Literature detail

Recombinant Receptor-Binding Domains of Multiple Middle East Respiratory Syndrome Coronaviruses (MERS-CoVs) Induce Cross-Neutralizing Antibodies against Divergent Human and Camel MERS-CoVs and Antibody Escape Mutants.

Wanbo Tai^1,2 Yufei Wang^1,2 Craig A Fett³ Guangyu Zhao² Fang Li⁴ Stanley Perlman³ Shibo Jiang^1,5 Yusen Zhou⁶ Lanying Du⁷

Affiliations 7 institutions

Lindsley F. Kimball Research Institute, New York Blood Center, New York, New York, USA.
State Key Laboratory of Pathogen and Biosecurity, Beijing Institute of Microbiology and Epidemiology, Beijing, China.
Department of Microbiology, University of Iowa, Iowa City, Iowa, USA.
Department of Pharmacology, University of Minnesota Medical School, Minneapolis, Minnesota, USA.
Key Laboratory of Medical Molecular Virology of Ministries of Education and Health, Basic Medical College and Institute of Medical Microbiology, Fudan University, Shanghai, China.
State Key Laboratory of Pathogen and Biosecurity, Beijing Institute of Microbiology and Epidemiology, Beijing, China [email protected] [email protected].
Lindsley F. Kimball Research Institute, New York Blood Center, New York, New York, USA [email protected] [email protected].

PMID 27795425 2017 J Virol eng epublish

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Article

Publication summary

Middle East respiratory syndrome coronavirus (MERS-CoV) binds to cellular receptor dipeptidyl peptidase 4 (DPP4) via the spike (S) protein receptor-binding domain (RBD). The RBD contains critical neutralizing epitopes and serves as an important vaccine target. Since RBD mutations occur in different MERS-CoV isolates and antibody escape mutants, cross-neutralization of divergent MERS-CoV strains by RBD-induced antibodies remains unknown. Here, we constructed four recombinant RBD (rRBD) proteins with single or multiple mutations detected in representative human MERS-CoV strains from the 2012, 2013, 2014, and 2015 outbreaks, respectively, and one rRBD protein with multiple changes derived from camel MERS-CoV strains. Like the RBD of prototype EMC2012 (EMC-RBD), all five RBDs maintained good antigenicity and functionality, the ability to bind RBD-specific neutralizing monoclonal antibodies (MAbs) and the DPP4 receptor, and high immunogenicity, able to elicit S-specific antibodies. They induced potent neutralizing antibodies cross-neutralizing 17 MERS pseudoviruses expressing S proteins of representative human and camel MERS-CoV strains identified during the 2012-2015 outbreaks, 5 MAb escape MERS-CoV mutants, and 2 live human MERS-CoV strains. We then constructed two RBDs mutated in multiple key residues in the receptor-binding motif (RBM) of RBD and demonstrated their strong cross-reactivity with anti-EMC-RBD antibodies. These RBD mutants with diminished DPP4 binding also led to virus attenuation, suggesting that immunoevasion after RBD immunization is accompanied by loss of viral fitness. Therefore, this study demonstrates that MERS-CoV RBD is an important vaccine target able to induce highly potent and broad-spectrum neutralizing antibodies against infection by divergent circulating human and camel MERS-CoV strains. MERS-CoV was first identified in June 2012 and has since spread in humans and camels. Mutations in its spike (S) protein receptor-binding domain (RBD), a key vaccine target, have been identified, raising concerns over the efficacy of RBD-based MERS vaccines against circulating human and camel MERS-CoV strains. Here, we constructed five vaccine candidates, designated 2012-RBD, 2013-RBD, 2014-RBD, 2015-RBD, and Camel-RBD, containing single or multiple mutations in the RBD of representative human and camel MERS-CoV strains during the 2012-2015 outbreaks. These RBD-based vaccine candidates maintained good functionality, antigenicity, and immunogenicity, and they induced strong cross-neutralizing antibodies against infection by divergent pseudotyped and live MERS-CoV strains, as well as antibody escape MERS-CoV mutants. This study provides impetus for further development of a safe, highly effective, and broad-spectrum RBD-based subunit vaccine to prevent MERS-CoV infection.

antibody escape mutants cross-neutralization MERS MERS-CoV multiple strains receptor-binding domain spike protein Animals Antibodies, Neutralizing Antibodies, Viral Binding Sites Camelus Coronavirus Infections Cross Reactions Dipeptidyl Peptidase 4 Female Gene Expression Humans

Structured evidence records

Evidence records

4 total

Genomic Evolution 2 records

Genomic Evolution Extraction confidence 0.80

Key finding

MERS-CoV spike RBDs from human and camel isolates between 2012 and 2015 contain distinct mutations that define divergent lineages and antibody escape variants, revealing molecular evolutionary variation within the MERS-CoV spike gene.

Virus

Host

Location

Supporting text

We constructed four recombinant RBD (rRBD) proteins with single or multiple mutations detected in representative human MERS-CoV strains from the 2012, 2013, 2014, and 2015 outbreaks, respectively, and one rRBD protein with multiple changes derived from camel MERS-CoV strains.

Genes or proteins: spike; receptor-binding domain (RBD)
Analysis methods: sequence comparison; mutation analysis

Genomic Evolution Extraction confidence 0.80

Key finding

Comparison of RBD sequences from camel MERS-CoV strains showed multiple mutations relative to human isolates, highlighting evolutionary divergence between camel and human MERS-CoV lineages.

Virus

Host

Location

Supporting text

We constructed one rRBD protein with multiple changes derived from camel MERS-CoV strains.

Genes or proteins: spike; receptor-binding domain (RBD)
Analysis methods: sequence comparison; mutation analysis

Molecular Adaptation 1 records

Molecular Adaptation Extraction confidence 0.95

Key finding

Mutations in the RBD of MERS-CoV reduce DPP4 binding, lead to viral attenuation, and allow antibody escape.

Virus

Host

Location

Supporting text

We then constructed two RBDs mutated in multiple key residues in the receptor-binding motif (RBM) of RBD and demonstrated their strong cross-reactivity with anti-EMC-RBD antibodies. These RBD mutants with diminished DPP4 binding also led to virus attenuation, suggesting that immunoevasion after RBD immunization is accompanied by loss of viral fitness.

Genes or proteins: spike (S) protein; RBD
Receptors: DPP4
Mechanism types: receptor_binding; immune_escape; pathogenicity

Receptor Usage 1 records

Receptor Usage Extraction confidence 0.95

Key finding

MERS-CoV spike receptor-binding domains from diverse human and camel strains directly interact with the DPP4 receptor, and reduced DPP4 binding correlates with virus attenuation.

Virus

Host

Location

Supporting text

Middle East respiratory syndrome coronavirus (MERS-CoV) binds to cellular receptor dipeptidyl peptidase 4 (DPP4) via the spike (S) protein receptor-binding domain (RBD)... These RBD mutants with diminished DPP4 binding also led to virus attenuation.

Method: binding assay; recombinant protein analysis
Receptors: dipeptidyl peptidase 4 (DPP4)

Citation context

References

48 references

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Evidence overview

Evidence 4

Types 3

Virus 1

Host 2

Evidence types

Genomic Evolution 2 Molecular Adaptation 1 Receptor Usage 1

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Publication metadata

Journal: Journal of virology
Volume / Issue / Pages: 91 / 1 / -
ISSN: 1098-5514
Journal country: United States
DOI: 10.1128/JVI.01651-16