The immunogenicity, protective efficacy and safety of BBG2Na, a subunit respiratory syncytial virus (RSV) vaccine candidate, against RSV-B

Respiratory syncytial virus (RSV) is divided into subgroups A and B, based primarily on variation within the G glycoprotein. A safe vaccine that protects against both would be the ideal. BBG2Na is a recombinant subunit RSV vaccine candidate derived in part from the G protein of RSV-A. Interestingly, BBG2Na formulated in alum protected against RSV-B challenge at early time points following vaccination in mice. Over 6 months, however, BBG2Na-induced immunogenicity and protective efficacy progressively diminished, such that few animals were considered protected at the end. To study the safety of BBG2Na relative to RSV-B challenge, we established a novel enhanced immunopathology mouse model. We confirmed that RSV-B challenge of formalin-inactivated RSV-A (FI-RSV-A)-immunized BALB/c mice results in enhanced pulmonary pathology. Therefore, this phenomenon is neither subgroup-specific nor dependent on a previously incriminated Th epitope in the RSV-A G protein. In stark contrast, BBG2Na did not induce any signs of enhanced pulmonary pathology. In conclusion, our data indicate that BBG2Na, formulated in alum, induces safe and protective immune responses against RSV-B challenge in mice. However, the duration of protective immunity will probably be insufficient to prevent RSV-B infection for the duration of the RSV epidemic season.     

Influence of live respiratory syncytial virus priming on the immune response generated by a recombinant vaccine candidate, BBG2Na

Respiratory syncytial virus is one of the major respiratory pathogens for infants and immunocompromized children. With the exception of young children, all the population has encountered RSV and is seropositive. Recent reports have demonstrated however that the virus also affects the elderly and represents a major cause of illness associated with an excess of morbidity and mortality. We have generated a recombinant RSV vaccine, BBG2Na, which is highly protective in rodents against RSV infection. The aim of this study was to evaluate the ability of the vaccine to increase anti-RSV protection in RSV-primed mice and to characterize the induced immune responses.Immunization with BBG2Na increased the anti-RSV-A serum antibody titers of RSV-primed mice with induction of both IgG1 and IgG2a antibodies attesting for a mixed Th response. Moreover, the level of the induced anti-G2Na antibodies was greater in seropositive mice. Finally, sera from RSV-primed mice displayed a higher protective efficacy after transfer into naive mice following subsequent immunization with BBG2Na than sera of mice immunized with RSV-A only.Our results demonstrate that BBG2Na is immunogenic and increases the protective efficacy of serum antibodies in RSV-primed mice; they support the possibility of performing clinical trials in the seropositive human population.     

The virulence-related rhoptry protein 5 (ROP5) of Toxoplasma Gondii is a novel vaccine candidate against toxoplasmosis in mice

Infections with the intracellular protozoan parasite Toxoplasma gondii pose a serious public health problem and are of great economic importance worldwide. The parasite rhoptry protein 5 (ROP5) has been implicated as a major virulence factor that reduces the accumulation of immunity-related GTPases (IRG) in parasitophorous vacuole membrane (PVM), which maintains PVM integrity and evades IFNγ-mediated killing by intracellular parasites. To study the immunoprotective value of ROP5, BALB/c mice were immunized with a recombinant form of the protein administered alone or in combination with another promising vaccine antigen, rSAG1. All mice vaccinated with the recombinant antigens developed a high level of specific antibody responses against soluble tachyzoite antigens (STAg), a statistically significant increase of the splenocyte proliferation response, and significant levels of IFN-γ and IL-2 production. In contrast to rSAG1, which only stimulated the release of IFN-γ and IL-2, rROP5 induced the specific production of IL-10, the Th2-type cytokine, in addition to IFN-γ and IL-2. These results demonstrated that rROP5 could induce significant cellular and humoral (Th1/Th2) immune responses. Moreover, mice immunized with rROP5 displayed a prolonged survival time against a lethal challenge with the T. gondii RH strain. Additionally, vaccination with the mixture of rROP5 + rSAG1 resulted in higher levels of T. gondii-specific IgG antibodies and lymphocyte proliferative responses and conferred more efficient protection against T. gondii challenge compared to immunization with rROP5 or rSAG1 alone. Our studies show that recombinant ROP5 antigen may be a promising vaccine candidate against toxoplasmosis. To our knowledge, this is the first report to evaluate the immunoprotective value of ROP5.     

