Induction of protective immunity by vaccination against Chlamydia trachomatis using the major outer membrane protein adjuvanted with CpG oligodeoxynucleotide coupled to the nontoxic B subunit of cholera toxin

The present study was undertaken to test the efficacy of immunization with the native major outer membrane protein (nMOMP) of Chlamydia trachomatis mouse pneumonitis (MoPn) serovar in combination with a novel immunostimulatory adjuvant consisting of CpG oligodeoxynucleotide (ODN) linked to the nontoxic B subunit of cholera toxin (CTB-CpG) to elicit a protective immune response to C. trachomatis. High levels of Chlamydia-specific IgG antibodies were detected in the sera from BALB/c mice immunized intramuscularly and subcutaneously (i.m. + s.c.) with the nMOMP/CTB-CpG vaccine or with nMOMP adjuvanted with a mixture of CT and CpG ODN (CT + CpG). Further, these immunization schemes gave rise to significant T-cell-mediated Chlamydia-specific immune responses. No Chlamydia-specific humoral or cell-mediated immune responses were detected in the control mice vaccinated with ovalbumin together with either CTB-CpG or CT + CpG. Following an intranasal challenge with C. trachomatis the groups of mice immunized with nMOMP plus CTB-CpG, CT + CpG or live C. trachomatis were found to be protected based on their change in body weight and lung weight as well as number of inclusion forming unit recovered from the lungs, as compared with control groups immunized with ovalbumin plus either adjuvants. Interestingly, IFN-γ-producing CD4⁺, but not CD8⁺, T-cells showed a significant correlation with the outcomes of the challenge. In conclusion, nMOMP in combination with the novel adjuvant CTB-CpG elicited a significant antigen-specific antibody and cell-mediated immune responses as well as protection against a pulmonary challenge with C. trachomatis.     

Enhancement of the protective efficacy of a Chlamydia trachomatis recombinant vaccine by combining systemic and mucosal routes for immunization

Chlamydia trachomatis causes respiratory and sexually transmitted infections. Here, we tested a vaccine formulated with the recombinant major outer membrane protein from C. trachomatis mouse pneumonitis (CT-MoPn) for its ability to protect mice against an intranasal (i.n.) challenge. The adjuvants CpG and Montanide were used for systemic routes, intramuscular (i.m.) and subcutaneous (s.c.), and cholera toxin for mucosal routes, sublingual (s.l.) and colonic (c.l.). Mucosal immunizations were performed either alone or in combination with systemic routes. Mice inoculated i.n. with 10⁴ inclusion-forming units (IFU) of CT-MoPn served as a positive control and the Neisseria gonorrhoeae recombinant porin B (Ng-rPorB) as the negative antigen control. Immunized animals were challenged i.n. with 10⁴ IFU of CT-MoPn. Following immunization the combination groups showed high chlamydial serum IgG titers (s.l. + i.m. + s.c. 25,600; c.l + i.m. + s.c. 102,400) and the IgG2a/IgG1 ratios indicated a Th1 response. Following the i.n. challenge the s.l. + i.m. + s.c. group showed the best protection as demonstrated by an increase in body weight of 0.3% over the 10 day course of infection. A statistically significant difference was found when compared with the Ng-rPorB immunized animals that had lost 20% of their original body weight (P < 0.05). In addition, the repeated measures ANOVA test showed significant difference in body weight change for the combined immunized groups vs their mucosal counterparts and also the systemic immunized group. A statistically significant difference (P < 0.05) was also observed in the number of IFUs recovered from the lungs when the s.l. + i.m. + s.c. (2.8 × 10⁶) and c.l. + i.m. + s.c. (3.4 × 10⁶) groups were compared to their respective mucosal only groups (s.l.: 61.9 × 10⁶ and c.l: 136.2 × 10⁶) and the control Ng-rPorB immunized mice (198.2 × 10⁶) (P < 0.05). In conclusion, a combined systemic plus mucosal vaccination provides better protection against a respiratory challenge with C. trachomatis than either systemic or mucosal immunizations alone.     

