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GeoVax Presents COVID-19 Vaccine Data at the Vaccine World Asia Congress

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GeoVax Labs, Inc. (Nasdaq: GOVX) recently presented data on its COVID-19 vaccine candidate, GEO-CM02, at the Vaccine World Asia Congress. Developed using the GV-MVA-VLP™ platform, this vaccine aims to provide broader immunity against evolving SARS-CoV-2 variants by targeting multiple structural proteins. Efficacy studies show promise, including protection against the Beta variant. Additionally, GeoVax's collaboration with City of Hope on the multi-antigenic vaccine COH04S1 is progressing through Phase 2 trials, reinforcing its commitment to combat COVID-19 in vulnerable populations.

Positive
  • Promising efficacy data from GEO-CM02 for broader immunity against SARS-CoV-2 variants.
  • Collaboration with City of Hope on COH04S1, showing potential for immunocompromised patients.
Negative
  • Existing vaccines showing limitations against emerging variants, raising concerns about long-term effectiveness.
  • Ongoing clinical trials pose risks and uncertainties about timely development and regulatory approvals.

GEO-CM02 Being Developed as a Universal Vaccine to Address Evolving SARS-CoV-2 Variants

ATLANTA, GA, Nov. 17, 2021 (GLOBE NEWSWIRE) -- via NewMediaWire -- 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, “Addressing Evolving SARS-CoV-2 Variants through a Universal Coronavirus Vaccine,” was delivered virtually by Mark J. Newman, Ph.D., GeoVax’s Chief Scientific Officer, during the Vaccine World Asia Congress & Global COVID-19 Vaccine Manufacturing & Supply Chain Summit, being held November 17-18.

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-VLPTM) platform, GeoVax has developed a design strategy for vaccines expected to induce broader immunity through inclusion of multiple, genetically conserved structural proteins from the target pathogen. The GV-MVA-VLPTM platform is known to induce a balanced humoral (antibody) and cellular (T-cells) response against the multiple encoded immunogens, potentially limiting immune escape against emerging variants. 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 structural and 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 efficacy and immunogenicity data for the Company’s lead vaccine candidate, GEO-CM02, which encodes the Spike (S), Membrane (M) and Envelope (E) proteins. Dr. Newman’s presentation is available on GeoVax’s website at www.geovax.com/investors/events.

Dr. Newman commented, “Our studies continue to support the use of MVA as a vector for the design and production of next-generation vaccines encoding multiple coronavirus proteins. The lead candidate encodes 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 in vivo VLP formation and optimal immunogenicity.  In our studies, we measured functional immune responses after a single dose that mediated protection from infection and pathogenesis, including protection against the Beta variant, in our small animal models.”

David Dodd, GeoVax President and CEO, further commented, “The presentation of data from our studies to date further validates our MVA platform and approach to addressing COVID-19 and its variants. We believe a critical and significant opportunity exists for a pan coronavirus vaccine with the attributes the GV-MVA-VLPTM technology can offer.”

Dodd added, “Our development of GEO-CM02 as a potential pan coronavirus vaccine complements our recent in-license of GEO/COH04S1, a multi-antigenic SARS-CoV-2 investigational vaccine, developed at City of Hope for immunocompromised patients, which is currently being studied in an ongoing Phase 2 clinical trial and shows a strong potential to be used in the general population as a primary and/or general booster vaccine against COVID-19 worldwide.”

About GeoVax

GeoVax Labs, Inc. is a clinical-stage biotechnology company developing human vaccines against infectious diseases and cancer using novel patented platforms. GeoVax’s Modified Vaccinia Ankara-Virus Like Particle (MVA-VLP) based vaccine platform utilizes MVA, a large virus capable of carrying several vaccine antigens, that expresses proteins that assemble into VLP immunogens in the person receiving the vaccine. The production of VLP 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 MVA-VLP development programs are focused on preventive vaccines against COVID-19, HIV, Zika Virus, and hemorrhagic fever viruses (Ebola, Sudan, Marburg, and Lassa), 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.

