On October 2, 2023 PDS Biotechnology Corporation (Nasdaq: PDSB) (PDS Biotech or the Company), a clinical-stage immunotherapy company developing a growing pipeline of targeted cancer immunotherapies and infectious disease vaccines based on the Company’s proprietary T cell activating platforms, reported data demonstrating lead candidate PDS0101 in combination with standard-of-care (SOC) chemoradiotherapy (CRT) was associated with a rapid decline in human papillomavirus (HPV) circulating cell-free DNA (cfHPV-DNA), a potential predictive biomarker of treatment response (Press release, PDS Biotechnology, OCT 2, 2023, View Source [SID1234635566]). The data from the IMMUNOCERV Phase 2 clinical trial were featured in an oral presentation by Aaron Seo, MD, PhD, of The University of Texas MD Anderson Cancer Center, at the American Society for Radiation Oncology (ASTRO 2023) Annual Meeting in San Diego, CA.

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The IMMUNOCERV Phase 2 trial is investigating PDS0101 in combination with SOC CRT in the treatment of cervical cancer patients with large tumors over 5 cm in size and/or cancer that has spread to the lymph nodes. HPV is the primary cause of cervical cancer with over 99% caused by HPV infection, and cfHPV-DNA can be detected in the blood of patients with cervical cancer. HPV type 16 (HPV16) is the most prominent subtype associated with cervical cancer. The study presented at ASTRO 2023 evaluated the relationship between the levels of circulating cfHPV-DNA and the extent of disease, clinical staging, and treatment response in patients with HPV-positive cervical cancer.

"We are encouraged by this data from the IMMUNOCERV trial, which highlight the potential of PDS0101 to positively impact cfDNA, an emerging biomarker of clinical response in cervical and other HPV-related cancers," said Lauren V. Wood, MD, Chief Medical Officer of PDS Biotech. "The findings complement previously presented IMMUNOCERV data which suggested PDS0101 promotes the induction of multifunctional CD8 killer T cells that were associated with declines in circulating tumor DNA and a clinical response with greater than 60% tumor shrinkage at mid-point evaluation in 100% of high-risk cervical cancer patients on the trial. We look forward to continuing to address the unmet needs of patients suffering from HPV-positive cancers such as cervical cancer."

Sixty-one patients with cervical cancer were included in the analysis either as part of a SOC treatment banking protocol (n=44) or as part of the IMMUNOCERV Phase 2 clinical trial combining PDS0101 with SOC (n=17). Longitudinal plasma samples were collected from each patient at baseline, during weeks 1, 3, and 5, and at 3-4 months after CRT.

In the study, HPV16 was detected in 59% of tumors and 70% of cfDNA. The median cfDNA at baseline was 28.15 copies/mL, with a range of 0 to 206,030 copies/mL.

The presentation at ASTRO 2023 highlighted the following data:

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Earlier and greater proportion of cfDNA clearance with PDS0101 plus chemoradiation (CRT) vs. SOC CRT alone (81.3% clearance after 3 weeks vs. 30.3% with SOC (p=0.0018), and 91.7% of clearance at 5 weeks vs. 53.1% with SOC (p=0.0179)

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Baseline cfDNA levels correlated with the International Federation of Gynecology and Obstetrics (FIGO) stage and lymph node involvement; 100% of patients treated with PDS0101 had cancer that had spread to the lymph nodes

"HPV16 cfDNA represents a novel biomarker with the potential to help oncologists make more informed treatment decisions for their patients with HPV16-positive cancers. This early data are encouraging, and we will continue to evaluate patients to determine any potential correlations between cfDNA clearance and clinical outcomes. Further analysis of cfDNA kinetics could provide valuable information on the relationship between cfDNA levels, treatment response, and ongoing clinical outcomes," said study principal investigator Ann Klopp, MD, PhD, Professor of Radiation Oncology at MD Anderson. "I look forward to the continued evaluation of PDS0101 in combination with standard-of-care chemoradiotherapy."

About Versamune
Versamune is a novel investigational T cell activating platform which effectively stimulates a precise immune system response to a cancer-specific protein. Versamune based investigational immunotherapies promote a potent targeted T cell attack against cancers expressing the protein. They are given by subcutaneous injection and can be combined with standard of care treatments. Clinical data suggest that Versamune based investigational immunotherapies, such as PDS0101, demonstrate meaningful disease control by reducing and shrinking tumors, delaying disease progression and/or prolonging survival. Versamune based immunotherapies have demonstrated minimal toxicity to date that may allow them to be safely combined with other treatments. We believe Versamune based investigational immunotherapies represent a transformative treatment approach for cancer patients to provide improved efficacy, safety and tolerability.

About PDS0101
PDS0101, PDS Biotech’s lead candidate, is a novel investigational human papillomavirus (HPV)-targeted immunotherapy that stimulates a potent targeted T cell attack against HPV-positive cancers. PDS0101 is given by subcutaneous injection alone or in combination with other immunotherapies and cancer treatments. In a Phase 1 study of PDS0101 in monotherapy, the treatment demonstrated the ability to generate multifunctional HPV16-targeted CD8 and CD4 T cells with minimal toxicity. Interim data suggests PDS0101 generates clinically active immune responses, and the combination of PDS0101 with other treatments can demonstrate significant disease control by reducing or shrinking tumors, delaying disease progression and/or prolonging survival. The combination of PDS0101 with other treatments does not appear to compound the toxicity of other agents.