Abstract Introduction: Treatment choices for early-stage prostate cancer include mostly watchful waiting, radical prostatectomy, or radiation therapy, whereas for advanced cases hormone therapy followed by chemo/radiotherapy are the preferred options, despite their notable side effects. There is a need for more effective therapy with lower side effects, especially for advanced scenarios. Unlike normal epithelial prostate cells, cancerous ones show reduced zinc (Zn) levels due to ZIP1 zinc transporter downregulation. Zn deficiency allows m-aconitase to remain active, making prostate cancer cells energy efficient and grow. High levels of Zn are needed to inhibit m-aconitase, the enzyme responsible for the first reaction in the Krebs cycle. This study aims to induce energy starvation and cell death of prostate cancer cells by inhibiting m-aconitase using the prostate-specific membrane antigen (PSMA)-targeting liposomal zinc. Methods: Liposomes were prepared by standard reverse phase evaporation method with DSPC, Cholesterol and DSPE-mPEG(2000) lipids. Zinc chloride was used to load Zn+2 into liposome following passive loading method. PSMA-expressing (PC3-PIP) and PSMA-null (PC3-LUC) human prostate cancer cells were used for in vitro studies. In the cell uptake study, cells were incubated with Dil-dye labeled liposomes for 2 hours before analyzing them by microscopy and flow cytometry. For the uptake inhibition study, cells were pre-incubated with PSMA-specific peptide for 2 hours before incubation with liposomes. Cytotoxicity studies were performed with PSMA-targeting Zn-loaded liposomes in PC3-PIP cells. Results: We conjugated the PSMA-specific peptide and control peptide (ASP3) with DSPE-PEG(3400)-NHS, and used them at various amounts (1 to 4 mol% of total lipid) to prepare Zn-loaded PSMA-targeting liposomes (TL) and control liposomes (CL), respectively. The average hydrodynamic diameter of all the liposomes was 120 to 130 nm, and zeta potential ranged from -16 to -12 mV. The encapsulation efficiency and loading capacity of Zn+2 were 0.6% and 8.5%, respectively. Cellular uptake studies showed a higher accumulation of PSMA-targeting liposome (TL) compared to non-targeting liposome (CL) in PSMA-expressing PC3 cells, whereas both liposomes showed low uptake in PSMA non-expressing cell. Furthermore, pre-treatment of PSMA-expressing cells with PSMA-specific peptide reduced the uptake of TL, indicating that the uptake of TL liposome is PSMA dependent. Finally, cytotoxicity studies showed that Zn-loaded TL, induces cell death in the PSMA-expressing cells. Overall, we developed PSMA-targeting Zn-containing liposomes that selectively target and kill PSMA-expressing prostate cancer cells. Future work includes testing the effect of Zn-loaded TL on m-aconitase activity and testing of in vivo efficacy of the formulation in prostate cancer models. Citation Format: Sujan K. Mondal, Alexander L. Klibanov, Anna Moore. Development of prostate specific membrane antigen-targeted liposomal zinc for the treatment of prostate cancer [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 5750.
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