Abstract 3627: Development of CLENs for future treatment & diagnostic detection using cell models of drug-resistant ovarian cancer

Abstract

Abstract Current guidelines suggest the use of a platinum agent and a taxane as first line therapy for ovarian cancer where total surgical resection is limited. Liposomal preparations of these drugs have demonstrated therapeutic value by increasing drug uptake and reducing toxicity. The following research aims to improve target specificity by employing a multi-strategic approach to drug targeting and treatment in vitro. Cellular membrane lipid-extracted nanoliposomes (CLENs) were constructed in part from lipid extracts (LE) derived from the membrane of multidrug resistant ovarian cancer (SKOV-3-MDR) cell lines, and more conventional components of liposomes. Formulations of greatest interest were selected after comparing cellular uptake studies of conventional liposomes to various types of CLENs composed of mixed ratios of DOPC, cholesterol, and LE. Cellular uptake was measured by rhodamine fluorescence (RF) following 24 hours incubation in 48 well plates, where RF was used as an indicator of cellular uptake. To determine effectiveness of LE, formulations with and without synthetic cationic lipid DOTAP were compared. Flow cytometry was used to evaluate liposome binding. Additional studies include drug loading efficiency and SRB cytotoxicity studies involving cisplatin, and the effect of additional inclusion of MAG-C (magnetic material) in the SKOV-3 lipid extract-containing liposomes. CLENs containing 15% LE demonstrated greater uptake compared to CLENs prepared with 0% and 5% LE content. Minimal uptake was observed in non-target cancer cell lines (prostate cancer-CRL-1740 and gliobastoma-U87MG), as well as with normal pancreas, non-malignant (hTERT) cell line. The fluorescence intensity values reported for SKOV-3-MDR, CRL-1740, U87-MG and hTERT, were 437 ± 153, 295 ± 67, 57 ± 6, and 29 ± 6, respectively. The additional inclusion of DOTAP showed significant cellular uptake with and without LE. Flow cytometry showed greater initial binding of CLENs to target cells when LE was included in preparations. Incorporation efficiency of cisplatin into SKOV-3 CLENS was 67%. Chemotherapy drug-loaded CLENs is an appealing vehicle as it addresses many parameters. Early findings suggest that CLENS is a suitable vehicle for targeting and treatment using a drug-resistant ovarian cancer cell line. CLENS allows for faster initial nanoparticle binding, cell-type specific uptake, and enhances cytotoxicity. Our encouraging results corroborate this theorem, showing greater targeting with reduced uptake by non-target cells. Additional studies involving MAG-C are currently underway. Citation Format: Negar Amini, Joshua Emerson, Jenel Clement. Development of CLENs for future treatment & diagnostic detection using cell models of drug-resistant ovarian cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 3627.