A novel MARV glycoprotein-specific antibody with potentials of broad-spectrum neutralization to filovirus

Zhang, Yuting; Zhang, Min; Wu, Haiyan; Wang, Xinwei; Zheng, Hang; Feng, Junjuan; Wang, Jing; Luo, Longlong; Xiao, He; Qiao, Chunxia; Li, Xinying; Zheng, Yuanqiang; Huang, Weijin; Wang, Youchun; Wang, Yi; Shi, Yanchun; Feng, Jiannan; Chen, Guojiang

doi:10.7554/elife.91181

eLife

2024

DOI: 10.7554/elife.91181

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A novel MARV glycoprotein-specific antibody with potentials of broad-spectrum neutralization to filovirus

Yuting Zhang,

Min Zhang,

Haiyan Wu

et al.

Abstract: Marburg virus (MARV) is one of the filovirus species that causes a deadly hemorrhagic fever in humans, with mortality rates up to 90%. Neutralizing antibodies represent ideal candidates to prevent or treat virus disease. However, no antibody has been approved for MARV treatment to date. In this study, we identified a novel human antibody named AF-03 that targeted MARV glycoprotein (GP). AF-03 possessed a high binding affinity to MARV GP and showed neutralizing and protective activities against the pseudotyped … Show more

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Development of epitope-based vaccine to prevent Marburg virus infection: an in silico approach

Thorle,

Jadhav,

Chavan

et al. 2024

Eureka: LS

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Marburg virus (MARV) is one of the deadliest zoonotic viruses, causing severe hemorrhagic fever in humans with high mortality rates. The development of an effective vaccine is crucial to prevent potential Marburg virus outbreaks. In this study, an in silico approach was employed to design an epitope-based vaccine to prevent MARV infections. The MARV proteins nominating NP, VP24, VP35, VP30, VP40, GP & Polymerase L was analyzed for antigenicity and non-allergenicity prediction, among these proteins VP30 protein has a 0.5636 (Probable Antigen) score and it was non-allergen. For that reason, VP30 was selected for further in silico analysis. After analysis it is found that the top ranked T–cell (MHC-I) epitopes LSKPPPPPK, ESSPTNHIPR, TQLPSKPHY, SPQDCGSPSL, FEAALWQGW, T-Cell (MHC-II) epitopes IHLDKGGQF, INTMTELHM, VTPTIYHET, YTNYHPRAR, YTGIHLDKG was epitopes & B-Cell epitopes SEIGKLDET, IHLDKGGQF, MNHENLPQDQNGV, PTCNRDHDLDNLTN was found non-toxic and non-allergen. The T-Cell (MHC-I)epitope TQLPSKPHY,T-Cell (MHC-II)epitope YTNYHPRAR & B-Cell epitope SEIGKLDET was found highly antigenic, non-toxic as well as non-allergen and it was selected for molecular docking analysis. The T-Cell (MHC-I) epitope TQLPSKPHY,T-Cell (MHC-II)epitope YTNYHPRAR shows strong structural similarity and potential binding affinity with antibody. The B-Cell epitope SEIGKLDET shows poor affinity towards antibody. In silico analysis indicate that both T-Cell epitopes becomes an effective peptide vaccine to prevent MARV infection. Our findings highlight the promise of in silico vaccine design in accelerating the development of vaccines against MARV, a highly pathogenic virus with no effective cure currently available

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Development of epitope-based vaccine to prevent Marburg virus infection: an in silico approach

Thorle,

Jadhav,

Chavan

et al. 2024

Eureka: LS

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show abstract

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A novel MARV glycoprotein-specific antibody with potentials of broad-spectrum neutralization to filovirus

Cited by 1 publication

References 41 publications

Development of epitope-based vaccine to prevent Marburg virus infection: an in silico approach

Development of epitope-based vaccine to prevent Marburg virus infection: an in silico approach

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