Muhammad Tahir Ul Qamar1, Abdur Rehman2, Kishver Tusleem3, Usman Ali Ashfaq2, Muhammad Qasim2, Xitong Zhu4, Israr Fatima2, Farah Shahid2, Ling-Ling Chen1,4. 1. College of Life Science and Technology, Guangxi University, Nanning, P. R. China. 2. Department of Bioinformatics and Biotechnology, Government College University Faisalabad, Faisalabad, Pakistan. 3. Fatima Jinnah Medical University, Lahore, Pakistan. 4. Hubei Key Laboratory of Agricultural Bioinformatics, College of Informatics, Huazhong Agricultural University, Wuhan, P. R. China.
Abstract
Coronavirus disease 2019 (COVID-19) pandemic caused by severe acute respiratory coronavirus 2 (SARS-COV-2) is a significant threat to global health security. Till date, no completely effective drug or vaccine is available to cure COVID-19. Therefore, an effective vaccine against SARS-COV-2 is crucially needed. This study was conducted to design an effective multiepitope based vaccine (MEV) against SARS-COV-2. Seven highly antigenic proteins of SARS-COV-2 were selected as targets and different epitopes (B-cell and T-cell) were predicted. Highly antigenic and overlapping epitopes were shortlisted. Selected epitopes indicated significant interactions with the HLA-binding alleles and 99.93% coverage of the world's population. Hence, 505 amino acids long MEV was designed by connecting 16 MHC class I and eleven MHC class II epitopes with suitable linkers and adjuvant. MEV construct was non-allergenic, antigenic, stable and flexible. Furthermore, molecular docking followed by molecular dynamics (MD) simulation analyses, demonstrated a stable and strong binding affinity of MEV with human pathogenic toll-like receptors (TLR), TLR3 and TLR8. Finally, MEV codons were optimized for its in silico cloning into Escherichia coli K-12 system, to ensure its increased expression. Designed MEV in present study could be a potential candidate for further vaccine production process against COVID-19. However, to ensure its safety and immunogenic profile, the proposed MEV needs to be experimentally validated.
Coronavirus disease 2019 (n class="Disease">COVID-19) pandemic caused by severe acute respiratorycoronavirus 2 (SARS-COV-2) is a significant threat to global health security. Till date, no completely effective drug or vaccine is available to cure COVID-19. Therefore, an effective vaccine against SARS-COV-2 is crucially needed. This study was conducted to design an effective multiepitope based vaccine (MEV) against SARS-COV-2. Seven highly antigenic proteins of SARS-COV-2 were selected as targets and different epitopes (B-cell and T-cell) were predicted. Highly antigenic and overlapping epitopes were shortlisted. Selected epitopes indicated significant interactions withthe HLA-binding alleles and 99.93% coverage of the world's population. Hence, 505 amino acids long MEV was designed by connecting 16 MHC class I and eleven MHC class II epitopes with suitable linkers and adjuvant. MEV construct was non-allergenic, antigenic, stable and flexible. Furthermore, molecular docking followed by molecular dynamics (MD) simulation analyses, demonstrated a stable and strong binding affinity of MEV withhuman pathogenic toll-like receptors (TLR), TLR3 and TLR8. Finally, MEV codons were optimized for its in silico cloning into Escherichia coli K-12 system, to ensure its increased expression. Designed MEV in present study could be a potential candidate for further vaccine production process against COVID-19. However, to ensure its safety and immunogenic profile, the proposed MEV needs to be experimentally validated.
Authors: T A Zaichuk; Y D Nechipurenko; A A Adzhubey; S B Onikienko; V A Chereshnev; S S Zainutdinov; G V Kochneva; S V Netesov; O V Matveeva Journal: Mol Biol Date: 2020-09-04 Impact factor: 1.374
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Authors: Abdur Rehman; Sajjad Ahmad; Farah Shahid; Aqel Albutti; Ameen S S Alwashmi; Mohammad Abdullah Aljasir; Naif Alhumeed; Muhammad Qasim; Usman Ali Ashfaq; Muhammad Tahir Ul Qamar Journal: Vaccines (Basel) Date: 2021-06-16