Evaluation of candidate vaccine approaches for MERS-CoV

Lingshu Wang; Wei Shi; Michael Joyce; Kayvon Modjarrad; Yi Zhang; Kwanyee Leung; Christopher R. Lees; Tongqing Zhou; Hadi M. Yassine; Masaru Kanekiyo; Zhi-Yong Yang; Xuejun Chen; Michelle M. Becker; Megan Culler Freeman; Leatrice Vogel; Joshua C. Johnson; Gene G. Olinger; John Paul Todd; Ulaş Bağcı; Jeffrey Solomon; Daniel J. Mollura; Lisa E. Hensley; Peter B. Jahrling; Mark R. Denison; Srinivas S. Rao; Kanta Subbarao; Peter D. Kwong; John R. Mascola; Wing-Pui Kong; Barney S. Graham

doi:10.1038/ncomms8712

Evaluation of candidate vaccine approaches for MERS-CoV

Lingshu Wang(National Institutes of Health), Wei Shi(National Institutes of Health), Michael Joyce(National Institutes of Health), Kayvon Modjarrad(Henry M. Jackson Foundation), Yi Zhang(National Institutes of Health), Kwanyee Leung(National Institutes of Health), Christopher R. Lees(National Institutes of Health), Tongqing Zhou(National Institutes of Health), Hadi M. Yassine(National Institutes of Health), Masaru Kanekiyo(National Institutes of Health), Zhi-Yong Yang(National Institutes of Health), Xuejun Chen(National Institutes of Health), Michelle M. Becker(Vanderbilt University Medical Center), Megan Culler Freeman(Vanderbilt University Medical Center), Leatrice Vogel(National Institutes of Health), Joshua C. Johnson(National Institutes of Health), Gene G. Olinger(National Institutes of Health), John Paul Todd(National Institutes of Health), Ulaş Bağcı(National Institutes of Health), Jeffrey Solomon(National Institutes of Health), Daniel J. Mollura(National Institutes of Health), Lisa E. Hensley(National Institutes of Health), Peter B. Jahrling(National Institutes of Health), Mark R. Denison(Vanderbilt University Medical Center), Srinivas S. Rao(National Institutes of Health), Kanta Subbarao(National Institutes of Health), Peter D. Kwong(National Institutes of Health), John R. Mascola(National Institutes of Health), Wing-Pui Kong(National Institutes of Health), Barney S. Graham(National Institutes of Health)

Nature Communications

July 28, 2015

10.1038/ncomms8712

Cited by 314Open Access

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Abstract

The emergence of Middle East respiratory syndrome coronavirus (MERS-CoV) as a cause of severe respiratory disease highlights the need for effective approaches to CoV vaccine development. Efforts focused solely on the receptor-binding domain (RBD) of the viral Spike (S) glycoprotein may not optimize neutralizing antibody (NAb) responses. Here we show that immunogens based on full-length S DNA and S1 subunit protein elicit robust serum-neutralizing activity against several MERS-CoV strains in mice and non-human primates. Serological analysis and isolation of murine monoclonal antibodies revealed that immunization elicits NAbs to RBD and, non-RBD portions of S1 and S2 subunit. Multiple neutralization mechanisms were demonstrated by solving the atomic structure of a NAb-RBD complex, through sequencing of neutralization escape viruses and by constructing MERS-CoV S variants for serological assays. Immunization of rhesus macaques confers protection against MERS-CoV-induced radiographic pneumonia, as assessed using computerized tomography, supporting this strategy as a promising approach for MERS-CoV vaccine development.

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