Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences

Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences

Background The coronavirus SARS-CoV-2 is a member of the Coronaviridae family that has caused a global public health emergency. Currently, there is no approved treatment or vaccine available against it. The current study aimed to cover the diversity of SARS-CoV-2 strains reported from all over the w...

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Main Authors: Tahreem Zaheer, Maaz Waseem, Walifa Waqar, Hamza Arshad Dar, Muhammad Shehroz, Kanwal Naz, Zaara Ishaq, Tahir Ahmad, Nimat Ullah, Syeda Marriam Bakhtiar, Syed Aun Muhammad, Amjad Ali
Format: Article
Language:English
Published: PeerJ Inc. 2020-08-01
Series:PeerJ
Subjects:
SARS-CoV-2
COVID-19
Global pandemic
Immunoinformatics
Immunity
Online Access:https://peerj.com/articles/9541.pdf
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spelling doaj-5e0269e214a948c3972fda7ce02a0de72020-11-25T02:30:53ZengPeerJ Inc.PeerJ2167-83592020-08-018e954110.7717/peerj.9541Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequencesTahreem Zaheer0Maaz Waseem1Walifa Waqar2Hamza Arshad Dar3Muhammad Shehroz4Kanwal Naz5Zaara Ishaq6Tahir Ahmad7Nimat Ullah8Syeda Marriam Bakhtiar9Syed Aun Muhammad10Amjad Ali11Atta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanDepartment of Biotechnology, Virtual University of Pakistan, Peshawar, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanDepartment of Bioinformatics and Biosciences, Capital University of Science and Technology, Islamabad, PakistanInstitute of Molecular Biology and Biotechnology, Bahauddin Zakariya University, Multan, PakistanAtta-ur-Rahman School of Applied Biosciences (ASAB), National University of Sciences and Technology (NUST), Islamabad, PakistanBackground The coronavirus SARS-CoV-2 is a member of the Coronaviridae family that has caused a global public health emergency. Currently, there is no approved treatment or vaccine available against it. The current study aimed to cover the diversity of SARS-CoV-2 strains reported from all over the world and to design a broad-spectrum multi-epitope vaccine using an immunoinformatics approach. Methods For this purpose, all available complete genomes were retrieved from GISAID and NGDC followed by genome multiple alignments to develop a global consensus sequence to compare with the reference genome. Fortunately, comparative genomics and phylogeny revealed a significantly high level of conservation between the viral strains. All the Open Reading Frames (ORFs) of the reference sequence NC_045512.2 were subjected to epitope mapping using CTLpred and HLApred, respectively. The predicted CTL epitopes were then screened for antigenicity, immunogenicity and strong binding affinity with HLA superfamily alleles. HTL predicted epitopes were screened for antigenicity, interferon induction potential, overlapping B cell epitopes and strong HLA DR binding potential. The shortlisted epitopes were arranged into two multi-epitope sequences, Cov-I-Vac and Cov-II-Vac, and molecular docking was performed with Toll-Like Receptor 8 (TLR8). Results The designed multi-epitopes were found to be antigenic and non-allergenic. Both multi-epitopes were stable and predicted to be soluble in an Escherichia coli expression system. The molecular docking with TLR8 also demonstrated that they have a strong binding affinity and immunogenic potential. These in silico analyses suggest that the proposed multi-epitope vaccine can effectively evoke an immune response.https://peerj.com/articles/9541.pdfSARS-CoV-2COVID-19Global pandemicImmunoinformaticsImmunity
collection DOAJ
language English
format Article
sources DOAJ
author Tahreem Zaheer
Maaz Waseem
Walifa Waqar
Hamza Arshad Dar
Muhammad Shehroz
Kanwal Naz
Zaara Ishaq
Tahir Ahmad
Nimat Ullah
Syeda Marriam Bakhtiar
Syed Aun Muhammad
Amjad Ali
spellingShingle Tahreem Zaheer
Maaz Waseem
Walifa Waqar
Hamza Arshad Dar
Muhammad Shehroz
Kanwal Naz
Zaara Ishaq
Tahir Ahmad
Nimat Ullah
Syeda Marriam Bakhtiar
Syed Aun Muhammad
Amjad Ali
Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences
PeerJ
SARS-CoV-2
COVID-19
Global pandemic
Immunoinformatics
Immunity
author_facet Tahreem Zaheer
Maaz Waseem
Walifa Waqar
Hamza Arshad Dar
Muhammad Shehroz
Kanwal Naz
Zaara Ishaq
Tahir Ahmad
Nimat Ullah
Syeda Marriam Bakhtiar
Syed Aun Muhammad
Amjad Ali
author_sort Tahreem Zaheer
title Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences
title_short Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences
title_full Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences
title_fullStr Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences
title_full_unstemmed Anti-COVID-19 multi-epitope vaccine designs employing global viral genome sequences
title_sort anti-covid-19 multi-epitope vaccine designs employing global viral genome sequences
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-08-01
description Background The coronavirus SARS-CoV-2 is a member of the Coronaviridae family that has caused a global public health emergency. Currently, there is no approved treatment or vaccine available against it. The current study aimed to cover the diversity of SARS-CoV-2 strains reported from all over the world and to design a broad-spectrum multi-epitope vaccine using an immunoinformatics approach. Methods For this purpose, all available complete genomes were retrieved from GISAID and NGDC followed by genome multiple alignments to develop a global consensus sequence to compare with the reference genome. Fortunately, comparative genomics and phylogeny revealed a significantly high level of conservation between the viral strains. All the Open Reading Frames (ORFs) of the reference sequence NC_045512.2 were subjected to epitope mapping using CTLpred and HLApred, respectively. The predicted CTL epitopes were then screened for antigenicity, immunogenicity and strong binding affinity with HLA superfamily alleles. HTL predicted epitopes were screened for antigenicity, interferon induction potential, overlapping B cell epitopes and strong HLA DR binding potential. The shortlisted epitopes were arranged into two multi-epitope sequences, Cov-I-Vac and Cov-II-Vac, and molecular docking was performed with Toll-Like Receptor 8 (TLR8). Results The designed multi-epitopes were found to be antigenic and non-allergenic. Both multi-epitopes were stable and predicted to be soluble in an Escherichia coli expression system. The molecular docking with TLR8 also demonstrated that they have a strong binding affinity and immunogenic potential. These in silico analyses suggest that the proposed multi-epitope vaccine can effectively evoke an immune response.
topic SARS-CoV-2
COVID-19
Global pandemic
Immunoinformatics
Immunity
url https://peerj.com/articles/9541.pdf
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