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Structural basis for broad neutralization of ebolaviruses by an antibody targeting the glycoprotein fusion loop

Author

Listed:
  • Benjamin M. Janus

    (University of Maryland
    University of Maryland)

  • Nydia van Dyk

    (University of Maryland)

  • Xuelian Zhao

    (University of Maryland)

  • Katie A. Howell

    (Integrated BioTherapeutics)

  • Cinque Soto

    (Vanderbilt University Medical Center
    Vanderbilt University Medical Center)

  • M. Javad Aman

    (Integrated BioTherapeutics)

  • Yuxing Li

    (University of Maryland
    University of Maryland School of Medicine)

  • Thomas R. Fuerst

    (University of Maryland
    University of Maryland)

  • Gilad Ofek

    (University of Maryland
    University of Maryland)

Abstract

The severity of the 2014–2016 ebolavirus outbreak in West Africa expedited clinical development of therapeutics and vaccines though the countermeasures on hand were largely monospecific and lacked efficacy against other ebolavirus species that previously emerged. Recent studies indicate that ebolavirus glycoprotein (GP) fusion loops are targets for cross-protective antibodies. Here we report the 3.72 Å resolution crystal structure of one such cross-protective antibody, CA45, bound to the ectodomain of Ebola virus (EBOV) GP. The CA45 epitope spans multiple faces of the fusion loop stem, across both GP1 and GP2 subunits, with ~68% of residues identical across > 99.5% of known ebolavirus isolates. Extensive antibody interactions within a pan-ebolavirus small-molecule inhibitor binding cavity on GP define this cavity as a novel site of immune vulnerability. The structure elucidates broad ebolavirus neutralization through a highly conserved epitope on GP and further enables rational design and development of broadly protective vaccines and therapeutics.

Suggested Citation

  • Benjamin M. Janus & Nydia van Dyk & Xuelian Zhao & Katie A. Howell & Cinque Soto & M. Javad Aman & Yuxing Li & Thomas R. Fuerst & Gilad Ofek, 2018. "Structural basis for broad neutralization of ebolaviruses by an antibody targeting the glycoprotein fusion loop," Nature Communications, Nature, vol. 9(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06113-4
    DOI: 10.1038/s41467-018-06113-4
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    Cited by:

    1. Ashish Kumar & Tiana C. Rohe & Elizabeth J. Elrod & Abdul G. Khan & Altaira D. Dearborn & Ryan Kissinger & Arash Grakoui & Joseph Marcotrigiano, 2023. "Regions of hepatitis C virus E2 required for membrane association," Nature Communications, Nature, vol. 14(1), pages 1-10, December.

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