Two B-cell epitope vaccines based on uPA effectively inhibit fertility in male mice

Identification of a dominant murine T-cell epitope in recombinant protein P29 from Echinococcus granulosus

Echinococcus granulosus causes echinococcosis, an important zoonotic disease worldwide and a major public health issue. Vaccination is an economical and practical approach for controlling E. granulosus. We have previously revealed that a recombinant protein P29 (rEg.P29) is a good vaccine candidate against E. granulosus. However, T cell immunogenic epitopes have not been identified. In the present study, we use rEg.P29-immunized mice as models to screen immunogenic epitopes for the construction of a novel multi-epitope vaccine. We search for immunodominant epitopes from an overlapping peptide library to screen the peptides of rEg.P29. Our results confirm that rEg.P29 immunization in mice elicits the activation of T cells and induces cellular immune responses. Further analyses show that a T cell epitope within amino acids 86–100 of rEg.P29 elicits significant antigen-specific IFN-γ production in CD4+ and CD8+ T cells and promotes specific T-cell activation and proliferation. Collectively, these results provide a reference for the construction of a novel vaccine against broad E. granulosus genotypes based on epitopes of rEg.P29.

Evaluation of multi-epitope recombinant protein as a candidate for a contraceptive vaccine

Contraceptive vaccine (CV) is a valuable, non-invasive, and alternative method for purposeful contraception. Sperm antigens are useful targets for producing CVs due to their specialized expression in sperm. In this study, a recombinant protein containing three main sperm epitopes (IZUMO1, SACA3, and PH-20) was designed and evaluated as CV to control fertility in male mice. The chimeric recombinant protein was expressed and purified in E. coli. Male mice were immunized by 100 μg purified protein and sera were collected to assess IgG antibodies. Evaluating the reproductive performance, immunized male mice mated with normal-fertile female mice and mating rate and the number of newborns was studied. Immunized mice were sacrificed and necropsy and histopathology studies were conducted. The results revealed that the designed chimeric protein stimulated the immune system of the mice effectively. The level of IgG antibody was significantly higher in vaccinated mouse rather than control mouse. Eighty percent of the vaccinated mice became infertile and in the remaining ones, the number of children decreased to 4-6 offspring instead of 10-12 in normal mice. Histopathological studies showed that no organs including heart, brain, lung, liver, kidney and intestine were damaged. However, Normal spermatogenesis has been disrupted and necrotic spermatogonia cells were reported in Seminiferous tubules. We concluded that the designed chimeric protein containing IZUMO1, SACA3, and PH-20 epitopes can stimulate the immune system and cause male contraception without any side effects.

Immunogenicity of multi-epitope vaccines composed of epitopes from Streptococcus dysgalactiae GapC

Glyceraldehyde-3-phosphate dehydrogenase C (GapC) of Streptococcus dysgalactiae (S. dysgalactiae) is a highly conserved surface protein that can induce a protective immune response against S. dysgalactiae infection. To investigate the immune response and protective efficacy induced by epitope-vaccines against S. dysgalactiae infection, we constructed epitope-vaccines GTB1, GB1B2, and GTB1B2 using a T cell epitope (GapC_63-77, abbreviated as GT) and two B cell epitopes (GapC_30-36, abbreviated as GB1, and GapC_97-103, abbreviated as GB2), which were identified in GapC_1-150 of S. dysgalactiae in tandem by a GSGSGS linker. BALB/c mice were immunized via an intramuscular injection with the epitope vaccines. The levels of the cytokines, IFN-γ, IL-4, and IL-17, secreted by splenic lymphocytes and the antibody levels in the sera of the immunized mice were detected by ELISA. The immunized mice were subsequently challenged with S. dysgalactiae, and the bacterial colonization in the immunized-mouse organs was examined using the plate counting method. The results showed that the level of the cytokines induced by GTB1B2 was lower than that induced by GapC_1-150, but higher than that induced by other epitope vaccines. The level of IgG induced by GTB1B2 was lower than that induced by GapC_1-150, but higher than the levels induced by other epitope vaccines. The bacterial colonization numbers in the organs of the mice immunized with GTB1B2 were higher those of the mice immunized with GapC_1-150, but significantly lower than those from the mice immunized with other epitope-vaccines. Our results demonstrated that the T cell and B cell epitopes in the epitope-vaccines worked synergistically against bacterial challenge. The multi-epitope vaccine, GTB1B2, could induce stronger cellular and humoral immune responses, and provide a better protective effect against S. dysgalactiae infection.

Transgenesis and active immunization mediated reduction of sperm associated antigen 11A mRNA and protein levels affect fecundity in the rat

Spermatozoa acquire motility and fertilizing ability during their transit through the epididymis. A wide variety of proteins secreted into the epididymal lumen are added on to the sperm surface to allow morphological and molecular changes involved in sperm maturation. Proteins of the Sperm Associated Antigen 11 (SPAG11) family are known to be localized on the sperm surface. The rat SPAG11A protein was implicated in sperm maturation during epididymal transit in vitro. However, systematic analyses on the significance of SPAG11A in fertility and sperm function is not yet reported in vivo. In this study, using testicular electroporation, we generated transgenic rats that express shRNA to ablate endogenous Spag11a mRNA. Genotyping revealed the integration of the plasmid that expresses shRNA against Spag11a mRNA. Significant decrease in the mRNA levels of Spag11a and its encoded protein was observed in the caput epididymis of transgenic rats. We also generated an active immunization rat model to ablate endogenous SPAG11A protein by administering recombinant SPAG11A protein. Immunized rats had a high antibody titer in the serum and the tissue fluids of caput, cauda and testis. In both these model systems, the litter size and sperm count was significantly reduced. However, spermatozoa obtained from the transgenic or immunized rats underwent capacitation and acrosome reaction and the associated calcium release. Results of this study indicate the role of SPAG11A in fecundity and sperm production and not in sperm function, especially capacitation and acrosome reaction.