized in the tegument of the adult worm. The rCsTP21.1-specific IgG1, IgG2, and IgG4 subclasses could be detected in the sera of clonorchiasis patients by ELISA, but their sensitivity was much lower than that of total IgG. The sensitivity and specificity of IgG in 66 serum samples of clonorchiasis patients were 100% and 95.5%, and the sensitivity was independent of worm loads; the cross-reaction rates in 86, 24, and 31 serum samples from patients infected with Fasciola hepatica, Schistosoma japonicum, and nematode were 98.8%, 83.3%, 93.3%, respectively, whereas no cross-reactions with Toxoplasma gondii and sparganum. This study demonstrated that CsTP21.1 is a trematode-nematode pan-specific antigen that is valuable in the development of a universal immunodiagnostic kit for human trematode and nematode infections.

Molecular cloning, expression, and characterization of cyclophilin A from Clonorchis sinensis.

This study described the recognization, cloning, and recombinant expression of cyclophilin A-like gene from Clonorchis sinensis adult complementary DNA library (CsCyPA) and its expression and secretion in adult. Western blotting demonstrated the recombinant CsCyPA could be recognized by sera of clonorchiasis patients and a sole protein of the same size in the excretory-secretory antigens of in vitro cultured adult could be recognized by antiserum raised against the recombinant CsCyPA. Immunohistochemistry demonstrated that the CsCyPA was secreted in scattered vesicles from subtegumental parenchyma cells to the surface of tegument and mainly released from the tegument. ELISA showed the serum levels of IgG against CsCyPA in clonorchiasis patients negatively correlated with worm loads. This study suggested that C. sinensis adult in biliary ducts could release CsCyPA without signal peptide through nonclassical secretory pathway into the liver and might play a role in inflammation and biliary epithelium proliferation and adenomatoid hyperplasia.

[Expression and characterization of the FABP and Eg95 fusion gene from Echinococcus granulosus].

OBJECTIVE: To construct and express a fusion gene of fatty acid binding protein (FABP) with Eg95 which are protective antigen genes of Echinococcus granulosus, and investigate the immunological characteristics of the recombinant protein. METHOD: Using cDNA fragments encoding FABP and Eg95 genes from E. granulosus Qinghai sheep strain as templates, a fusion gene FABP.Eg95 was amplified by asymmetric polymerase chain reaction th-rough a linking sequence encoding four glycine residues. The PCR products of fusion gene were subcloned into the pET28a (+) vector. The recombinant plasmid was transformed into Escherichia coli BL21 (DE3) cells and induced with IPTG. The recombinant protein was detected by SDS-PAGE and purified by Ni-IDA affinity chromatography, and its immunogenicity was analyzed by Western blotting. Results The fusion gene length was about 795 bp. Double enzyme digestion analysis and DNA sequencing confirmed that the fusion gene was cloned into pET-28a (+). The recombinant protein (Mr 31,000) was expressed in inclusion body in E. coli expression system, and was purified by Ni-IDA affinity chromatography. Western blotting analysis testified that the recombinant protein could be recognized by sera of cystic echinococcosis patients, but not by sera of healthy persons and schistosomiasis patients. CONCLUSION: The FABP.Eg95 fusion gene has been constructed, and the purified recombinant protein has been confirmed with immunogenicity.

Schistosoma japonicum calcium-binding tegumental protein SjTP22.4 immunization confers praziquantel schistosomulumicide and antifecundity effect in mice.

A family of platyhelminth tegument-specific proteins comprising of one or two calcium ion binding EF-hand and a dynein light chain-like domain, termed tegumental proteins, are considered as candidates of vaccine. In this study, we cloned and characterized SjTP22.4, a novel membrane-anchored tegumental protein in Schistosoma japonicum with theoretic MW of 22.4. The recombinant SjTP22.4 could be recognized by S. japonicum infected sera. Immunofluorescence revealed that this protein is not only located on the surface of tegument of adult and schistosomulum and cercaria, but also in the parenchymatous tissues and intestinal epithelium. Circular dichroism (CD) measurement demonstrated rSjTP22.4 had Ca(2+)-binding ability. The rSjTP22.4 vaccination without adjuvants produced comparable high level of antibody with that of immunization with adjuvants together indicated it was an antigen of strong antigenicity. The level of IgG1 is much higher than that of IgG2a and IgE is nearly negative in S. japonicum-infected and rSjTP22.4 immunized mice. In cercaria challenge experiment, mice vaccinated with SjTP22.4 showed no reduction in adult burden and egg production, comparing with the control mice, but 41% decrease in egg mature rate and 32% reduction in liver egg granuloma area. However, the SjTP22.4 immunized mice that received praziquantel treatment at 10d post infection caused 26% reduction in adult burden and 53% decrease in egg mature rate, comparing with the control mice only received praziquantel treatment. In conclusion, SjTP22.4 is a valuable vaccine candidate for S. japonicum of anti-pathogenesis and anti-transmission effect and plays a synergetic role in praziquantel to kill schistosomulum.

The topological structure and function of Echinococcus granulosus lactate dehydrogenase, a tegumental transmembrane protein.

Lactate dehydrogenase (LDH), a terminal glycolytic enzyme, is generally considered as a cytosolic protein. We cloned lactate dehydrogenase from Echinococcus granulosus (EgLDH) and predicted it may be a membrane protein with two transmembrane regions through bioinformatics analysis. Intact worm immunofluorescence with antibodies prepared against linear B cell epitopes predicted in the region inside or outside of the membrane demonstrated that EgLDH spans the tegumental membrane twice, with the N terminal and C terminal all outside, just consistent with the putative topological structure. Then, the enzymatic characteristics and kinetic parameters of recombinant EgLDH were surveyed and the results suggested that EgLDH is responsible for catalyzing the reduction of pyruvic acid into lactic acid under physiological conditions. The enzymatic activity of the recombinant protein was inhibited by antibodies directed against the intact protein or against epitopes that contain key residues in the catalytic center or substrate binding sites. EgLDH is a potential target for drugs and vaccines against E. granulosus.