Immunogenicity and efficacy of recombinant RSV-F vaccine in a mouse model

RSV vaccine development has constraints due to safety issues encountered by formalin-inactivated FI-RSV vaccines. A desirable vaccine should induce Th(1) responses and a strong mucosal immunity to provide complete protection from RSV infection. In the present paper, we developed and evaluated a mucosal vaccine against RSV in a mouse model. The antigenic regions corresponding to residues 412-524 of RSV-F protein were amplified by RT-PCR and cloned into a vector containing the ctxA(2)B gene of the cholera toxin. The recombinant protein was expressed in E. coli and properties of the recombinant protein were analyzed by SDS-PAGE, Western blot and G(M1)-ELISA. The purified recombinant protein (rRF-412) was used to immunize BALB/c mice intranasally. The results from our studies show that the rRF-412 immunogen induced mucosal (IgA) and systemic antibody (IgG, IgG1, IgG2a, and IgG2b) responses which neutralized RSV. The IgG1/IgG2a ratios indicated a Th(1)-biased antibody response. The Th(1) (TNF-alpha, IL-12p70, IFN-gamma, IL-2) and Th(2) (IL-10, IL-4 and IL-5) cytokine profiles were analyzed after stimulation of spleen cells from mice immunized with purified RF-412 protein. Similar to the antibody response, we observed that the rRF-412 immunogen induced a mixed Th(1)/Th(2) cytokine immune response with a Th(1)-bias response. Serum antibodies were capable of neutralizing RSV and mice immunized with rRF-412 were significantly protected from live RSV challenge. Our data provides evidence that the rRF-412 immunogen may be a potential mucosal vaccine candidate against RSV.     

Immunological responses induced by a DNA vaccine expressing RON4 and by immunogenic recombinant protein RON4 failed to protect mice against chronic toxoplasmosis

The development of an effective vaccine against Toxoplasma gondii infection is an important issue due to the seriousness of the related public health problems, and the economic importance of this parasitic disease worldwide. Rhoptry neck proteins (RONs) are components of the moving junction macromolecular complex formed during invasion. The aim of this study was to evaluate the vaccine potential of RON4 using two vaccination strategies: DNA vaccination by the intramuscular route, and recombinant protein vaccination by the nasal route. We produced recombinant RON4 protein (RON4S2) using the Schneider insect cells expression system, and validated its antigenicity and immunogenicity. We also constructed optimized plasmids encoding full length RON4 (pRON4), or only the N-terminal (pNRON4), or the C-terminal part (pCRON4) of RON4. CBA/J mice immunized with pRON4, pNRON4 or pCRON4 plus a plasmid encoding the granulocyte-macrophage-colony-stimulating factor showed high IgG titers against rRON4S2. Mice immunized by the nasal route with rRON4S2 plus cholera toxin exhibited low levels of anti-RON4S2 IgG antibodies, and no intestinal IgA antibodies specific to RON4 were detected. Both DNA and protein vaccination generated a mixed Th1/Th2 response polarized towards the IgG1 antibody isotype. Both DNA and protein vaccination primed CD4+ T cells in vivo. In addition to the production of IFN-γ, and IL-2, Il-10 and IL-5 were also produced by the spleen cells of the immunized mice stimulated with RON4S2, suggesting that a mixed Th1/Th2 type immune response occurred in all the immunized groups. No cytokine was detectable in stimulated mesenteric lymph nodes from mice immunized by the nasal route. Immune responses were induced by both DNA and protein vaccination, but failed to protect the mice against a subsequent oral challenge with T. gondii cysts. In conclusion, strategies designed to enhance the immunogenicity and to redirect the cellular response towards a Th1 type response against RON4 could lead to more encouraging results.     