Protective immunity against Chlamydia trachomatis genital infection induced by a vaccine based on the major outer membrane multi-epitope human papillomavirus major capsid protein L1

The administration of an efficacious vaccine is the most effective long-term measure to control the genital tract infection caused by Chlamydia trachomatis (Ct) in humans. The current challenge for Ct vaccine development is to develop an effective delivery vehicle for induction of a high level of mucosal T and complementary B cell responses. We evaluated the immunogenicity and efficacy of a candidate vaccine comprising the major outer membrane protein (MOMP) multiepitope of Ct delivered with the human papillomavirus (HPV) major capsid protein L1 as a vehicle with adjuvant properties, in a murine model of chlamydial genital infection. A recombinant plasmid pcDNA3.1(+) containing mammalian codon-optimization HPV6b L1 gene and Ct MOMP multiepitope was constructed. The Ct MOMP multiepitope containing T- and B-cell epitope-rich peptides was inserted into C-terminal of HPV6b L1-coding sequence. The constructed plasmid after verified by enzyme restriction assay and DNA sequencing was transfected into COS-7 cells. Expression of the chimeric gene in COS-7 cells was confirmed by RT-PCR, Western blot analysis and immunofluorescence assay. Results revealed successful expression of the chimeric HPV6b L1/Ct MOMP multiepitope gene both at the mRNA and protein levels in transfected COS-7 cells. Intramuscular (IM) administration in mice was able to elicit not only antibodies against Ct MOMP, but also Th1 and cytotoxic T lymphocyte activity against the Ct MOMP epitopes. In addition, recipients of IM immunization of HPV6b L1/Ct MOMP multiepitope were highly resistant to infection. Altogether, the results suggested that IM delivery of HPV6b L1-MOMP multiepitope may be a suitable vaccine regimen potentially capable of inducing protective mucosal immunity against Ct infection.     

Identification of immunodominant antigens of Chlamydia trachomatis using proteome microarrays

Chlamydia trachomatis is the most common bacterial sexually transmitted pathogen in the world. In order to control this infection there is an urgent need to formulate a vaccine. Identification of protective antigens is required to implement a subunit vaccine. To identify potential antigen vaccine candidates, three strains of mice, BALB/c, C3H/HeN and C57BL/6, were inoculated with live and inactivated C. trachomatis mouse pneumonitis (MoPn) by different routes of immunization. Using a protein microarray, serum samples collected after immunization were tested for the presence of antibodies against specific chlamydial antigens. A total of 225 open reading frames (ORF) of the C. trachomatis genome were cloned, expressed, and printed in the microarray. Using this protein microarray, a total of seven C. trachomatis dominant antigens were identified (TC0052, TC0189, TC0582, TC0660, TC0726, TC0816 and, TC0828) as recognized by IgG antibodies from all three strains of animals after immunization. In addition, the microarray was probed to determine if the antibody response exhibited a Th1 or Th2 bias. Animals immunized with live organisms mounted a predominant Th1 response against most of the chlamydial antigens while mice immunized with inactivated Chlamydia mounted a Th2-biased response. In conclusion, using a high throughput protein microarray we have identified a set of novel proteins that can be tested for their ability to protect against a chlamydial infection.     

Immunogenicity of a vaccine formulated with the Chlamydia trachomatis serovar F, native major outer membrane protein in a nonhuman primate model

To determine the ability of a vaccine formulated with the genital Chlamydia trachomatis, serovar F, native major outer membrane protein (Ct-F-nMOMP), to induce systemic and mucosal immune responses, rhesus macaques (Macaca mulatta) were immunized three times by the intramuscular (i.m.) and subcutaneous (s.c.) routes using CpG-2395 and Montanide ISA 720 VG, as adjuvants. As controls, another group of M. mulatta was immunized with ovalbumin instead of Ct-F-nMOMP using the same formulation and routes. High levels of Chlamydia-specific IgG and IgA antibodies were detected in plasma, vaginal washes, tears, saliva, and stools from the Ct-F-nMOMP immunized animals. Also, high neutralizing antibody titers were detected in the plasma from these animals. Monkeys immunized with ovalbumin had no detectable Chlamydia-specific antibodies. Furthermore, as measured by a lymphoproliferative assay, significant Chlamydia-specific cell-mediated immune responses were detected in the peripheral blood mononuclear cells (PBMC) from the rhesus macaques vaccinated with Ct-F-nMOMP when compared with the animals immunized with ovalbumin. In addition, the levels of two Th1 cytokines, IFN-γ and TNF-α, were significantly higher in the animals immunized with Ct-F-nMOMP when compared with those from the monkeys immunized with ovalbumin. To our knowledge, this is the first time that mucosal and systemic immune responses have been investigated in a nonhuman primate model using a subunit vaccine from a human genital C. trachomatis serovar.     

