Humoral and cellular immunity in response to an in silico -designed multi-epitope recombinant protein of Theileria annulata

Humoral and cellular immunity in response to an in silico -designed multi-epitope recombinant protein of Theileria annulata

Tropical theileriosis is a lymphoproliferative disease caused by and is transmitted by Ixodid ticks of the genus . It causes significant losses in livestock, especially in exotic cattle. The existing methods for controlling it, chemotherapeutic agents and a vaccine based on an attenuated schizont st...

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Published in:Frontiers in immunology Vol. 15; p. 1400308
Main Authors: Abid, Asadullah, Khalid, Ambreen, Suleman, Muhammad, Akbar, Haroon, Hafeez, Mian Abdul, Khan, Jawaria Ali, Rashid, Muhammad Imran
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 21-08-2024
Subjects:
Animals
Antibodies, Protozoan - blood
Antibodies, Protozoan - immunology
Antigens, Protozoan - genetics
Antigens, Protozoan - immunology
Cattle
Computer Simulation
epitope prediction
Epitopes, B-Lymphocyte - immunology
Epitopes, T-Lymphocyte - immunology
flow cytometry
Immunity, Cellular
Immunity, Humoral
immunoinformatics
Immunology
molecular docking
multi-epitope
Protozoan Proteins - genetics
Protozoan Proteins - immunology
Protozoan Vaccines - immunology
Recombinant Proteins - genetics
Recombinant Proteins - immunology
Theileria annulata
Theileria annulata - genetics
Theileria annulata - immunology
Theileriasis - immunology
Theileriasis - parasitology
Theileriasis - prevention & control
epitope prediction
flow cytometry
immunoinformatics
molecular docking
Theileria annulata
multi-epitope
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Summary:Tropical theileriosis is a lymphoproliferative disease caused by and is transmitted by Ixodid ticks of the genus . It causes significant losses in livestock, especially in exotic cattle. The existing methods for controlling it, chemotherapeutic agents and a vaccine based on an attenuated schizont stage parasite, have several limitations. A promising solution to control this disease is the use of molecular vaccines based on potential immunogenic proteins of . For this purpose, we selected five antigenic sequences of , i.e. SPAG-1, Tams, TaSP, spm2, and Ta9. These were subjected to epitope prediction for cytotoxic T lymphocytes, B-cells, and helper T lymphocytes. CTL and B-cell epitopes with a higher score whereas those of HTL with a lower score, were selected for the construct. A single protein was constructed using specific linkers and evaluated for high antigenicity and low allergenicity. The construct was acidic, hydrophobic, and thermostable in nature. Secondary and tertiary structures of this construct were drawn using the PSIPRED and RaptorX servers, respectively. A Ramachandran plot showed a high percentage of residues in this construct in favorable, allowed, and general regions. Molecular docking studies suggested that the complex was stable and our construct could potentially be a good candidate for immunization trials. Furthermore, we successfully cloned it into the pET-28a plasmid and transformed it into the BL21 strain. A restriction analysis was performed to confirm the transformation of our plasmid. After expression and purification, recombinant protein of 49 kDa was confirmed by western blotting. An ELISA detected increased specific antibody levels in the sera of the immunized animals compared with the control group, and flow cytometric analysis showed a stronger cell-mediated immune response. We believe our multi-epitope recombinant protein has the potential for the large-scale application for disease prevention globally in the bovine population. This study will act as a model for similar parasitic challenges.
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Hannah Wei Wu, Brown University, United States
These authors have contributed equally to this work
Reviewed by: Celio Geraldo Freire-de-Lima, Federal University of Rio de Janeiro, Brazil
Present address: Muhammad Suleman, Department of Pathology, University of Veterinary and Animal Sciences, Lahore, Pakistan
Edited by: Adebayo James Molehin, Midwestern University, United States
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2024.1400308