Publications by authors named "Katherine Reil"
Colorectal cancer (CRC) remains the third most common form of cancer and, despite its reduced mortality, results in over 50,000 deaths annually, highlighting the need for novel therapeutic approaches. VAX014 is a novel clinical-stage, oncolytic bacterial minicell-based therapy shown to elicit protective antitumor immune responses in cancer, but it has not been fully evaluated in CRC. Here, VAX014 was demonstrated to induce oncolysis in CRC cell lines in vitro and was evaluated in vivo, both as a prophylactic (before spontaneous development of adenomatous polyps) and as a neoadjuvant treatment using the Fabp-CreXApc preclinical animal model of colon cancer.
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- Immunologically cold tumors, which lack tumor-infiltrating lymphocytes, are typically resistant to immune checkpoint blockade, but local treatment with immunomodulatory agents can boost T cell responses and enhance overall effectiveness when combined with systemic therapies.
- VAX014, a novel non-viral targeted oncolytic agent, was tested in preclinical models to analyze its local and systemic immunotherapeutic effects when injected directly into tumors, particularly focusing on improving outcomes in tumors characterized by an immune desert phenotype.
- Results showed that VAX014 led to significant immune-mediated clearance of injected tumors, increased CD8 T cell populations, and enhanced immune responses, although responses in non-injected tumors were modest, especially when used alone compared to when combined with systemic immune
Emerging clinical evidence indicates that the combination of local administration of immunotherapy with systemic immune-checkpoint blockade targeting the PD-1/PD-L1 pathway improves response rates in select solid tumor indications; however, limited clinical experience with this approach exists in advanced bladder cancer patients. VAX014 is a novel bacterial minicell-based, integrin-targeted oncolytic agent undergoing clinical investigation for intravesical (IVE) treatment of nonmuscle-invasive bladder cancer. Here, we demonstrated that the antitumor activity of VAX014 following IVE administration was dependent upon CD4+ and CD8+ T cells in two syngeneic orthotopic bladder tumor models (MB49 and MBT-2).
View Article and Find Full Text PDFBackground/aim: VAX014 minicells (VAX014) have been previously characterized as an integrin-specific oncolytic biotherapeutic agent. The present study was designed to evaluate the potential of VAX014 as an immediate post-operative intravesical adjuvant therapy in the treatment of non-muscle invasive bladder cancer (NMIBC).
Materials And Methods: The ability of VAX014 to kill a panel of dissociated urothelial carcinoma cell lines was tested in vitro.
The development of new therapies that can prevent recurrence and progression of nonmuscle invasive bladder cancer remains an unmet clinical need. The continued cost of monitoring and treatment of recurrent disease, along with its high prevalence and incidence rate, is a strain on healthcare economics worldwide. The current work describes the characterization and pharmacological evaluation of VAX-IP as a novel bacterial minicell-based biopharmaceutical agent undergoing development for the treatment of nonmuscle invasive bladder cancer and other oncology indications.
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