Enhanced immune responses and protection by vaccination with respiratory syncytial virus fusion protein formulated with CpG oligodeoxynucleotide and innate defense regulator peptide in polyphosphazene microparticles

Although respiratory syncytial virus (RSV) is the leading cause of serious respiratory tract disease in children, to date no RSV vaccine is available. To produce an effective subunit vaccine, a truncated secreted version of the F protein (ΔF) was expressed in mammalian cells, purified and shown to form trimers. The ΔF protein was then formulated with a CpG oligodeoxynucleotide (ODN) and an innate defense regulator (IDR) peptide in polyphosphazene microparticles (ΔF-MP). Mice immunized either intramuscularly (IM) or intranasally (IN) with ΔF-MP developed significantly higher levels of virus-neutralizing antibodies in the sera and lungs, as well as higher numbers of IFN-γ secreting cells than mice immunized with the ΔF protein alone. In contrast, the IM delivered ΔF induced high production of IL-5 while the IN delivered ΔF did not elicit a measurable immune response. After RSV challenge, essentially no virus and no evidence of immunopathology were detected in mice immunized with ΔF-MP regardless of the route of delivery. While the mice immunized IM with ΔF alone also showed reduced virus replication, they developed enhanced levels of pulmonary IgE, IL-4, IL-5, IL-13 and eotaxin, as well as eosinophilia after challenge. The level of protection induced by the ΔF-MP formulation was equivalent after IM and IN delivery. The efficacy and safety of the ΔF-MP formulation was confirmed in cotton rats, which also developed enhanced immune responses and were fully protected from RSV challenge after vaccination with ΔF-MP. In conclusion, formulation of recombinant ΔF with CpG ODN and IDR peptide in polyphosphazene microparticles should be considered for further evaluation as a safe and effective vaccine against RSV.     

Immunogenicity of Plasmodium vivax merozoite surface protein-9 recombinant proteins expressed in E. coli

Merozoite surface protein-9 of Plasmodium vivax (PvMSP-9) is highly conserved and present in several malaria species. Here, we present the immunogenic properties of two recombinant glutathione S-transferase (GST) fusion proteins comprising the N-terminus (PvMSP-9-Nt) and the second block of tandem repeats (PvMSP-9-RepII) of PvMSP9. These recombinants proteins were used to immunize BALB/c mice. The specificity and subtyping of the antibodies and the cellular immune responses were evaluated by enzyme-linked immunosorbent assay (ELISA) and ELISPOT, respectively, using the recombinant proteins as antigens. Our results demonstrate that both the N-terminal and the tandem repeat regions of MSP9 are immunogenic in mice. The ELISA antibody titers elicited by PvMSP-9-Nt were significantly higher (1:819,200) than the antibody titers elicited by PvMSP-9-RII (1:409,600). Analysis of IgG subclasses showed that both recombinant proteins induce similar antibody patterns where IgG1, IgG2a and IgG2b were most predominant. Moreover, all sera from mice immunized with either PvMSP-9-Nt or PvMSP-9-RII, which were positive by ELISA showed reactivity with P. vivax, P. cynomolgi, P. knowlesi and P. coatneyi schizonts by immunofluorescence assays (IFA). Similar results were observed in western immunoblot analyses using parasite extracts. Furthermore, immunization of mice with the PvMSP-9-Nt upon stimulation with PvMSP-9-Nt secreted IFN-gamma and IL-5. We have also used the two PvMSP-9 recombinant constructs to show that individuals exposed to P. vivax infections in an endemic area of Brazil had IgG antibodies reactive with the recombinant proteins.     

Intranasal immunization with recombinant antigens associated with new cationic particles induces strong mucosal as well as systemic antibody and CTL responses

New cationic nanoparticles (SMBV) were evaluated for use as a nasal vaccine delivery system for two recombinant proteins: HBsAg and beta-galactosidase. Each protein was formulated with SMBV and intranasally administrated to non-anesthetized mice. In each model, the formulated protein induced high levels of specific serum IgG antibodies and cytotoxic T lymphocyte (CTL) responses. Moreover, specific IgA antibodies were found in nasal as well as in vaginal washes of intranasally immunized mice with the protein associated with SMBV. In contrast, no IgG or IgA antibodies and no CTL were detected in mice immunized with free protein. The detection of a CTL response and an increase in both IgG1 and IgG2a antibodies in serum suggest that SMBV amplifies both Th1 and Th2 responses without modifying the Th1/Th2 profile of the immune response induced by the natural protein. These data demonstrate the high potential of SMBV for use as a nasal delivery system for sub-unit vaccines.     

