Abstract 2880: CD133-targeting silicate prodrug nanoparticles for effective cancer stem cell targeting

Abstract

Abstract Cancer stem cells (CSCs) are considered to be key contributors to drug resistance and tumor recurrence in many solid tumors. Therapeutic approaches that specifically target these cells are needed to improve treatment outcomes in these tumor types. We are investigating CD133, a widely used surface marker to identify CSCs in colon, brain, and breast tumors. Here, we report the use of polymeric nanoparticles targeting CD133 by conjugating an anti-CD133 scFv-Fc to poly(L-lactide)-PEG-maleimide nanoparticles (anti-CD133 NPs) for effective CSC targeting. The Fc tagged anti-CD133 scFv was prepared and purified using an Expi293 expression system. Nanoparticles were prepared using flash nanoprecipitation and loaded with a hydrophobic, hydrolytically labile, silicate prodrug of paclitaxel. Flash nanoprecipitation allowed for generation of particles with a size of 232 ± 17 nm (increased to 289 ± 23 nm upon scFv conjugation), a zeta potential of -11.5 mV and a drug loading of 57 ± 8 wt% measured by HPLC. The anti-CD133 scFv-Fc was thiolated using 2-iminothiolane (2-IT) and conjugated to nanoparticles using thiol-maleimide chemistry. Thiolation of the antibody was optimized using different molar excesses of 2-IT. A binding assay using Caco-2 cells (which overexpress CD133) confirmed that thiolation of the antibody did not affect its binding, even at the highest molar excess of 2-IT used. With 200x molar excess of 2-IT, 2.9 thiols per antibody were added. Antibody conjugation was confirmed using gel electrophoresis; bands corresponding to the heavy and light chains of antibody were observed for anti-CD133 NPs after reduction but were not seen for non-reduced anti-CD133 NPs or for unconjugated particles. Cytotoxicity studies in MDA-MB-231-LM2 cells revealed maximum kill in drug loaded anti-CD133 NPs, which was significantly higher than for either non-targeted, drug-loaded nanoparticles or blank nanoparticles (p<0.05). Overall, these studies indicate the potential for using anti-CD133 scFv-Fc in conjunction with FNP-produced silicate prodrug nanoparticles of paclitaxel for efficient targeting of CSCs. Citation Format: Shubhmita Bhatnagar, Mengyuan Jin, Thomas Hoye, Jayanth Panyam. CD133-targeting silicate prodrug nanoparticles for effective cancer stem cell targeting [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 2880.