Preclinical Data Shows Strong Immunogenicity & Protection With IMUNON’s PlaCCine DNA-Based Vaccines Modality
IMUNON, Inc. recently announced a manuscript titled Strong immunogenicity & protection in mice with PlaCCine: A COVID-19 DNA vaccine formulated with a functional polymer is available on the preprint server bioRxiv [here]. The study used IMUNON’s proprietary formulation against the spike proteins from two SARS-CoV-2 variants, both alone and in combination. These results add to the growing body of preclinical data confirming the efficacy and superior desirable features of the IMUNON’s PlaCCine vaccine modality.
Data from the study show:
- IMUNON’s proprietary formulation of functionalized polymer protected DNA from degradation, while the combination with an adjuvant led to an increase in protein expression.
- DNA formulated with PlaCCine resulted in a DNA vaccine product that was stable for up to one year at 4°C.
- DNA formulated in PlaCCine resulted in the induction of spike-specific neutralizing antibodies and cytotoxic T cells.
- In the in vivo challenge model, the vaccine-induced immune response was capable of suppressing viral replication.
- Multiple inserts can be cloned into the PlaCCine backbone (a plug-and-play strategy), therefore allowing for an immune response with broader protection.
“We are delighted our manuscript was selected for preprint and that the findings are now available to the scientific community,” said Dr. Corinne Le Goff, President and Chief Executive Officer of IMUNON. “Data from this murine study confirm PlaCCine’s potential to address SARS-CoV-2 pathogens and mutations both as a primary vaccine and as a booster. We expect that the plug-and-play capability we demonstrated, along with the ability to incorporate multiple antigens in a single plasmid, will be valuable in formulating a seasonal vaccine. Importantly, a vaccine that is stable at standard refrigerated temperatures for up to a year holds great commercial promise, especially in geographies lacking the infrastructure to support the special handling needs of mRNA vaccines. We are looking forward to commencing a human clinical trial with PlaCCine in SARS-CoV-2 during the first quarter of 2024.”
The company plans to submit the manuscript for publication in a peer-reviewed journal in the coming weeks.
IMUNON is a fully integrated, clinical-stage biotechnology company focused on advancing a portfolio of innovative treatments that harness the body’s natural mechanisms to generate safe, effective and durable responses across a broad array of human diseases, constituting a differentiating approach from conventional therapies. IMUNON is developing its non-viral DNA technology across four modalities. The first modality, TheraPlas, is developed for the coding of proteins and cytokines in the treatment of solid tumors where an immunological approach is deemed promising. The second modality, PlaCCine is developed for the coding of viral antigens that can elicit a strong immunological response. This technology may represent a promising platform for the development of vaccines in infectious diseases. The third modality, FixPlas, concerns the application of our DNA technology to produce universal cancer vaccines, also called tumor associated antigen cancer vaccines. The fourth modality, which is in the discovery phase, IndiPlas, will focus on the development of personalized cancer vaccines, or neoepitope cancer vaccines.
The company’s lead clinical program, IMNN-001, is a DNA-based immunotherapy for the localized treatment of advanced ovarian cancer currently in Phase 2 development. IMNN-001 works by instructing the body to produce safe and durable levels of powerful cancer-fighting molecules, such as interleukin-12 and interferon gamma, at the tumor site. Additionally, the Company is conducting IND-enabling preclinical studies for the development of a COVID-19 booster vaccine: IMNN-101. The Company has also initiated preclinical work to develop a Trp2 tumor associated antigen cancer vaccine in melanoma: IMNN-201. We will continue to leverage these modalities and to advance the technological frontier of plasmid DNA to better serve patients with difficult-to-treat conditions. For more information, visit www.imunon.com.
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