Abstract 7238: Exploring the potential of targeted DNA Nanobot delivery systems for gene delivery

Abstract Gene therapy is a cornerstone of modern medicine's quest for precision treatment to cure human disease including cancer. The current approach to gene delivery technology employs viral vector delivery systems. While effective, these vectors present significant challenges including immunogenicity, safety concerns due to off-target non-tissue specific delivery, payload limitations, and significant cost ultimately diluting their therapeutic potential. Thus, novel approaches to gene delivery are necessary. One such approach to address these critical limitations involves DNA Nanobots, a DNA-based nanotechnology that allows for a tissue-/target-cell specific gene delivery system. Utilizing DNA origami molecular assembly techniques, our DNA Nanobots offer a customizable and highly precise delivery platform, free from viral vector constraints. This innovative approach has the potential to transform the landscape of gene therapy by providing a safer, more efficient, and targeted alternative. Key technical advancements with our DNA Nanobots Gene Delivery Platform include: •CRISPR Cas-9 Integration: By incorporating CRISPR Cas-9 functional proteins, our nanobots were shown to enhance gene editing precision in primary human T cells, broadening therapeutic applications across various genetic conditions. •Targeted mRNA Delivery: Our nanobots revealed promising results in the targeted delivery of mRNA, vital for vaccine development and personalized treatments. •Efficient antisense/siRNA Delivery: Prior studies have overcome traditional challenges including endosomal escape and cytoplasmic entry, demonstrating effective siRNA delivery critical for gene silencing therapeutic development. In summary, DNA Nanobots mark a paradigm shift in gene therapy. Their ability to deliver various nucleic acids with high specificity and efficiency addresses many of the current methodological limitations especially off-target safety concerns and high cost. This advancement not only enhances the therapeutic index of existing treatments but also opens avenues for novel therapeutic strategies, potentially reshaping the future of molecular medicine and gene therapy. Citation Format: Melika Shahhoessini, Jeffrey R. Spitzner, Christopher R. Lucas, Carlos E. Castro, Patrick D. Halley. Exploring the potential of targeted DNA Nanobot delivery systems for gene delivery [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 7238.