SBIR-STTR Award

Preclinical Development of GV-MVA-VLP Vaccines Against COVID-19
Award last edited on: 3/14/2022

Sponsored Program
SBIR
Awarding Agency
NIH : NIAID
Total Award Amount
$299,927
Award Phase
1
Solicitation Topic Code
855
Principal Investigator
Mark J Newman

Company Information

GeoVax Labs Inc (AKA: GeoVax Inc~Dauphin Technology Inc)

1900 Lake Park Drive Suite 380
Smyrna, GA 30080
   (678) 384-7220
   info@geovax.com
   www.geovax.com
Location: Single
Congr. District: 11
County: Cobb

Phase I

Contract Number: 1R43AI157578-01
Start Date: 1/5/2021    Completed: 12/31/2021
Phase I year
2021
Phase I Amount
$299,927
With unprecedented speed and scale, SARS-CoV-2 has caused a deadly global pandemic. A safe and effectivevaccine to control this new pathogen is desperately needed. To address this need, GeoVax is leveraging itsunique GV-MVA-VLPTM platform and advanced antigen design to develop multiple vaccine candidates againstCOVID-19. Unique among COVID-19 vaccines, the GeoVax candidates are specifically designed to providehighly protective immunity against SARS-CoV-2 while avoiding antibody-dependent enhancement (ADE) andimmunopathology that have the potential to render vaccines not only ineffective but actually dangerous. Inaddition to the identification of the final vaccine candidate, the work proposed here will generate scientific datathat are extremely valuable to the overall field of COVID-19 vaccine development, in that testing of our uniquevaccines will determine whether application of our approach is able to overcome the ADE and immunopathologyrisks that plagued SARS vaccines. Under Specific Aim 1, we will complete the construction of GEO-CM02through GEO-CM04 vaccine candidates. We will then test these candidates to demonstrate antigen expression,manufacturability, formation of VLPs, and genetic stability under conditions designed to simulate those inmanufacturing, which will demonstrate the suitability of each vaccine construct as a candidate for full-scaleproduction. Finally, we will produce adequate amount of each vaccine to enable the animal studies planned inSpecific Aim 2 and ship the vaccines to our collaborators at the University of Texas Medical Branch. UnderSpecific Aim 2, we will then perform an immunogenicity and efficacy study in mice transgenic for humanangiotensin converting enzyme 2 (hACE2). The hACE2 transgenic mouse model is a rigorous animal modeldeveloped for SARS that is well suited for testing of human coronaviruses. We will immunize animals, samplethe animals for analysis of immune responses, challenge the animals with SARS-CoV-2, and monitor the animalspost-challenge for development of clinical signs of disease. Under Specific Aim 3, we will analyze samples fromthe hACE2 mouse study to assess the immunogenicity, efficacy and safety (ADE and immunopathology) of ourvaccine candidates. Immunogenicity analyses will include binding antibody (BAb) by ELISA, neutralizingantibody (NAb) by serum neutralization assay, antibody-dependent cellular cytotoxicity (ADCC) by cell-basedassay, and T cell responses by intracellular cytokine screening (ICS). Efficacy analyses will include viral loadand histopathology relative to unvaccinated controls. We will also analyze serum and tissue samples forevidence of ADE and immunopathology to test the hypothesis that our vaccines will avoid these risks associatedwith SARS vaccines. All these parameters will help to down select the most immunogenic (inducing broad Aband T cell responses) and safe (lack of ADE and immunopathology upon challenge) vaccine candidate for furthertesting in non-human primates and Phase 1 human trials. PROJECT NARRATIVE Over the course of only a few months, the COVID-19 disease has killed hundreds of thousands of people, sickened millions, paralyzed entire countries, and created massive economic damage. To end the current COVID-19 pandemic and prevent future outbreaks of this disease, we propose a single well-designed project including all work necessary to advance a COVID-19 vaccine to the point of readiness for clinical development. The project will advance a promising safe and effective product for the prevention of COVID-19 and will also generate scientific data that are extremely valuable to the overall field of COVID-19 vaccine development, in that testing of our unique vaccines will determine whether application of our approach is able to overcome the antibody-dependent enhancement (ADE) of infection and immunopathology risks that plagued work toward SARS vaccines. 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Phase II

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