Abstract

Abstract Plant virus nanoparticles are recognized as a platform technology for potential applications in nanomedicine. While non-infectious toward mammals, many plant virus nanoparticles are recognized by the immune system and act as potent adjuvants, both in the classical setting of vaccination and cancer immunotherapy. In the context of cancer immunotherapy, we have demonstrated potent efficacy of plant virus, particularly cowpea mosaic virus (CPMV) when applied intratumorally; CPMV signals through and activates multiple toll-like receptors, which primes a potent innate immune activation leading to reprogramming of the tumor microenvironment from an immunosuppressed to immune-activated state. Data in mouse models of melanoma, colon cancer, ovarian cancer, glioma, and breast cancer demonstrate potent efficacy through priming of the innate immune system leading to adaptive and systemic anti-tumor immunity and most importantly immune memory. Efficacy was also replicated in canine patients with melanoma. Given the promise of the plant virus nanotechnology as an adjuvant for cancer immunotherapy, we also have begun to utilize the technology as a vaccination platform for the generation of COVID-19 vaccine candidates. We formulated multivalent COVID-19 vaccine candidates using plant virus nanoparticles displaying SARS-CoV-2 S protein peptide B cell epitopes. The plant virus nanoparticle confers efficient lymphatic trafficking and targeting of antigen-presenting cells; the adjuvant properties of the nanotechnology lead to robust antibody levels against the target, S protein. While other vaccine candidates have advanced through clinical testing, our approach has unique advantages: The high thermal and pH stability of the plant virus nanotechnology alleviates cold chain requirements; further, the stability of the platform technology enables its integration into vaccine delivery devices such as microneedle patches that can be shipped globally and be self-administered. In this presentation, we will discuss our data on the cancer immunotherapy and highlight the potential to pivot the technology for infectious disease vaccines with unique attributes. This work was funded in part through grants from the National Cancer Institute (U01CA218292) and National Science Foundation (RAPID CMMI-2027668). Citation Format: Nicole F. Steinmetz, Jonathan K. Pokorski, Steven N. Fiering, P. Jack Hoopes, Sourabh Shukla, Oscar A. Ortega-Rivera, Steven King, Cyril J. Empig. Plant viral nanoparticle-based adjuvants for cancer immunotherapy and COVID-19 vaccines [abstract]. In: Proceedings of the AACR Virtual Meeting: COVID-19 and Cancer; 2021 Feb 3-5. Philadelphia (PA): AACR; Clin Cancer Res 2021;27(6_Suppl):Abstract nr S05-02.

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