Characterization of protective immune responses promoted by human antigen targets in a urogenital Chlamydia trachomatis mouse model

A vaccine against genital tract infections caused by Chlamydia trachomatis is urgently needed. We have previously identified a number of immunodominant human T- and/or B-cell antigen targets in patients with a C. trachomatis infection. Herein we use a urogenital C. trachomatis mouse model to investigate the protective efficacy of these antigens. C3H/HeN mice were immunized with recombinant antigens formulated in the adjuvant CAF01. Immunity post vaccination was analyzed and the protective efficacy against vaginal challenge with C. trachomatis was monitored by vaginal swabbing. All antigens elicited a significant immune response when administered in CAF01 but the balance between CMI and humoral responses differed markedly for the different antigens. Six (CT443, CT043, CT858, CT610, CT004 and CT681) antigens were found to be protective. We demonstrated by T-cell depletion studies that the protection promoted by the two antigens CT043 and CT004 was mediated by CD4⁺ T-cells. Both antigens are frequently recognized by T-cells during a natural Chlamydia infection in humans and if included in a future multi-component Chlamydia vaccine probably would operate mainly through the induction of a CMI response.     

Heat denatured enzymatically inactive recombinant chlamydial protease-like activity factor induces robust protective immunity against genital chlamydial challenge

We have shown previously that vaccination with recombinant chlamydial protease-like activity factor (rCPAF) plus interleukin-12 as an adjuvant induces robust protective immunity against primary genital Chlamydia muridarum challenge in mice. Since CPAF is a protease, we compared the effects of enzymatically active and inactive (heat denatured) rCPAF to determine whether proteolytic activity is expendable for the induction of protective immunity against chlamydial challenge. Active, but not inactive, rCPAF immunization induced high levels of anti-active CPAF antibody, whereas both induced robust splenic CPAF-specific IFN-γ production. Vaccination with active or inactive rCPAF induced enhanced vaginal chlamydial clearance as early as day 6 with complete resolution of infection by day 18, compared to day 30 in mock-vaccinated and challenged animals. Importantly, significant and comparable reductions in oviduct pathology were observed in active and inactive rCPAF-vaccinated mice compared to mock-vaccinated animals. Thus, rCPAF induced anti-chlamydial immunity is largely independent of enzymatic activity and secondary or higher order protein conformation.     

Evaluation of a multisubunit recombinant polymorphic membrane protein and major outer membrane protein T cell vaccine against Chlamydia muridarum genital infection in three strains of mice

An efficacious vaccine is needed to control Chlamydia trachomatis infection. In the murine model of Chlamydia muridarum genital infection, multifunctional mucosal CD4 T cells are the foundation for protective immunity, with antibody playing a secondary role. We previously identified four Chlamydia outer membrane proteins (PmpE, PmpF, PmpG and PmpH) as CD4 T cell vaccine candidates using a dendritic cell-based immunoproteomic approach. We also demonstrated that these four polymorphic membrane proteins (Pmps) individually conferred protection as measured by accelerated clearance of Chlamydia infection in the C57BL/6 murine genital tract model. The major outer membrane protein, MOMP is also a well-studied protective vaccine antigen in this system. In the current study, we tested immunogenicity and protection of a multisubunit recombinant protein vaccine consisting of the four Pmps (PmpEFGH) with or without the major outer membrane protein (MOMP) formulated with a Th1 polarizing adjuvant in C57BL/6, Balb/c and C3H mice. We found that C57BL/6 mice vaccinated with PmpEFGH + MOMP elicited more robust cellular immune responses than mice immunized with individual protein antigens. Pmps elicited more variable cellular immune responses than MOMP among the three strains of mice. The combination vaccine accelerated clearance in the three strains of mice although at different rates. We conclude that the recombinant outer membrane protein combination constitutes a promising first generation Chlamydia vaccine construct that should provide broad immunogenicity in an outbred population.     