Soluble recombinant human metapneumovirus G protein is immunogenic but not protective

Human metapneumovirus (HMPV) expresses the major surface glycoproteins F and G. We evaluated the protective efficacy of immunization with G. We generated a recombinant form of G ectodomain (GΔTM) that was secreted from mammalian cells and purified by affinity chromatography. We tested the immunogenicity of GΔTM in cotton rats. Animals were immunized with PBS, GΔTM alone or adjuvanted, or were infected once with HMPV, and challenged with live HMPV at 28 days. Animals vaccinated with adjuvanted and non-adjuvanted GΔTM developed high levels of serum antibodies to both recombinant and native G protein; however, vaccinated animals did not develop neutralizing antibodies and were not protected against virus challenge. Unlike the analogous non-fusion glycoproteins of other human paramyxoviruses, HMPV G does not appear to be a protective antigen. This represents an unusual feature of HMPV.     

Immune stimulating activity of two new chitosan containing adjuvant formulations

Recombinant proteins have potential as both human and veterinary vaccine antigens, but they are often weakly immunogenic and immunization with recombinant proteins may not elicit a significant immune response that recognizes the native protein. This report describes the immune stimulating activity of two new adjuvant formulations, a zinc-chitosan particle formulation designed to bind to histidine tagged recombinant proteins; and an emulsion formulation containing chitosan. BALB/c mice vaccinated with formulations comprising recombinant beta-human chorionic gonadotropin (betahCG) and each adjuvant had prolonged high titer antibodies that recognized both the recombinant betahCG and native hCG. betahCG is an established target for immunocontraceptive vaccines and a potential target for tumor immunotherapy. Isotype analysis of these antibodies revealed an IgG1 response in mice immunized with zinc-chitosan particles and a mixed IgG1, IgG2a and IgG2b response with the emulsion. These chitosan based adjuvant formulations were effective in sensitizing mice and guinea pigs for antigen specific DTH responses, indicating that these adjuvants stimulate both B and T lymphocytes. The ability of these adjuvants to stimulate significant responses with a poorly immunogenic recombinant protein suggests that they may have potential in developing vaccines based on synthetic peptides and subunit antigens.     

Immunization with recombinant Lactobacillus casei strains producing K99, K88 fimbrial protein protects mice against enterotoxigenic Escherichia coli

To exploit a safe and effective vaccine for the prevention against K99 or K88 infections of enterotoxigenic Escherichia coli (ETEC), we have developed a mucosal delivery vehicle based on Lactobacillus casei CICC 6105 using poly-γ-glutamate synthetase A (PgsA) as an anchoring matrix. To evaluate the immunization effect of the recombinant strains (harboring plasmids pLA-K99-K88-LTB, pLA-K99, and pLA-K88), anti-ETEC K99 or K88 antibody responses, T-cell proliferation, and cytokines by intracellular staining (ICS) were investigated after specific pathogen-free (SPF) C57BL/6 mice orally inoculated with these recombinant strains. After oral vaccination into C57BL/6 mice, all recombinant strains were proved to be immunogenic and able to elicit high levels of mucosal immunoglobulin A (IgA) titers in bronchoalveolar lavage fluids, intestinal fluids and prominent systemic immunoglobulin G and IgG subclasses (IgG1, IgG2b, and IgG2a) responses in sera. Using the T-cell proliferation assay, the stimulation index (SI) of groups immunized with pLA-K99/L. casei and pLA-K88/L. casei reached to 2.73 and 2.64, respectively, versus 2.56 in a group immunized with pLA-K99-K88-LTB/L. casei. A detailed analysis of the cell-mediated immune responses by ICS showed the number of specific CD8(+) T cells expressing cytokines (IFN-γ, TNF-α, and IL-2) and granule-associated proteins (CD107a) was higher than that of specific CD4(+) T cells secreted by immune spleen cells upon restimulation in vitro with peptides. Next, the results showed that DCs activated in vitro with recombinant L. casei enhance specific T-cell proliferation and promote T cells to produce both Th1 and Th2 cytokines. More than 80% of the vaccinated mice were protected after challenge with a lethal dose of standard strains C83912 and C83902. These results demonstrate that recombinant L. casei can induce specific humoral and mucosal antibodies and cellular immune response against protective antigens upon oral administration.     

