Immunoprophylaxis of multi-antigen peptide (MAP) vaccine for human lymphatic filariasis.

Human lymphatic filariasis, the parasitic disease caused by the filarial nematodes Wuchereria bancrofti, Brugia malayi, and Brugia timori, is ranked as the second most complex clinical condition leading to permanent and long-term disability. The multiple antigen peptide (MAP) approach is an effective method to chemically synthesize and deliver multiple T and B cell epitopes as the constituents of a single immunogen. Here, we report on the design, chemical synthesis, and immunoprophylaxis of three epitopes that have been identified from promising vaccine candidates reported in our previous studies, constructed as MAP on an inert lysine core for human lymphatic filariasis in Jird model. Two epitopes from Thioredoxin and one epitope from Transglutaminase were constructed as MAP in an inert lysine core. The immunoprophylaxis of the synthetic vaccine construct studied in Jird models showed protective antibody (1 in 64,000 titer) and cellular immune response. Thioredoxin-Transglutaminase MAP (TT MAP) conferred a significantly high protection of 63.04% compared to control (8.5%). Multi-antigen peptide vaccine is one best approach to provide immunity against multiple antigens delivered by the complex filarial parasite.

MAP of F1 and V antigens from Yersinia pestis astride innate and adaptive immune response.

Yersinia pestis, a causative agent of plague, has a plethora of armors to fight against major components of innate immunity and survive within host cells. Dendritic cells and macrophages are important antigen presenting cells for effective immune response. This report is focused on the changes in DC activation and TLR2 and TLR4 expression on macrophages induced by MAP of F1 and V antigens of Y. pestis. F1 and V MAPs bear potential synthetic T and B cell epitopes from F1 and V protein respectively. We evaluated these parameters in DC's isolated from spleen and lamina propria and macrophages isolated from peritoneal lavage of mice after intranasal immunization. F1 MAP and V MAP significantly increased the expression of CD80 and CD86 on CD11c(+) dendritic cells isolated from spleen and lamina propria as well as intracellular IL-12 levels. Similarly, in macrophages derived from peritoneal cavity, the above formulation enhanced TLR2 and TLR4 expression. Again after in vitro stimulation with F1 and V MAP these macrophages produced significantly high IL12 and TNFα. The study clearly indicates involvement of DC and macrophages for efficient antigen presentation to immune cells. From this study we conclude that F1MAP and VMAP ameliorate innate immune mechanism. These two synthetic constructs exert their effect via TLR2 and TLR4, leading to the production of proinflammatory cytokines by macrophages and are able to increase DC activation, that could be helpful in generation of adaptive immunity as well as is important strong immune response.

Dissecting the Immune Response Elicited by WbALT-2, ALT MAP in Clinical Populations and Mouse Model: A Prophylactic Measure Against Lymphatic Filariasis.

BACKGROUND: Abundant Larval Transcript (ALT) is one of the major groups of immune-dominant proteins produced by filarial worms during their larval stage. The major B-cell and T-cell epitopic domains of the ALT-2 antigen were mapped to develop a multiple antigenic peptide (MAP) prophylactic antigen against lymphatic filariasis. METHODS AND RESULTS: ALT MAP was constructed by solid phase peptide synthesis. The reactivity of whole ALT protein and ALT MAP against clinical sera described a high reactivity of endemic normal sera against ALT MAP compared to WbALT-2 protein. The antibody isotype pattern revealed elevated levels of IgG1 and IgG2 against ALT MAP, followed by IgG3 and IgG4. In this study we also analyzed the immune response pattern elicited by ALT MAP, ALT in mice models, which revealed similar pattern of humoral response, while low T cell proliferation in ALT MAP groups. The low proliferation could be attributed to T/B epitope arrangement on the construct, MHC restriction, and incomplete signal delivery by T cell receptor. CONCLUSION: The immunodominant epitopes in ALT MAP were found to play a crucial role in inducing high antigen specific proliferation. This revealed the significance of ALT MAP in stimulating innate immunity in offering protective immune response probably through the activation of complement cascade along with stimulation of cellular response. An improved understanding, including the construction of ALT MAP and parasite challenge study in jirds to determine the worm clearance would give a better insight in the characterization ALT MAP construct as a prophylactic vaccine candidate.

Evaluation of synthetic peptides of WbSXP-1 for the diagnosis of human lymphatic filariasis.

Parasitic nematodes infect nearly half of the world's human population, resulting in significant morbidity and mortality. Though filariasis is not fatal, it is the second leading cause of permanent and long-term disability worldwide. Filariasis has a spectrum of disease manifestation and infectivity found among the infected individuals and also goes unnoticed for years. Furthermore, there are ample reports emerging on the genetic variation among the parasites population. Hence, it is necessary to develop diagnostics for early detection of the disease. Synthetic peptides that mimic the immunogenic regions and a conserved region similar to that of recombinant antigen will be more useful in developing diagnostics, vaccines, or therapeutics. WbSXP-1 was earlier proven as a good diagnostic antigen; B-cell epitopic analysis showed 4 potent immunodominant regions spanning the whole antigen. These synthetic peptides (N, N1, N2, and N3) were produced and used as a diagnostic candidate to detect anti-SXP antibody and conversely to detect the infected individuals. The monomeric peptides showed good reactivity against microfilareamic (MF) sera. Among them, the peptides N, N1, and N2 were found to be more reactive. Furthermore, multiple chimeric peptides in linear combinations of 2 peptides were tested for its efficacy to detect anti-SXP antibody in infected MF sera. The peptides N:N1 and N1:N2 were synthesized and tested against human clinical sera. This chimeric peptides constructed based on WbSXP-1 were found to be reactive, specifically with MF sera by ELISA. These peptide-based diagnostic method can serve as a standard better tool without cross-reactivity in lymphatic filariasis elimination program.