CD4 T cells reduce the tissue burden of Chlamydia muridarum in male BALB/c mice

Male chlamydial infections are becoming more recognised as an aetiological agent in infertility. An IFN-γ response is required for protection against Chlamydia in females, but may have the potential to induce pathology in the immune-privileged male reproductive tract. We examined the induction of immunity following intranasal immunisation with major outer membrane protein (MOMP) of Chlamydia muridarum in male BALB/c mice, and the role of MOMP-specific CD4⁺ T cells in clearance of an intrapenile infection. Here we report that adoptive transfer of MOMP-specific CD4⁺ T cells into naïve mice confers partial protective immunity, which significantly reduces the tissue burden of Chlamydia.     

沙眼衣原体主要外膜蛋白多表位基因的免疫原性研究

目的 构建包含沙眼衣原体(Chlamydia trachomatis,Ct)主要外膜蛋白(major outermembrsne protein,MOMP)多表位基因的真核表达质粒PcDNA3.1-Ct MOMP168,检测其诱导BALB/c小鼠产生Ct MOMP特异性体液和细胞免疫反应的水平.方法 构建包含Ct MOMP多表位基因的重组质粒PcDNA3.1-Ct MOMP168并以肌肉注射方式免疫BALB/c小鼠,同时设置pcDNA3.1组和PBS组对照(每组12只,每只100μg/次).采用酶联免疫吸附试验(ELISA)、乳酸脱氢酶释放法及细胞内细胞因子染色-流式细胞术(ICS-FACS)分别检测免疫小鼠血清中Ct MOMP特异性抗体的滴度及其抗体亚型、脾脏中细胞毒性T淋巴细胞(CTL)的杀伤活性及特异性分泌细胞因子,如γ-干扰素-(IFN-γ)、白细胞介素-4(IL-4)、白细胞介素-10(IL-10)等的CD3+T细胞的水平.结果 同pcDNA3.1(A490=0.180±0.025)和PBS免疫(A490=0.110±0.015)相比,PcDNA3.1-Ct MOMP168免疫可刺激小鼠产生高效价Ct特异性IgG抗体(A490=0.973±0.136;血清滴度1:1000),且抗体亚型以IgG2a为主,差异有统计学意义(F=106.884,P<0.05);pcDNA3.1-Ct MOMP168免疫组小鼠脾细胞中CTL杀伤活性(41.71%±8.34%)高于pcDNA3.1组(18.40%±3.45%)和PBS组(14.50%±2.42%),差异有统计学意义(F=22.315,P<0.05;效靶比为50:1);pcDNA3.1-Ct MOMP168免疫组小鼠的脾细胞中Ct MOMP特异性CD3+IFN-γ+T细胞的水平(1.15%±0.16%)高于pcDNA3.1组(0.12%±0.08%)和PBS组(0.09%±0.03%),差异有统计学意义(F=99.638,P<0.05),而PcDNA3.1-CtMOMP168组IL-4+CD3+T细胞(0.13%±0.08%)和IL-10+CD3+T细胞(0.14%±0.08%)的水平与pcDNA3.1(0.07%±0.05%,0.13%±0.06%)和PBS(0.08%±0.04%,0.07%±0.04%)组比较差异无统计学意义(F值分别为0.886、1.112,P值均>0.05).结论pcDNA3.1-Ct MOMP168重组质粒能诱导BALB/c小鼠产生Ct MOMP特异性的体液免疫和细胞免疫应答.     