Evaluation of immune responses to a Plasmodium vivax CSP-based recombinant protein vaccine candidate in combination with second-generation adjuvants in mice

Plasmodium vivax is the major cause of malaria outside of sub-Saharan Africa and causes morbidity and results in significant economic impact in developing countries. In order to produce a P. vivax vaccine for global use, we have previously reported the development of VMP001, based on the circumsporozoite protein (CSP) of P. vivax. Our interest is to evaluate second-generation vaccine formulations to identify novel combinations of adjuvants capable of inducing strong, long-lasting immune responses. In this study, groups of C57BL/6J mice were immunized subcutaneously three times with VMP001 emulsified with synthetic TLR4 (GLA) or TLR7/8 (R848) agonist in stable emulsion (SE), a combination of the TLR4 and TLR7/8 agonists, or SE alone. Sera and splenocytes were tested for the presence of antigen-specific humoral and cellular responses, respectively. All groups of mice generated high titers of anti-P. vivax IgG antibodies as detected by ELISA and immunofluorescence assay. GLA-SE promoted a shift in the antibody response to a Th1 profile, as demonstrated by the change in IgG2c/IgG1 ratio. In addition, GLA-SE induced a strong cellular immune response characterized by multi-functional, antigen-specific CD4(+) T cells secreting IL-2, TNF and IFN-γ. In contrast, mice immunized with SE or R848-SE produced low numbers of antigen-specific CD4(+) T cells, and these T cells secreted IL-2 and TNF, but not IFN-γ. Finally, R848-SE did not enhance the immune response compared to GLA-SE alone. Based on these results, we conclude that the combination of VMP001 and GLA-SE is highly immunogenic in mice and may serve as a potential second-generation vaccine candidate against vivax malaria.     

Recombinant DNA vaccine of the early secreted antigen ESAT-6 by Mycobacterium tuberculosis and Flt3 ligand enhanced the cell-mediated immunity in mice

Cell-mediated immune (CMI) responses are crucial in the protection against tuberculosis. 6-kDa early secretary antigenic target (ESAT-6) is an important T-cell antigen recognized by protective T cells in animal models of infection with Mycobacterium tuberculosis. Flt3 ligand (FL) is a growth factor of dendritic cell (DC), which, as a powerful antigen presenting cell (APC), is essential for CMI response. In this study, we constructed a recombinant DNA vaccine encoding ESAT-6 and FL. The recombinants were identified by restriction enzyme digestion and sequence analysis. Subsequently, the recombinants were transfected into glomerular mesangial cells (GMCs) of rat. The expressed proteins were detected by Western blot. C57BL/6 female mice were immunized three times with the recombinant plasmids. The results showed that immunization with pIRES-ESAT-6 plasmid induced an obvious T-cell response compared with controls (mice immunized with PBS, pIRES or BCG). However, mice immunized with pIRES-ESAT-6-FL presented a more stronger T helper 1 (Th1)-biased response, accompanied by higher levels of lymphocytes proliferation, elevated production of Th1 cytokines (IFN-gamma and IL-2) by spleen cells, as well as increased specific antibody in sera, together with lower levels of Th2 cytokines (IL-4 and IL-10). Our results suggested that EAST-6 was a useful vaccine candidate and FL might be a powerful adjuvant, which could effectively promote T cell-mediated immune response.     

An insect cell derived respiratory syncytial virus (RSV) F nanoparticle vaccine induces antigenic site II antibodies and protects against RSV challenge in cotton rats by active and passive immunization