On November 9, 2021, GeoVax entered into a license agreement with City of Hope (“COH”), granting GeoVax exclusive rights to further develop and commercialize COH04S1, a synthetic attenuated modified vaccinia Ankara (sMVA) vector expressing spike and nucleocapsid antigens of the SARS-CoV-2 virus. In a placebo-controlled Phase 1 clinical trial of healthy adults, COH04S1 was shown to be safe and immunogenic. A Phase 2 clinical trial to evaluate the safety and immunogenicity of the COH04S1 investigational vaccine, compared to the Pfizer mRNA-based vaccine, in patients who have previously received either an allogeneic hematopoietic cell transplant, an autologous hematopoietic cell transplant or chimeric antigen receptor (CAR) T cell therapy is currently underway. The trial is also the first to compare an investigational multi-antigenic COVID-19 vaccine to the current Food and Drug Administration (FDA)-approved mRNA vaccine from Pfizer/BioNTech in people who are immunocompromised. Such patients have often shown a weak antibody response after receiving currently available COVID-19 vaccines. The ongoing Phase 2 trial is designed to evaluate COH04S1 in immunocompromised patients. An additional Phase 1/2 trial to evaluate COH04S1 as a universal booster to current FDA-approved vaccines is anticipated to open soon for enrollment in healthy volunteers.

In September 2021, GeoVax expanded its immuno-oncology pipeline and added a new technology platform through the acquisition of exclusive rights to Gedeptin®, a novel patented product for the treatment of solid tumors through a gene therapy strategy known as GDEPT (Gene-Directed Enzyme Prodrug Therapy). In GDEPT, a vector is used to selectively transduce tumor cells with a nonhuman gene, which expresses an enzyme that can convert a nontoxic prodrug into a very toxic antitumor compound. A Phase 1/2 trial is currently enrolling to evaluate the safety and efficacy of repeat cycles of Gedeptin therapy in patients with recurrent head and neck squamous cell carcinoma (HNSCC), with tumors accessible for injection and no curable treatment options. The initial stage of the study is being funded by the FDA pursuant to its Orphan Products Clinical Trials Grants Program. A cycle of Gedeptin therapy consists of three intra-tumoral injections over a two-day period followed by infusion of a prodrug, fludarabine phosphate, once a day for three days. The FDA has granted Gedeptin Orphan Drug status for the treatment HNSCC. GeoVax’s license to Gedeptin include rights to expand its use to all human diseases and/or conditions including, but not limited to, other cancers.

Forward-Looking Statements

This release contains forward-looking statements regarding GeoVax’s business plans. The words “believe,” “look forward to,” “may,” “estimate,” “continue,” “anticipate,” “intend,” “should,” “plan,” “could,” “target,” “potential,” “is likely,” “will,” “expect” and similar expressions, as they relate to us, are intended to identify forward-looking statements. We have based these forward-looking statements largely on our current expectations and projections about future events and financial trends that we believe may affect our financial condition, results of operations, business strategy and financial needs. Actual results may differ materially from those included in these statements due to a variety of factors, including whether: GeoVax is able to obtain acceptable results from ongoing or future clinical trials of its investigational products, GeoVax’s immuno-oncology products and preventative vaccines can provoke the desired responses, and those products or vaccines can be used effectively, GeoVax’s viral vector technology adequately amplifies immune responses to cancer antigens, GeoVax can develop and manufacture its immuno-oncology products and preventative vaccines with the desired characteristics in a timely manner, GeoVax’s immuno-oncology products and preventative vaccines will be safe for human use, GeoVax’s vaccines will effectively prevent targeted infections in humans, GeoVax’s immuno-oncology products and preventative vaccines will receive regulatory approvals necessary to be licensed and marketed, GeoVax raises required capital to complete development, there is development of competitive products that may be more effective or easier to use than GeoVax’s products, GeoVax will be able to enter into favorable manufacturing and distribution agreements, and other factors, over which GeoVax has no control.

Further information on our risk factors is contained in our registration statement on Form S-3 and the periodic reports on Form 10-Q and Form 10-K that we have filed and will file with the SEC. Any forward-looking statement made by us herein speaks only as of the date on which it is made. Factors or events that could cause our actual results to differ may emerge from time to time, and it is not possible for us to predict all of them. We undertake no obligation to publicly update any forward-looking statement, whether as a result of new information, future developments or otherwise, except as may be required by U.S. federal securities law. 

GeoVax Labs, Inc.
6783847220
investor@geovax.com


FAQ

What is the significance of GEO-CM02 by GeoVax Labs?

GEO-CM02 is designed to provide broader immunity against SARS-CoV-2 variants and has shown promising efficacy in studies.

When was the data on GEO-CM02 presented?

Data on GEO-CM02 was presented on November 17, 2021, during the Vaccine World Asia Congress.

How does the GV-MVA-VLP™ platform work?

The GV-MVA-VLP™ platform induces both antibody and T-cell responses by expressing multiple structural proteins to combat SARS-CoV-2.

What is the status of the COH04S1 vaccine trial?

The COH04S1 vaccine is currently in a Phase 2 clinical trial, aimed at immunocompromised patients.

What variants does GEO-CM02 protect against?

GEO-CM02 has demonstrated protection against the Beta variant in animal models.

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