Identification of Potential MHC Class-II-Restricted Epitopes Derived from Leishmania donovani Antigens by Reverse Vaccinology and Evaluation of Their CD4+ T-Cell Responsiveness against Visceral Leishmaniasis

Dikhit, Manas Ranjan; Kumar, Akhilesh; Das, Sushmita; Dehury, Budheswar; Rout, Ajaya Kumar; Jamal, Fauzia; Sahoo, Ganesh Chandra; Topno, Roshan Kamal; Pandey, Krishna; Das, Vidya Nand Rabi; Bimal, Sanjiva; Das, Pradeep

doi:10.3389/fimmu.2017.01763

Cited by 59 publications

(57 citation statements)

References 68 publications

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“…The previous report demonstrated that all the T-cell and B-cell epitopes might not evoke the immune cell appropriately. 1,6 Further reports also demonstrated the ability of specific T-cell epitopes to modulate the activation of Th1 and Th2 cells. 35,36 Importantly, in active VL cases, the IL-10 produced by Th2 cells decided the fate of the parasite inside the host.…”

Section: Discussionmentioning

confidence: 99%

Retracted: Evaluating the immunomodulatory responses of LdODC‐derived MHC Class‐II restricted peptides against VL

Pandey

Dikhit

Kumar

et al. 2020

Parasite Immunology

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In a bid to develop a novel immunoprophylactic measure against visceral leishmaniasis (VL), MHC class‐II–restricted epitopes of LdODC were identified by reverse vaccinology approach. Five consensus HLA‐DRB1*0101‐restricted epitopes were screened. The analysis revealed that the set of epitopes was presented by at least 54 diverse MHC class‐II alleles. Based on in silico screening, followed by molecular dynamics simulation, population coverage analysis, and HLA cross‐presentation ability, five best epitopes were evaluated. PBMCs isolated from treated VL subjects, when stimulated with synthetic peptide alone or as a cocktail of peptides, triggered a secretory IFN‐γ, but not the IL‐10 level. Support in this notion came from intracellular cytokine level with a considerable up‐regulated IFN‐γ produced by CD4+ T cells. Also, the enhanced IFN‐γ seemed to be augmented with the activation of macrophages with prominent IL‐12 production. Therefore, it can be concluded that the screened MHC class‐II–restricted epitope hotspots derived from Leishmania ODC can trigger CD4+ T cells, which can skew macrophage functions towards protection. However, a detailed analysis can explore its potentiality as a vaccine candidate.

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Section: Discussionmentioning

confidence: 99%

Retracted: Evaluating the immunomodulatory responses of LdODC‐derived MHC Class‐II restricted peptides against VL

Pandey

Dikhit

Kumar

et al. 2020

Parasite Immunology

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“…This suggests that the in silico designed vaccines with epitopes derived from appropriate protein targets have the potential to progress toward advanced phases of vaccine development for visceral leishmaniasis. While the in silico studies by Khatoon et al [66] and Singh et al [67] largely utilized available genomic databases of L. donovani to select vaccine targets, Dikhit et al [11,70] performed thorough investigations involving in silico, in vitro and in vivo analysis to screen and validate immunogenic epitopes obtained from proteins that are increasingly expressed at the infective parasite stage. Such highly expressed proteins are likely important for physiological and/or infective process of the parasite and thus can be more effective vaccine targets.…”

Section: Discussionmentioning

confidence: 99%

“…In addition to in vitro methods of epitope mapping such as phage display library, immunodominance and peptide competition assays, immunoinformatic mapping can be a powerful approach to facilitate screening of desired epitopes in immunogenic proteins [9]. Recent findings of leishmaniasis vaccine research also suggest that in silico predicted MHC class I and class II restricted epitopecontaining peptides derived from Leishmania antigens alone, as a cocktail, as a chimeric peptide or in combination with adjuvant can be substantially immunogenic in vitro and/or in vivo [10][11][12][13]. Thus, the application of immunoinformatics-based pipeline can facilitate largescale screening of peptide epitopes from Leishmania proteome for rational design of potent vaccines.…”

Section: Introductionmentioning

confidence: 99%

An immunoinformatic approach driven by experimental proteomics: in silico design of a subunit candidate vaccine targeting secretory proteins of Leishmania donovani amastigotes

