Validating Immunomodulatory Responses of r-LdODC Protein and Its Derived HLA-DRB1 Restricted Epitopes against Visceral Leishmaniasis in BALB/c Mice.

Vaccination is considered the most appropriate way to control visceral leishmaniasis (VL). With this background, the r-LdODC protein as well as its derived HLA-DRB1-restricted synthetic peptides (P1: RLMPSAHAI, P2: LLDQYQIHL, P3: GLYHSFNCI, P4: AVLEVLSAL, and P5: RLPASPAAL) were validated in BALB/c mice against visceral leishmaniasis. The study was initiated by immunization of the r-LdODC protein as well as its derived peptides cocktail with adjuvants (r-CD2 and MPL-A) in different mice groups, separately. Splenocytes isolated from the challenged and differentially immunized mice group exhibited significantly higher IFN-γ secretion, which was evidenced by the increase in the expression profile of intracellular CD4+IFN-γ T cells. However, the IL-10 secretion did not show a significant increase against the protein and peptide cocktail. Subsequently, the study confirmed the ability of peptides as immunoprophylactic agents, as the IE-I/AD-I molecule overexpressed on monocytes and macrophages of the challenged mice group. The parasitic load in macrophages of the protein and peptides cocktail immunized mice groups, and T cell proliferation rate, further established immunoprophylactic efficacy of the r-LdODC protein and peptide cocktail. This study suggests that the r-LdODC protein, as well as its derived HLA-DRB1-restricted synthetic peptides, have immunoprophylactic potential and can activate other immune cells' functions towards protection against visceral leishmaniasis. However, a detailed study in a humanized mice model can explore its potential as a vaccine candidate.

Immunomodulation mediated through Leishmania donovani protein disulfide isomerase by eliciting CD8+ T-cell in cured visceral leishmaniasis subjects and identification of its possible HLA class-1 restricted T-cell epitopes.

Protein disulphide isomerase (PDI) is one of the key enzymes essential for the survival of Leishmania donovani in the host. Our study suggested that PDI is associated with the generation of Th1-type of cellular responses in treated Visceral leishmaniasis (VL) subjects. The stimulation of Peripheral blood mononuclear cells (PBMCs) with recombinant Protein Disulphide Isomerase upregulated the reactive oxygen species generation, Nitric oxide release, IL12 and IFN-γ production indicating its pivotal role in protective immune response. Further, a pre-stimulation of PBMCs with Protein disulphide isomerase induced a strong IFN-γ response through CD8+ T cells in treated VL subjects. These findings also supported through the evidence that this antigen was processed and presented by major histocompatibility complex class I (MHC-1) dependent pathway and had an immunoprophylactic potential which can induce CD8+ T cell protective immune response in MHC class I dependent manner against VL. To find out the possible epitopes that might be responsible for CD8+ T cell specific IFN-γ response, computational approach was adopted. Six novel promiscuous epitopes were predicted to be highly immunogenic and can be presented by 32 different HLA allele to CD8+ T cells. Further investigation will explore more about their immunological relevance and usefulness as vaccine candidates.

Leishmania donovani: impairment of the cellular immune response against recombinant ornithine decarboxylase protein as a possible evasion strategy of Leishmania in visceral leishmaniasis.

Ornithine decarboxylase, the rate limiting enzyme of the polyamine biosynthesis pathway, is significant in the synthesis of trypanothione, T(SH)2, the major reduced thiol which is responsible for the modulation of the immune response and pathogenesis in visceral leishmaniasis. Data on the relationship between ornithine decarboxylase and the cellular immune response in VL patients are limited. Therefore, we purified a recombinant ornithine decarboxylase from Leishmania donovani (r-LdODC) of approximately 77kDa and examined its effects on the immunological responses in peripheral blood mononuclear cells of human visceral leishmaniasis cases. For these studies, α-difluoromethylornithine was tested as an inhibitor and was used in parallel in all experiments. The r-LdODC was identified as having a direct correlation with parasite growth and significantly increased the number of promastigotes as well as axenic amastigotes after 96h of culture. The stimulation of peripheral blood mononuclear cells with r-LdODC up-regulated IL-10 production but not IFN-γ production from CD4(+) T cells in active as well as cured visceral leishmaniasis cases, indicating a pivotal role for r-LdODC in causing strong immune suppression in a susceptible host. In addition, severe hindrance of the immune response and anti-leishmanial macrophage function due to r-LdODC, as revealed by decreased IL-12 and nitric oxide production, and down-regulation in mean fluorescence intensities of reactive oxygen species, occurred in visceral leishmaniasis patients. There was little impact of r-LdODC in the killing of L. donovani amastigotes in macrophages of visceral leishmaniasis patients. In contrast, when cultures of promastigotes and amastigotes, and patients' blood samples, were directed against α-difluoromethylornithine, parasite numbers significantly reduced in culture, whereas the levels of IFN-γ and IL-12, and the production of reactive oxygen species and nitric oxide, were significantly elevated. Therefore, we demonstrated cross-talk with the use of α-difluoromethylornithine which can reduce the activity of ornithine decarboxylase of L. donovani, eliminating the parasite-induced immune suppression and inducing collateral host protective responses in visceral leishmaniasis.