Protection of pigs against Chlamydia trachomatis challenge by administration of a MOMP-based DNA vaccine in the vaginal mucosa

Plasmid DNA (pWRG7079::MOMP) expressing the major outer membrane protein of a human Chlamydia trachomatis serovar E strain was tested for the ability to induce an immune response and protect against experimental genital infection with the same serovar. The vaccine was tested in pigs, as they are genetically and physiologically related to humans and suitable for studying C. trachomatis infection of the genital system. To increase the immune response, GM-CSF, LTA and B and CpG motives were used as adjuvants. GM-CSF was administered seven days before immunization, while the other adjuvants were administered together with the vaccine. Ten pigs were randomly divided into two groups. One group received an intravaginal primo-vaccination and a booster of 500 μg pWRG7079::MOMP, while the other group received the placebo vaccine pWRG7079. All animals were challenged with 10⁸ TCID₅₀ of C. trachomatis serovar E. Pigs immunized with the DNA vaccine showed significantly less macroscopic lesions, vaginal excretion and chlamydial replication in the genital tract, as compared to placebo-vaccinated controls. However, infection could not be completely cleared.     

Amphipols stabilize the Chlamydia major outer membrane protein and enhance its protective ability as a vaccine

The native major outer membrane protein (nMOMP) from Chlamydia was purified in its trimeric form using the zwitterionic detergent Z3-14. In aliquots from this preparation, Z3-14 was exchanged for amphipol (APol) A8-35. CD analysis showed that trapping with A8-35 improved the thermostability of nMOMP without affecting its secondary structure. Recombinant MOMP (rMOMP) was also formulated with Z3-14 or A8-35. Four groups of mice were vaccinated with nMOMP/Z3-14, nMOMP/A8-35, rMOMP/Z3-14 or rMOMP/A8-35 using CpG and Montanide as adjuvants. A positive control group was inoculated intranasally with live Chlamydia and a negative control group with culture medium. Mice were challenged intranasally with live Chlamydia and protection was assessed based on changes in body weight, the weight of the lungs and the number of chlamydial inclusion forming units recovered from the lungs 10 days after the challenge. Overall, vaccines formulated with nMOMP elicited better protection than those using rMOMP. Furthermore, the protection afforded by nMOMP/A8-35 was more robust than that achieved with nMOMP/Z3-14. In contrast, no differences in protection were observed between rMOMP/Z3-14 and rMOMP/A8-35 preparations. These findings suggest that the higher protection conferred by nMOMP/A8-35 complexes most likely results from a better preservation of the native structure of MOMP and/or from a more efficient presentation of the antigen to the immune system, rather than from an adjuvant effect of the amphipol. Thus, amphipols can be used in vaccine formulations to stabilize a membrane-protein component and enhance its immunogenicity.     

A chlamydial type III-secreted effector protein (Tarp) is predominantly recognized by antibodies from humans infected with Chlamydia trachomatis and induces protective immunity against upper genital tract pathologies in mice

Chlamydia trachomatis genome is predicted to encode a type III secretion system consisting of more than 40 open reading frames (ORFs). To test whether these ORFs are expressed and immunogenic during chlamydial infection in humans, we expressed 55 chlamydial ORFs covering all putative type III secretion components plus control molecules as fusion proteins and measured the reactivity of these fusion proteins with antibodies from patients infected with C. trachomatis in the urogenital tract (24 antisera) or in the ocular tissue (8 antisera). Forty-five of the 55 proteins were recognized by at least 1 of the 32 human antisera, suggesting that these proteins are both expressed and immunogenic during chlamydial infection in humans. Tarp, a putative type III secretion effector protein, was identified as a novel immunodominant antigen due to its reactivity with the human antisera at high frequency and titer. The expression and immunogenicity of Tarp were confirmed in cell culture and mouse systems. Tarp was mainly associated with the infectious form of chlamydial organisms and became undetectable between 13 and 24 h during the infection cycle in cell culture. Mice intravaginally infected with C. muridarum developed Tarp-specific humoral and cellular immune responses. More importantly, immunization of mice with Tarp induced Th1-dominant immunity that significantly reduced the shedding of live organisms from the lower genital tract and attenuated inflammatory pathologies in the fallopian tube tissues. These observations have demonstrated that Tarp, an immunodominant antigen identified by human antisera, can induce protective immunity against chlamydial infection and pathology in mice.     