et al. 2020

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Background Visceral leishmaniasis (VL) caused by dimorphic Leishmania species is a parasitic disease with high socioeconomic burden in endemic areas worldwide. Sustaining control of VL in terms of proper and prevailing immunity development is a global necessity amid unavailability of a prophylactic vaccine. Screening of experimental proteome of the human disease propagating form of Leishmania donovani (amastigote) can be more pragmatic for in silico mining of novel vaccine candidates. Methods By using an immunoinformatic approach, CD4+ and CD8+ T cell-specific epitopes from experimentally reported L. donovani proteins having secretory potential and increased abundance in amastigotes were screened. A chimera linked with a Toll-like receptor 4 (TLR4) peptide adjuvant was constructed and evaluated for physicochemical characteristics, binding interaction with TLR4 in simulated physiological condition and the trend of immune response following hypothetical immunization. Results Selected epitopes from physiologically important L. donovani proteins were found mostly conserved in L. infantum, covering theoretically more than 98% of the global population. The multi-epitope chimeric vaccine was predicted as stable, antigenic and non-allergenic. Structural analysis of vaccine-TLR4 receptor docked complex and its molecular dynamics simulation suggest sufficiently stable binding interface along with prospect of non-canonical receptor activation. Simulation dynamics of immune response following hypothetical immunization indicate active and memory B as well as CD4+ T cell generation potential, and likely chance of a more Th1 polarized response. Conclusions The methodological approach and results from this study could facilitate more informed screening and selection of candidate antigenic proteins for entry into vaccine production pipeline in future to control human VL.

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“…This suggests that the in silico designed vaccines with epitopes derived from appropriate protein targets have the potential to progress toward advanced phases of vaccine development for visceral leishmaniasis. While the in silico studies by Khatoon et al [104] and Singh et al [105] largely utilized available genomic databases of L. donovani to select vaccine targets, Dikhit et al [11,108] performed thorough investigations involving in silico, in vitro and in vivo analysis to screen and validate immunogenic epitopes obtained from proteins that are increasingly expressed at infective stage of parasite. Such highly expressed proteins are likely important for physiological and/or infective process of the parasite and thus can be more effective vaccine targets.…”

Section: Discussionmentioning

confidence: 99%

“…In addition to in vitro methods of epitope mapping such as phage display library, immunodominance and peptide competition assays, immunoinformatic mapping can be a powerful approach to facilitate screening of desired epitopes in immunogenic proteins [9]. Recent studies on leishmaniasis vaccine research also suggest that in silico predicted MHC class I and class II restricted epitope containing peptides derived from Leishmania antigens alone, as a cocktail, as a chimeric peptide or in combination with adjuvant can be substantially immunogenic in vitro and/or in vivo [10][11][12][13]. Thus, the application of immunoinformatics-based pipeline can facilitate large scale screening of peptide epitopes from Leishmania proteome for rational design of potent vaccines.…”

Section: Introductionmentioning

confidence: 99%

An immunoinformatic approach driven by experimental proteomics: in silico design of a subunit candidate vaccine targeting secretory proteins of Leishmania donovani amastigotes

Khan

Ami

Faisal

et al. 2020

Preprint

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Background: Visceral leishmaniasis (VL) caused by dimorphic Leishmania species is a parasitic fatal disease with high socio-economic burden in endemic areas worldwide. Sustaining control of VL in terms of proper and prevailing immunity development is a global necessity amid unavailability of a prophylactic vaccine. Screening of experimental proteome of human disease propagating form of L. donovani (amastigote) can be more pragmatic for in silico mining of novel vaccine candidates.Methods: By using an immunoinformatic approach, CD4+ and CD8+ T cell specific epitopes from experimentally reported L. donovani proteins having secretory potential and increased abundance in amastigotes were screened. A chimera linked with a toll-like receptor 4 (TLR4) peptide adjuvant was constructed and evaluated for physicochemical characteristics, binding interaction with TLR4 in simulated physiological condition and the trend of immune response following hypothetical immunization.Results: Selected epitopes from physiologically important L. donovani proteins were found mostly conserved in L. infantum-covering theoretically more than 98% of global population. The multiepitope chimeric vaccine was predicted as stable, antigenic and non-allergenic. Structural analysis of vaccine-TLR4 receptor docked complex and its molecular dynamics simulation suggest sufficiently stable binding interface along with prospect of non-canonical receptor activation. Simulation dynamics of immune response following hypothetical immunization indicate active and memory B as well as CD4+ T cell generation potential, and likely chance of a more Th1 polarized response. Conclusions:The methodological approach and results from this study could facilitate more informed screening and selection of candidate antigenic proteins for entry into vaccine production pipeline in future to control human VL.

show abstract

Identification of Potential MHC Class-II-Restricted Epitopes Derived from Leishmania donovani Antigens by Reverse Vaccinology and Evaluation of Their CD4+ T-Cell Responsiveness against Visceral Leishmaniasis

Cited by 59 publications

References 68 publications

Retracted: Evaluating the immunomodulatory responses of LdODC‐derived MHC Class‐II restricted peptides against VL

Retracted: Evaluating the immunomodulatory responses of LdODC‐derived MHC Class‐II restricted peptides against VL

An immunoinformatic approach driven by experimental proteomics: in silico design of a subunit candidate vaccine targeting secretory proteins of Leishmania donovani amastigotes

An immunoinformatic approach driven by experimental proteomics: in silico design of a subunit candidate vaccine targeting secretory proteins of Leishmania donovani amastigotes

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