Preclinical development of a docetaxel nanocarrier to enhance prostate cancer radiosensitivity.

41 Background: From 30% to 50% of high risk prostate cancer patients who undergo radiation therapy (RT) will have a biochemical failure. Combining chemotherapy, such as Docetaxel (DXL), with RT can enhance its efficiency. Multidrug resistance mechanisms often limit drug efficacy by decreasing tumor cell intracellular concentration of drugs. There is interest to develop nanocarrier of DXL to maintain drug inside cancer cells by improving its efficacy. The purpose of this study was to develop a titanate-nanotube (TiONt)-DXL nanocarrier (nanohybrid) and to evaluate its in vivobiodistribution as well as its radiosensitizing efficacy in association with RT on a hormone-independent prostate cancer model. Methods: DXL molecules were grafted on TiONts using PEG-3000 molecules to generate the nanohybrid. In vitrocytotoxic activity of the nanohybrid was evaluated on PC-3 cell line using MTS assay. After intratumoral injection, biodistribution analysis was performed by SPEC-CT imaging of mice bearing subcutaneous PC...