Post-infectious immunity to respiratory syncytial virus (RSV) infection results in limited protection as evidenced by the high rate of infant hospitalization in the face of high titer, maternally derived RSV-specific antibodies. By contrast, RSV fusion (F) glycoprotein antigenic site II humanized monoclonal antibodies, palivizumab and motavizumab, have been shown to reduce RSV-related hospitalization in infants. Immunogenicity and efficacy studies were conducted in cotton rats comparing a recombinant RSV F nanoparticle vaccine with palivizumab and controlled with live RSV virus intranasal immunization and, formalin inactivated RSV vaccine. Active immunization with RSV F nanoparticle vaccine containing an alum adjuvant induced serum levels of palivizumab competing antibody (PCA) greater than passive administration of 15 mg/kg palivizumab (human prophylactic dose) in cotton rats and neutralized RSV-A and RSV-B viruses. Immunization prevented detectable RSV replication in the lungs and, unlike passive administration of palivizumab, in the nasal passage of challenged cotton rats. Histology of lung tissues following RSV challenge showed no enhanced disease in the vaccinated groups in contrast to formalin inactivated ‘Lot 100’ vaccine. Passive intramuscular administration of RSV F vaccine-induced immune sera one day prior to challenge of cotton rats reduced viral titers by 2 or more log₁₀ virus per gram of lung and nasal tissue and at doses less than palivizumab. A recombinant RSV F nanoparticle vaccine protected lower and upper respiratory tract against both RSV A and B strain infection and induced polyclonal palivizumab competing antibodies similar to but potentially more broadly protective against RSV than palivizumab.     

Effects of IL-12 on immune responses induced by transcutaneous immunization with antigens formulated in a novel lipid-based biphasic delivery system

The development of non-invasive methods for the delivery of proteins through the permeability barriers, such as the intact skin, will greatly facilitate the administration of human and veterinary vaccines. In the present study we used recombinant Pasteurella haemolytica leukotoxin (Lkt) and hen egg lysozyme (HEL) as model antigens to investigate the ability of transdermal administration of vaccine antigens to induce humoral and cellular responses in mice and to assess the immunomodulatory effects of IL-12 on these antigen-specific immune responses. Mice were immunized by the transdermal route with Lkt or HEL formulated in a novel lipid-based biphasic delivery system (BPDS). Transdermal delivery of Lkt or HEL induced strong polarized Th2 responses characterized by enhancement of antigen-specific IgG1 antibody subclass and predominant induction of antigen specific IL-4 over IFN-gamma in spleen and draining lymph nodes cells. Animals immunized by topical application of formulations containing antigen and IL-12 developed significantly lower antibody titres without significant changes in IL-4 or IFN-gamma secreting cells (SC) in the draining lymph nodes or spleen cells. Our results indicated that application of antigens formulated in BPDS induced antigen-specific immune responses. Furthermore, incorporation of IL-12 to the vaccine formulation influences the induction of antibody responses induced by transdermal immunization. We demonstrated the feasibility of using this technology for the development of non-invasive methods of vaccine administration.     

Immunization with a DNA vaccine cocktail induces a Th1 response and protects mice against Mycobacterium avium subsp. paratuberculosis challenge

Several antigens of Mycobacterium avium subsp. paratuberculosis have been studied as vaccine components and their immunogenicity has been evaluated. Previously, we reported that 85 antigen complex (85A, 85B, and 85C), superoxide dismutase (SOD), and 35kDa protein could induce significant lymphocyte proliferation as well as the elaboration of Th1-associated cytokines including interferon gamma (IFN-gamma), interleukin-2 (IL-2), IL-12 and tumor necrosis factor alpha (TNF-alpha). Based on these results, we cloned and expressed 85A, 85B, 85C, SOD, and 35kDa-protein genes into the eukaryotic expression plasmid pVR1020. C57BL/6 mice were immunized three times intramuscularly with the recombinant DNA cocktail and pVR1020 DNA alone as control. A significant reduction in the bacterial burden in the spleen and liver of mice immunized with the DNA cocktail as compared to the vector control group was found. Also, the relative severity of the liver and spleen histopathology paralleled the MAP culture results, more granulomas and acid-fast bacilli in the vector control animals. Moreover, mice immunized with the DNA cocktail developed both CD4(+) and CD8(+) T cell responses to the recombinant antigens and showed significant lymphocyte proliferation. The Th1 response related cytokine (IFN-gamma) levels increased in splenocytes obtained from immunized animals. These results indicate that the use of a recombinant DNA vaccine can provide protective immunity against mycobacterial infection by inducing a Th1 response.     

