Sponsor content

Collaborative Research and Licensing Opportunity: PREFUSION CORONAVIRUS SPIKE PROTEINS AND THEIR USE

Inventors at the Vaccine Research Center of the National Institute of Allergy and Infectious Diseases have developed a novel CoV S protein vaccine antigen. This technology employs protein engineering to stabilize S in its prefusion conformation, preventing structural rearrangement, and exposing antigenically preferable surfaces. The technology has been applied to several CoV spikes, including those from human-relevant viruses, such as HKU1-CoV, SARS-CoV, and MERS-CoV. Particularly for MERS-COV, stabilized S proteins have been shown to elicit superior neutralizing antibody responses up to 10-fold higher in animal models and protect mice against lethal MERS-CoV infection.

Like 0 Comment

Coronaviruses (CoVs) can cause severe respiratory disease with high fatality rates in humans. The 2002-2003 SARS-CoV epidemic resulted in 8098 cases and 744 deaths, and MERS-CoV, which emerged in 2012, has resulted in 2144 cases and over 750 deaths as of March 2018. Currently, there are no effective prophylactic or therapeutic measures, and because other CoVs are poised to emerge as new human pathogens, there is a need to define a general CoV vaccine solution. Past efforts to develop CoV vaccines have used whole-inactivated virus, live-attenuated virus, recombinant protein subunit, or genetic approaches.

CoV spike (S) proteins mediate cellular attachment and membrane fusion and are therefore the target of protective antibodies. Inventors at the Vaccine Research Center of the National Institute of Allergy and Infectious Diseases have developed a novel CoV S protein vaccine antigen. This technology employs protein engineering to stabilize S in its prefusion conformation, preventing structural rearrangement, and exposing antigenically preferable surfaces. The technology has been applied to several CoV spikes, including those from human-relevant viruses, such as HKU1-CoV, SARS-CoV, and MERS-CoV.  Particularly for MERS-COV, stabilized S proteins have been shown to elicit superior neutralizing antibody responses up to 10-fold higher in animal models and protect mice against lethal MERS-CoV infection. This technology is applicable for delivery via other platforms, such as mRNA.

Potential Commercial Applications: 

The stabilized prefusion coronavirus spike protein can be used as a vaccine antigen to elicit robust neutralizing antibody responses.  

Competitive Advantages: 

·         Improved immunogenicity compared to other coronavirus S vaccine formulations.

·         Increased protein expression, stability, and manufacturability compared to wild-type CoV S.  

Development Stage: 

·         In vivo data available (animal).  

Inventors: 

Barney Graham (NIAID), Masaru Kanekiyo (NIAID), M. Gordon Joyce (NIAID), Kizzmekia Corbett (NIAID), Hadi Yassine (NIAID), Andrew Ward (Scripps), Robert Kirchdoefer (Scripps), Christopher Cottrell (Scripps), Jesper Pallesen (Scripps),

Hannah Turner (Scripps), Nianshuang Wang (Dartmouth), Jason McLellan (Dartmouth),  

Intellectual Property:  HHS Reference No. E-234-2016/0, U.S. Provisional Patent Application Number 62/412,703, filed October 25, 2016, PCT Patent Application PCT/US2017/058370 filed October 25, 2017.  

Licensing  And Collaborative Research Opportunity:  The National Institute of Allergy and Infectious Diseases is seeking statements of capability or interest from parties interested in collaborative research to further develop, evaluate or commercialize norovirus diagnostics or vaccines.  For collaboration and licensing opportunities, please contact Amy Petrik, Ph.D., 240-627-3721; amy.petrik@nih.gov.  


Go to the profile of NIAID Technology Transfer and Intellectual Property Office

NIAID Technology Transfer and Intellectual Property Office

NIAID’s technology transfer office, TTIPO, is a one-stop resource for organizations interested in partnering with NIAID to access, develop, and manage the translation of research discoveries into medically beneficial products. TTIPO seeks to expand NIAID’s innovation pipeline with existing and new partners in areas such as newly emerging and re-emerging infectious diseases (e.g., dengue, Zika, Ebola, influenza, methicillin-resistant Staphylococcus aureus and HIV/AIDS), biodefense (e.g., smallpox and anthrax), and immune-mediated diseases (e.g., asthma and allergy).

No comments yet.