Potent cross-reactive neutralization of SARS coronavirus isolates by human monoclonal antibodies

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  • Zhu, Zhongyu
    • Other Affiliation: National Institutes of Health
  • Chakraborti, Samitabh
    • Other Affiliation: National Institutes of Health
  • He, Yuxian
    • Other Affiliation: New York Blood Center
  • Roberts, Anjeanette
    • Other Affiliation: National Institutes of Health
  • Sheahan, Tim
    • Affiliation: Gillings School of Global Public Health, Department of Epidemiology
  • Xiao, Xiaodong
    • Other Affiliation: National Institutes of Health
  • Hensley, Lisa E.
    • Other Affiliation: United States Army Medical Research Institute of Infectious Diseases
  • Prabakaran, Ponraj
    • Other Affiliation: National Institute of Health
  • Rockx, Barry
    • Affiliation: Gillings School of Global Public Health, Department of Epidemiology
  • Sidorov, Igor A.
    • Other Affiliation: National Institutes of Health
  • Corti, Davide
    • Other Affiliation: Institute for Research in Biomedicine
  • Vogel, Leatrice
    • Other Affiliation: National Institutes of Health
  • Feng, Yang
    • Other Affiliation: National Institutes of Health
  • Kim, Jeo-Ouk
    • Other Affiliation: National Institutes of Health
  • Wang, Lin-Fa
    • Other Affiliation: Australian Animal Health Laboratory and Australian Biosecurity Cooperative Research Center for Emerging Infectious Diseases
  • Baric, Ralph
    • Affiliation: Gillings School of Global Public Health, Department of Epidemiology
  • Lanzavecchia, Antonio
    • Other Affiliation: Institute for Research in Biomedicine
  • Curtis, Kristopher M.
    • Other Affiliation: United States Army Medical Research Institute of Infectious Diseases
  • Nabel, Gary J.
    • Other Affiliation: Australian Animal Health Laboratory and Australian Biosecurity Cooperative Research Center for Emerging Infectious Diseases
  • Subbarao, Kanta
    • Other Affiliation: National Institutes of Health
  • Jiang, Shibo
    • Other Affiliation: National Institutes of Health
  • Dimitrov, Dimiter S.
    • Other Affiliation: National Institutes of Health
Abstract
  • The severe acute respiratory syndrome coronavirus (SARS-CoV) caused a worldwide epidemic in late 2002/early 2003 and a second outbreak in the winter of 2003/2004 by an independent animal-to-human transmission. The GD03 strain, which was isolated from an index patient of the second outbreak, was reported to resist neutralization by the human monoclonal antibodies (hmAbs) 80R and S3.1, which can potently neutralize isolates from the first outbreak. Here we report that two hmAbs, m396 and S230.15, potently neutralized GD03 and representative isolates from the first SARS outbreak (Urbani, Tor2) and from palm civets (SZ3, SZ16). These antibodies also protected mice challenged with the Urbani or recombinant viruses bearing the GD03 and SZ16 spike (S) glycoproteins. Both antibodies competed with the SARS-CoV receptor, ACE2, for binding to the receptor-binding domain (RBD), suggesting a mechanism of neutralization that involves interference with the SARS-CoV–ACE2 interaction. Two putative hot-spot residues in the RBD (Ile-489 and Tyr-491) were identified within the SARS-CoV spike that likely contribute to most of the m396-binding energy. Residues Ile-489 and Tyr-491 are highly conserved within the SARS-CoV spike, indicating a possible mechanism of the m396 cross-reactivity. Sequence analysis and mutagenesis data show that m396 might neutralize all zoonotic and epidemic SARS-CoV isolates with known sequences, except strains derived from bats. These antibodies exhibit cross-reactivity against isolates from the two SARS outbreaks and palm civets and could have potential applications for diagnosis, prophylaxis, and treatment of SARS-CoV infections.
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  • Article
Rights statement
  • In Copyright
Journal title
  • Proceedings of the National Academy of Sciences of the United States of America
Journal volume
  • 104
Journal issue
  • 29
Page start
  • 12123
Page end
  • 12128
Language
  • English
ISSN
  • 0027-8424

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