Purification and characterization of an immunogenic outer membrane protein of Shigella flexneri 2a

In the present study we purified 34 kDa major outer membrane protein (MOMP) of Shigella flexneri 2a for the first time, which was cross-reactive and antigenically conserved among Shigella spp. and the epitope was surface exposed on the intact bacterium. The purified antigen was found to be glycosylated, which aids in binding to macrophages and up-regulated the production of nitric oxide, granulocyte-colony stimulating factor and IL-12p70, indicating that the MOMP is immunogenic and has the ability to commence protective immune responses against intracellular pathogens, thereby it may be considered as a potential vaccine candidate.     

Protection of pigs against genital Chlamydia trachomatis challenge by parenteral or mucosal DNA immunization

The current study evaluates combined aerosol-vaginal delivery of a MOMP-based Chlamydia trachomatis (serovar E) DNA vaccine in a pig genital challenge model. Most non-replicating antigens are rather poor mucosal immunogens in comparison to replicating antigens. Therefore, a mucosal administered DNA vaccine, which actually mimics a live vaccine, could be promising. Protection was promoted by plasmids encoding the porcine granulocyte macrophage-colony stimulating factor (pcDNA3.1zeo::GM-CSF), the Escherichia coli thermo-labile enterotoxin (LT) subunit A (plasmid PJV2004::LTa) and subunit B (plasmid PJV2005::LTb). Mucosal C. trachomatis DNA vaccination induced significant protection against genital C. trachomatis challenge although the infection could not be eradicated. Intradermal immunization was significantly less efficient in protecting experimentally infected pigs. Protection was correlated with efficient T cell priming and significantly higher serum IgA titers following primo vaccination.     

Protective immunity against Toxoplasma challenge in mice by coadministration of T. gondii antigens and Eimeria profilin-like protein as an adjuvant

Toll-like receptor (TLR) ligands are attractive adjuvant candidates in vaccine development. Eimeria tenella profilin-like protein has recently been shown to be a potent agonist of the innate immune system through its recognition by Toll-like receptor-11. In this report, we studied the systemic and mucosal adjuvant activity of Eimeria profilin-like protein within a vaccinal strategy against Toxoplasma gondii in mice. Using intraperitoneal (i.p.) immunization, we observed that coadministration of the recombinant Eimeria antigen (rEA) with T. gondii antigen (TAg) effectively elevates plasma levels of IL-12p70 and consequently induced both enhanced specific humoral and Th1 cellular immune responses. The co-administration of TAg plus rEA by i.p route significantly enhanced the protection against T. gondii infection (62% brain cyst reduction) in comparison with control mice and with mice immunized with TAg alone (only 36% brain cyst reduction). After intranasal immunization, humoral and cellular responses were weak. However mice immunized nasally with TAg plus rEA were significantly protected with 50% of brain cyst reduction, conversely TAg immunized mice did not present any brain cyst reduction.These results indicate that Eimeria profilin-like protein would serve as an efficacious systemic and mucosal adjuvant inducing protective immune response against chronical stage of T. gondii infection through TLR11 activation.     

Recombinant Mycobacterium smegmatis mc155 vaccine expressing outer membrane protein 26 kDa antigen affords therapeutic protection against Helicobacter pylori infection

Orally administered recombinant Mycobacterium smegmatis (rM. smegmatis) vaccines represent an attractive option for mass vaccination programmes against various infectious diseases. Therefore, in the present study, we evaluated the capacity of the outer membrane protein 26 kDa antigen (Omp26) of Helicobacter pylori (H. pylori) to induce therapeutic protection against H. pylori infection in mice. Omp26 was cloned and expressed in M. smegmatis mc²155 as a fusion with the Mycobacterium fortuitum β-lactamase protein under the control of the up-regulated M. fortuitum β-lactamase promoter, pBlaF*. The rM. smegmatis strain was shown to be relatively stable in vitro in terms of plasmid stability and bacterial persistence. We found that oral immunization of H. pylori-infected mice with rM. smegmatis-Omp26 induced protection, i.e., significant reduction in bacterial colonization in the stomach. The protection was strongly related to serum specific antibodies with a Th₁ and Th₂ profile as well as to local cytokines in the stomach and spleen. These findings suggest that Omp26 is a promising vaccine candidate antigen for use in a therapeutic vaccine against H. pylori. The rM. smegmatis expressing Omp26 antigen could constitute an effective, low-cost combined vaccine against H. pylori.     

