Abstract MicroRNAs (miRNAs) inhibit the expression of genes through imperfect base pairing with target messenger RNAs (mRNAs), which allows a single miRNA the ability to regulate the expression of multiple genes, potentially acting as a multi-drug cocktail. In principle, tumor-suppressive miRNAs, such as miRNA-34a (miR-34a) are excellent anti-cancer agents; however, due to toxicity associated with currently used delivery vehicles and poor in vivo miRNA stability, the clinical application of miRNAs is thwarted. To overcome these challenges, we engineered two modifications to the miRNA. The first entails conjugating the miRNA to a ligand that promotes delivery specifically to cancer cells while the second involves using a fully chemically modified miRNA (FM-miR) to enhance miRNA stability. The ligand chosen for delivery, 2- [3-(1,3-dicarboxy propyl) ureido] pentanedioic acid (DUPA), is a high-affinity binding partner of the Prostate-Specific Membrane Antigen (PSMA), which is significantly upregulated on prostate cancer cells. We show that DUPA-miR-34a is specifically targeted to tumor cells overexpressing PSMA, is rapidly internalized by the cells, and induces target gene silencing. The binding and uptake of miR-34a by the tumor cells is dependent on conjugating the miRNA to DUPA. In vivo, DUPA-conjugates bind specifically to PSMA expressing prostate tumors with no significant uptake from normal organs or tumors with no PSMA expression. Additionally, Incorporation of the ionophore nigericin in the DUPA ligand enhances miR-34a silencing activity through facilitating its endosomal escape. However, since RNAs are inherently unstable a second modification was engineered to enhance the miRNA stability. Modifying miRNA through the inclusion of phosphorothioate linkages and 2′-fluoro and 2′-O-methyl modified ribose bases, enhances miRNA stability without compromising its activity. Fully modified miR-34a (FM-miR-34a) exhibits enhanced silencing activity of its target genes such as MET, and CD44 in comparison to partially modified miR-34a (PM-miR-34a). In addition, both PM-miR-34a and FM-miR-34a significantly inhibit cell proliferation in vitro, and the silencing of target genes requires the presence of argonaute 2 (AGO2) protein. We plan to identify the targeting differences between FM- and PM-miR-34a and will combine the DUPA ligand with FM-miR-34a to enhance both delivery and activity of miR-34a. Citation Format: Ahmed M. Abdelaal, Sudarshan Kasireddy, Ikjot S. Sohal, Philip S. Low, Andrea L. Kasinski. Efficient targeting of prostate cancer using ligand conjugated and chemically modified tumor suppressive miRNA [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 1482.