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Designing of a multi-epitopes based vaccine against Haemophilius parainfluenzae and its validation through integrated computational approaches
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Designing of a multi-epitopes based vaccine against Haemophilius parainfluenzae and its validation through integrated computational approaches
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Journal Article
Designing of a multi-epitopes based vaccine against Haemophilius parainfluenzae and its validation through integrated computational approaches
2024
Overview
Haemophilus parainfluenzae is a Gram-negative opportunist pathogen within the mucus of the nose and mouth without significant symptoms and has an ability to cause various infections ranging from ear, eye, and sinus to pneumonia. A concerning development is the increasing resistance of H. parainfluenzae to beta-lactam antibiotics, with the potential to cause dental infections or abscesses. The principal objective of this investigation is to utilize bioinformatics and immuno-informatic methodologies in the development of a candidate multi-epitope Vaccine. The investigation focuses on identifying potential epitopes for both B cells (B lymphocytes) and T cells (helper T lymphocytes and cytotoxic T lymphocytes) based on high non-toxic and non-allergenic characteristics. The selection process involves identifying human leukocyte antigen alleles demonstrating strong associations with recognized antigenic and overlapping epitopes. Notably, the chosen alleles aim to provide coverage for 90% of the global population. Multi-epitope constructs were designed by using suitable linker sequences. To enhance the immunological potential, an adjuvant sequence was incorporated using the EAAAK linker. The final vaccine construct, comprising 344 amino acids, was achieved after the addition of adjuvants and linkers. This multi-epitope Vaccine demonstrates notable antigenicity and possesses favorable physiochemical characteristics. The three-dimensional conformation underwent modeling and refinement, validated through in-silico methods. Additionally, a protein-protein molecular docking analysis was conducted to predict effective binding poses between the multi-epitope Vaccine and the Toll-like receptor 4 protein. The Molecular Dynamics (MD) investigation of the docked TLR4-vaccine complex demonstrated consistent stability over the simulation period, primarily attributed to electrostatic energy. The docked complex displayed minimal deformation and enhanced rigidity in the motion of residues during the dynamic simulation. Furthermore, codon translational optimization and computational cloning was performed to ensure the reliability and proper expression of the multi-Epitope Vaccine. It is crucial to emphasize that despite these computational validations, experimental research in the laboratory is imperative to demonstrate the immunogenicity and protective efficacy of the developed vaccine. This would involve practical assessments to ascertain the real-world effectiveness of the multi-epitope Vaccine.
Publisher
Frontiers Media SA,Frontiers Media S.A
Subject
/ Alleles
/ Antigens
/ BamA
/ Cholera
/ Computational Biology - methods
/ Epitopes
/ Epitopes, B-Lymphocyte - immunology
/ Epitopes, T-Lymphocyte - immunology
/ Haemophilus Infections - immunology
/ Haemophilus Infections - prevention & control
/ Histocompatibility antigen HLA
/ Humans
/ LptD
/ Molecular Docking Simulation
/ Multidrug resistant organisms
/ Proteins
/ R&D
/ Sinus
/ Toll-Like Receptor 4 - chemistry
/ Toll-Like Receptor 4 - immunology
/ Toll-Like Receptor 4 - metabolism
/ Toxicity
/ Vaccines
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