Intranasal administration of a recombinant adenovirus expressing the norovirus capsid protein stimulates specific humoral, mucosal, and cellular immune responses in mice

Norovirus (NV) is a major cause of acute, epidemic nonbacterial gastroenteritis in individuals of all ages. The immunological mechanism of NV infection and the approaches used to prevent infection remain to be elucidated. In this study, the specific immune responses of BALB/c mice were assessed following intranasal immunization with a recombinant adenovirus vector expressing the genogroup II4 (GGII/4) norovirus capsid protein. Analysis of IgM, IgG, and IgA antibodies specific for the recombinant virus-like particles (VLPs) of NV demonstrated that a high level of humoral immunity developed following immunization. Mucosal immune responses were also detectable in stool, intestinal homogenates, lung homogenates, and lung lavage samples. Specific cellular immune responses were observed in NV VLPs-restimulated splenocytes by ELISPOT and Th1/Th2 cytokine cytometric array (CBA). Serum IgG subclass analysis showed that a balanced Th1- and Th2-like cellular immune response was induced in BALB/c mice following immunization with recombinant adenovirus. These findings demonstrate that the intranasal immunization of a recombinant adenovirus expressing the NV capsid protein is an efficient strategy to stimulate systemic, mucosal, and cellular Th1/Th2 immune responses in mice, and could serve as a novel approach for designing NV vaccines.     

Long-lasting balanced immunity and protective efficacy against respiratory syncytial virus in mice induced by a recombinant protein G1F/M2

Respiratory syncytial virus (RSV) is the primary cause of serious lower respiratory tract illness in young children. We have engineered a recombinant candidate vaccine G1F/M2, consisting of a cytotoxic T lymphocyte (CTL) epitope of RSV-M2 protein and a domain of RSV-G protein. In this study, the long-term immunogenicity and protective effect were evaluated. In G1F/M2-immunized mice, special antibodies lasted for more than 19 weeks, and the IgG1/IgG2a ratio remained a balanced level till the end of the study, suggesting mixed Th1/Th2 type of responses. Concomitantly, G1F/M2 elicited long-lived RSV-specific CTL activity that was detectable at 12 weeks after the final immunization. Stronger CTL responses were induced with immunization once more at 13 weeks after the last immunization in G1F/M2-primed mice than those in F/M2-primed mice. These results suggest that G1F/M2-induced long-lasting balanced humoral and cellular immunity responses, and immunological memory in mice. Furthermore, following RSV challenge, long-term protective efficacy was observed. RSV replication in lungs of G1F/M2-primed mice elicited also mixed Th1/Th2 responses, a property that is considered advantageous for the safety of an RSV vaccine. Therefore, G1F/M2 is a promising RSV subunit vaccine.     

Ginseng stem-leaf saponins (GSLS) and mineral oil act synergistically to enhance the immune responses to vaccination against foot-and-mouth disease in mice

Saponins extracted from ginseng stems and leaves (GSLS) as well as the synergistic effect between GSLS and oil emulsion were investigated for their adjuvant effects on the immune responses of mice to vaccination against foot-and-mouth disease virus (FMDV) serotype Asia 1. In experiment A, ICR mice were subcutaneously immunized twice with FMDV antigen with or without GSLS (0, 1, 5, 10 and 20 microg) at 3 week intervals. Highest FMDV-specific IgG level was observed 2 weeks after the boosting in mice immunized with FMDV antigen plus 10 microg of GSLS. In experiment B, mice were subcutaneously injected with FMDV antigen with or without GSLS (10 microg), or in oil emulsion with or without GSLS (10 microg) on days 1 and 21. Results indicated that when co-administered with a mixture of oil and GSLS, FMDV antigen induced significantly higher IgG titer and IgG1, IgG2a, IgG2b and IgG3 responses, production of IFN-gamma (Th1 cytokine) and IL-5 (Th2 cytokine) by splenocytes, as well as T and B lymphocyte proliferation in response to Con A and LPS than when FMDV antigen was used alone or mixed with either GSLS or oil. This suggests that GSLS and oil adjuvant synergistically promote both Th1 and Th2 immune responses. As protection against FMDV requires both cellular and humoral immune responses, the combined effects of GSLS and oil deserve further study in other animals such as cattle and pigs in order to induce effective immunity against FMDV infection.