To validate the protective efficacy against schistosomiasis by immunization with cells from juvenile Schistosoma japonicum in a murine model; to analyze possible factors related to protection, in this study, two independent repeated vaccination trials were performed. After three subcutaneous vaccinations, in trial one, in the absence of adjuvant, primary juvenile worm cells (pJCs) from S. japonicum induced remarkable average reductions in worm burden (54.3%), liver eggs per gram (LEPG) load (59.8%) as well as egg granulomas size (66.5%) compared to PBS control group (P<0.01), which were significantly higher than those elicited by fractions of juvenile worm cells (JCFs) or fractions of juvenile worms (JWFs) (P<0.05). Non-cell components of worms (WNCs) showed no significant protection. In trial two, compared to PBS control group, significant protective effect was also observed for cultured juvenile worm cells (cJCs) from S. japonicum with 58.4% worm reduction; 68.1% LEPG reduction (P<0.01). However, cultured adult worms cells (cACs) showed significantly higher worm burden (P<0.05); egg burden (P<0.01) when compared to cJCs. Immunological analysis of trial two revealed that cJCs engendered a Th1-biased mixed Th1/Th2 type of immune response while cACs elicited a Th2-type response. Our data indicated that immunization with both primary; cultured cells from S. japonicum juvenile worms provided high immunoprotection, for which the physical character of immunogens, stage-specific parasite; the type of immune response induced might be responsible, suggesting that vaccination with whole cells from S. japonicum larvae is a promising approach to produce protective immunity against schistosomiasis.
ZENG TieBing1,2, CAI LiTing1, ZENG QingRen1, YANG ShengHui1, YU Rong1, LI YanQin1, FANG HuiLong1, LI BenWen3 & ZHANG ShunKe1 1 Cell & Molecular Biological Experiment Center and Department of Parasitology, Xiangya School of Medicine, Central South Uni- versity, Changsha 410013, China