Identification and characterization of nematode specific protective epitopes of Brugia malayi TRX towards development of synthetic vaccine construct for lymphatic filariasis.

Although multi-epitope vaccines have been evaluated for various diseases, they have not yet been investigated for lymphatic filariasis. Here, we report for the first time identification of two immunodominant B epitopes (TRXP1 and TRXP2) from the antioxidant Brugia malayi thioredoxin by studying their immune responses in mice model and human subjects. TRXP1 was also found to harbor a T epitope recognized by human PBMCs and mice splenocytes. Further, the epitopic peptides were synthesized as a single peptide conjugate (PC1) and their prophylactic efficacy was tested in a murine model of filariasis with L3 larvae. PC1 conferred a significantly high protection (75.14%) (P < 0.0001) compared to control (3.7%) and recombinant TRX (63.03%) (P < 0.018) in experimental filariasis. Our results suggest that multi-epitope vaccines could be a promising strategy in the control of lymphatic filariasis.

Humoral immune responses and protective efficacy of sequential B- and T-cell epitopes of V antigen of Yersinia pestis by intranasal immunization in microparticles.

Capsular F1 and secretory V antigen are the putative vaccine candidates for plague, caused by Yersinia pestis. Contemplating this, we studied the immunogenicity and protective efficacy of collinearly synthesized B- and T-cell epitopes (B-T constructs) of V antigen entrapped in poly (DL-lactide-co-glycolide) microparticles immunized intranasally using single dose immunization schedule in outbred, H-2(b) and H-2(d) mice. High antibody levels were observed in terms of IgG, IgA and SIgA peak titers in sera and mucosal washes to different B-T constructs. The constructs ai, bi and fi especially showed high peak antibody titers ranging from 51,200 to 204,000, which were maintained till day 120 post immunization. IgG/IgA Specific activity in sera and washes correlated well with the peak antibody titers. Moreover, all the B-T constructs showed mixed IgG1 and IgG2a/2b response, variable immunoreactivity as well as memory response with V antigen. B-T constructs, viz ai, ak, bi, fi, di and ik showed comparatively high isotype levels. These constructs showed high immunoreactivity, and good recall response with V antigen. Finally, in vivo protective study in BALB/c mice demonstrated the protective efficacy of three B-T constructs (ai, bi and fi) against lethal doses of Yersinia pestis till day 20 post challenge, while construct 'id' showed partial protection.

Developing subunit immunogens using B and T cell epitopes and their constructs derived from the F1 antigen of Yersinia pestis using novel delivery vehicles.

Yersinia pestis is the etiological agent of pneumonic and bubonic plague. As the currently licensed vaccines for plague have their own limitations, there is a need for a rational and more effective form of a subunit vaccine to combat both forms of the disease. Newer methods of antigen delivery coupled with adjuvant offer an alternative approach toward a plague vaccine. In order to develop a new generation vaccine against plague, we chose an immunodominant, outer membrane capsular protein, F1 of Y. pestis. The immunogenicity of the peptide sequences, predicted to possess B (three sequences, B1, B2 and B3) and T (two sequences, T1 and T2) cell determinants, was studied in a murine model with different genetic backgrounds, using alhydrogel and liposomes as delivery vehicles. All the peptide sequences are immunogenic in all mouse strains and showed primary and secondary immune response. B2 peptide was found to be most immunogenic, followed by B1 and B3 peptides. Chimeras made between B and T structures proved highly immunogenic and the antibody levels are comparable with native F1 antigen, thereby proving that T1 and T2 are helper sequences. Interestingly, the liposome mode of immunization was found to be more immunogenic and generated higher affinity antibodies than the alum-based preparation. Immunization using a mixture of all the peptides further proved B2 to be immunodominant. The IgG isotype profile showed predominance of IgG1, IgG2b followed by IgG2a for all the formulations irrespective of mode of antigen delivery. Lymphocyte proliferation of spleen cells primed in vivo with peptides, B-T conjugates and F1 antigen followed by in vitro stimulation with these antigens in soluble (medium) and particulate (liposome) form, showed dose-dependent stimulation of T cells, while B-T constructs showed a higher stimulation index, comparable to F1 antigen. The liposome mode of antigen presentation showed higher lymphoproliferation of spleen cells. Of all the peptides tested, T1 and T2 sequences showed the highest stimulation indices. The pattern of cytokine levels was in the following order: interferon-gamma>interleukin-2>interleukin-4. In vivo protective studies of the B-T conjugates revealed that B1T1 and a mixture of conjugates showed a survival rate of 10 days. Thus, the study highlights the importance of B and T cell epitopes as peptide-based immunogens, being a serious alternative for plague vaccine.