GeoVax Presents COVID-19 Vaccine Data at the European Society of Medicine (ESMED) General Assembly

GeoVax Labs, Inc. (Nasdaq: GOVX), a biotechnology company specializing in developing human vaccines and cancer immunotherapies, today presented data from ongoing studies of its preventive vaccine against COVID-19. The presentation titled, "Design of a Universal SARS-CoV-2 Vaccine Against Evolving Variants," was delivered virtually by Mark J. Newman, Ph.D., GeoVax's Chief Scientific Officer, during the European Society of Medicine (ESMED) General Assembly, being held August 19-21 in Berlin, Germany.

First-generation SARS-CoV-2 vaccines were rapidly developed and have proven highly efficacious in the human population and were designed to encode the prefusion stabilized Spike protein (S) with the goal of inducing high levels of neutralizing antibodies.  However, potential limitations of narrowly focusing on S are becoming apparent with emerging variants that partially escape neutralization by vaccine induced antibodies. Thus, the effectiveness of these vaccines against new SARS-CoV-2 variants and future coronavirus spillover events remains in question. 

Using its novel Modified Virus Ankara - Virus Like Particle (GV-MVA-VLP™) platform, GeoVax has developed a design strategy for vaccines expected to induce broader immunity through inclusion of multiple structural and nonstructural proteins from the target pathogen.  The GV-MVA-VLP™ platform is known to elicit a balanced humoral (antibody) and cellular response against a range of immunogens, possibly making immune escape against emerging variants less likely. Expression of the SARS-CoV-2 spike, membrane and envelope proteins by MVA supports the in vivo formation of virus like particles, or VLPs, which induce both antibody and T-cell responses. Incorporation of sequence-conserved nonstructural proteins can provide targets for T-cell responses to increase the breadth and function of vaccine-induced immune responses. This strategy provides the basis for generating a universal vaccine with augmented potential to alleviate the burden of disease caused by circulating coronaviruses.

In his talk, Dr. Newman discussed GeoVax's vaccine design strategy for developing a universal SARS-CoV-2 vaccine and presented stability and protein expression data for the Company's initial vaccine candidate, GEO-CM02, which encodes the Spike (S), Membrane (M) and Envelope (E) proteins.  Dr. Newman also presented vaccine efficacy and immunogenicity data for GEO-CM02 from hamster and transgenic mice studies to date.

Dr. Newman commented, "Our studies to date support the use of MVA as a vector for the design and production of next-generation vaccines encoding multiple coronavirus proteins, using the S protein as the antibody target and the M and E proteins as T-cell targets. The combination of S, M and E protein expression supports VLP formation and optimal immunogenicity.  In our studies, we observed the induction of functional antibodies and T-cell responses that mediate protection from infection and pathogenesis."

David Dodd, GeoVax President and CEO, further commented, "The presentation of data from this study further validates our platform and approach to addressing COVID-19 and its variants. Our vaccines under development are intended to be used as either a primary vaccine or to boost other COVID-19 vaccines as part of vaccination strategies to provide immunity to a range of coronavirus variants. We believe a critical and significant opportunity exists for a pan-coronavirus vaccine with the attributes the GV-MVA-VLP™ technology can offer."

About GeoVax

GeoVax Labs, Inc. is a clinical-stage biotechnology company developing human vaccines against infectious diseases and cancer using a novel patented Modified Vaccinia Ankara-Virus Like Particle (MVA-VLP) based vaccine platform. On this platform, MVA, a large virus capable of carrying several vaccine antigens, expresses proteins that assemble into VLP immunogens in the person receiving the vaccine. The production of VLPs in the person being vaccinated can mimic virus production in a natural infection, stimulating both the humoral and cellular arms of the immune system to recognize, prevent, and control the target infection. The MVA-VLP derived vaccines can elicit durable immune responses in the host similar to a live-attenuated virus, while providing the safety characteristics of a replication-defective vector.

GeoVax's current development programs are focused on preventive vaccines against COVID-19, HIV, Zika Virus, hemorrhagic fever viruses (Ebola, Sudan, Marburg, and Lassa), and malaria, as well as therapeutic vaccines against multiple cancers. The Company has designed a preventive HIV vaccine candidate to fight against the subtype of HIV prevalent in the commercial markets of the Americas, Western Europe, Japan, and Australia; human clinical trials for this program are managed by the HIV Vaccine Trials Network (HVTN) with the support of the National Institutes of Health (NIH). GeoVax's HIV vaccine is also part of a collaborative effort toward a functional cure for HIV.