Abstract

Abstract Recent developments in ligand-conjugated RNAi therapeutics have led to improved stability of RNAi molecules, reducing effective therapeutic dose, and avoiding delivery vehicle-associated toxicity. However, as our group has shown in previous studies with FolamiR (Folate-conjugated miR-34a), endosomal entrapment of the therapeutic molecule is a rate-limiting factor in RNAi activity. To improve endosomal release of ligand-conjugates, several approaches are being explored such as incorporation of endosomal escape agents (nigericin), chemical modification to enhance stability of miRNA/siRNA within the acidic compartments, and modification of ligand-receptor interaction to enable adequate release from the receptor upon internalization. Current fluorescent microscopy techniques are only able to approximately estimate the cellular fate of FolamiR without providing enough resolution to determine the endosomal stage, receptor disengagement and other dynamics involved in the endosomal entrapment/release of FolamiR. To overcome this, we developed Folate-conjugated nanogold construct (FolaGold) that mimics FolamiR molecule. The nanogold in FolaGold is used as a proxy for miR-34a and electron microscopy can be performed to pinpoint the cellular fate of nanogold including receptor disengagement process, the endosomal stage as well as cytosolic enrichment at the nanometer resolution. In this study, FolaGold is validated to bind to folate receptor in a competition assay and is confirmed to be present in specific endosomal compartments in MB231 cells, unlike unconjugated nanogold. We further plan to use FolaGold to determine changes in intracellular fate of nanogold upon incorporation of endosomal escape agents (nigericin) and modification of ligand-receptor interaction by using a lower affinity binding ligand that facilitates ligand-receptor disengagement following internalization. While we are using nanogold labeling to determine the intracellular fate of ligand-conjugated RNAi therapeutics, the labeling can also help improve our understanding of endosomal release dynamics and activity of other ligand-conjugate based therapeutics. Citation Format: Ikjot S. Sohal, Ahmed M. Abdelaal, Andrea L. Kasinski. Determining the intracellular fate of ligand-conjugated therapeutics using nanogold labeling [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1740.

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