[Cloning, expression and immune function analysis of a gene encoding inositol monophosphate in Schistosoma japonicum].

OBJECTIVE: To clone and express a full-length cDNA encoding inositol monophosphate of Schistosoma japonicum (SjIM), and to access its immunoprotection in BALB/c mice for schistosomisis. METHODS: A full-length cDNA encoding the S. japonicum inositol monophosphate was isolated from 42 d schistosomes cDNAs. The expression profiles in different developmental stages were detected by real-time quantitative RT-PCR. The open reading frame (ORF) was subcloned into a pET28a(+) vector and transformed into BL21 and the recombinant protein was induced by IPTG. The immune characters of the purified recombinant protein were analyzed by Western blotting and immunoprotection in BALB/c mice. RESULTS: Bioinformatics analysis indicated that SjIM had an ORF of 834 base pairs that encoded 278 amino acids. Real-time quantitative RT-PCR analysis revealed that SjIM was upregulated in 35-day-old schistosomes, while the expression level in females was higher than that in male worms in 42nd day. Western blotting showed that the recombinant SjIM was immunogenic. An immunoprotection experiment in BALB/c mice showed that vaccination with recombinant SjIM could induce 48.76% and 41.29% reductions in the numbers of worms and eggs in the liver, respectively. CONCLUSIONS: The gene of SjIM is obtained from schistosomes cDNAs and the recombinant SjIM protein is induced successfully in E. coli. These aforementioned results demonstrate that the recombinant SjIM cand induce partial protection against schistosomiasis in BALB/c mice.

[Evaluation on the immuno-protective efficacy of the recombinant antigen SjPGAM-SjEnol against Schistosoma japonicum in mice].

OBJECTIVE: To construct and express the recombinant plasmid pET32a-SjPGAM-SjEnol and evaluate its immuno-protective efficacy against the infection of Schistosoma japonicum in mice. METHODS: The peptides of SjPGAM and SjEnol containing the multivalent epitopes with higher binding capacity of human MHC II and mouse H2-dII but low homology with the host were analyzed and screened through bioinformatics. The corresponding nucleotide sequence of selected epitopes was spliced and the recombinant plasmid pET32a-SjPGAM-SjEnol was constructed and expressed in Escherichia coli BL21 cells. The antigenicity of the recombinant protein was detected by Western blotting and the protective effect induced with the recombinant was evaluated in mice. 55 BALB/c mice were randomly divided into 5 groups each with 11. Mice from groups A, B and C were injected with a mixture of recombinant protein (27 microg) pET32a-SjPGAM-SjEnol (A), pETL28a-SjPGAM (B) and pET28a-SjEnol (C) respectively together with 206 adjuvant, mice from groups D and E received adjuvant or PBS only, all injected for three times at two-week intervals. Mice were then challenged with 40 +/- 2 cercariae of S. japonicum at two weeks after the last vaccination, and sacrificed for perfusion by 6 weeks post infection. Adult worms were collected, the number of eggs in a gram of liver tissue was counted, and the rates of worm reduction and egg reduction were calculated. Serum samples were collected before vaccination, every one week after each inoculation and before sacrifice, and specific IgG was detected by ELISA. RESULTS: The sequences encoding the 96-147 aa of SjPGAM and 233-312 aa of SjEonl were chosen for constructing the recombinant plasmid, a cDNA fragment with the length of 447 bp was amplified by PCR. The recombinant plasmid was expressed in E. coli with a molecular weight of Mr 33,000. Western blotting revealed that the fusion protein was recognized by the rabbit serum specific to SjSWAP, and showed an adequate antigenicity. Vaccination experiment showed that when compared with those of the blank control, the worm reduction rate in group A was 39.7%, significantly higher than that of groups B (18.5%) and C (14.7%) (P < 0.05). The liver egg reduction rate in group A was 64.9%, also higher than that of groups B (47.5%, P < 0.05) and C (30.5%, P < 0.01). ELISA showed that the serum specific IgG in group A (2.372 +/- 0.268) was much higher than that of groups D (0.490 +/- 0.138) (P < 0.01 and E (0.220 +/- 0.088) (P < 0.01). CONCLUSION: The recombinant plasmid pET32a-SjPGAM-SjEnol has been constructed, and recombinant protein pET32a-SjPGAM-SjEnol induces higher immune-protection against S. japonicum than that of SjPGAM and SjEonl.