Immunogenicity of highly conserved recombinant VacJ outer membrane lipoprotein of Pasteurella multocida

Bacterial lipoproteins are emerging targets for inducing protective immunity against many infectious diseases. VacJ is a highly conserved and widely distributed outer membrane lipoprotein of Pasteurella multocida strains, which are known to affect a wide range of domestic as well as wild animals and birds. In the present study, the gene encoding for mature VacJ outer membrane lipoprotein of P. multocida serogroup B:2 strain P52 was cloned and over-expressed in Escherichia coli as a fusion protein. The purified recombinant VacJ protein (∼44 kDa) was used for immunizing mice (6/group) along with adjuvants (FCA and alum) in two experiments. Immunization of mice with rVacJ (30 μg and 75 μg/mice) elicited humoral immune response with significant (P < 0.01) rise in antigen-specific titers of IgG and its subtypes (IgG1 and IgG2a). No protection was noticed in mice immunized with rVacJ (30 μg) along with FCA followed by challenge with 100 LD₅₀ of the homologous strain. On the contrary, higher rVacJ dose (75 μg) along with FCA and alum provided 66.7% and 50% protection respectively, at reduced challenge dose (8 LD₅₀). The study indicated that a lipidated recombinant VacJ lipoprotein with suitable adjuvants could potentially act as candidate antigen for vaccine development against pasteurellosis in livestock.     

A TLR2 agonist is a more effective adjuvant for a Chlamydia major outer membrane protein vaccine than ligands to other TLR and NOD receptors

Chlamydia trachomatis (Ct) is the most common sexually transmitted bacterial pathogen in the World and there is an urgent need for a vaccine to prevent these infections. To determine what type of adjuvant can better enhance the immunogenicity of a Chlamydia vaccine, we formulated the recombinant major outer membrane protein (Ct-rMOMP) with several ligands for Toll-like receptors (TLR) and the nucleotide-binding oligomerization domain (NOD) including Pam₂CSK₄ (TLR2/TLR6), Poly (I:C) (TLR3), monophosphoryl lipid A (TLR4), flagellin (TLR5), imiquimod R837 (TLR7), imidazoquinoline R848 (TRL7/8), CpG-1826 (TLR9), M-Tri-_DAP (NOD1/NOD2) and muramyldipeptide (NOD2). Groups of female BALB/c mice were immunized intramuscularly (i.m.) three times with the Ct-rMOMP and each one of those adjuvants. Four weeks after the last immunization the mice were challenged intranasally (i.n.) with 10⁴C. trachomatis mouse pneumonitis (MoPn) inclusion forming units (IFU). As negative antigen control, mice were immunized with the Neisseria gonorrhoeae recombinant porin B (Ng-rPorB) and the same adjuvants. As a positive vaccine control, mice were inoculated i.n. with 10⁴ IFU of MoPn. The humoral and cell mediated immune responses were determined the day before the challenge. Following the challenge the mice were weighed daily and, at 10 days post-challenge (p.c.), they were euthanized, their lungs weighted and the number of IFU in the lungs counted. As determined by the IgG2a/IgG1 ratio in the sera, mice immunized with Ct-rMOMP + Pam₂CSK₄ showed a strong Th2 biased humoral immune response. Furthermore, these mice developed a robust cellular immune response with high Chlamydia-specific T cell proliferation and levels of IFN-γ production. In addition, based on changes in body weight, weight of the lungs and number of IFU recovered from the lungs, the mice immunized with Ct-rMOMP + Pam₂CSK₄, were better protected against the i.n. challenge than any group of mice immunized with Ct-rMOMP and the other adjuvants. In conclusion, Pam₂CSK₄ should be evaluated as a candidate adjuvant for a C. trachomatis vaccine.