Macrophage escape by cholesterol-polyoxyethylene sorbitol oleate micelles for pulmonary delivery.

Aim: Micelles are one of the most promising nanoplatforms for drug delivery, and here, cholesterol-conjugated polyoxyethylene sorbitol oleate (CPSO) micelles have been fabricated for the pulmonary delivery of paclitaxel (PTX). Materials & methods: PTX-CPSO micelles were prepared by a dialysis-ultrasonic method, and a single-factor experiment with a Box-Behnken design was conducted to optimize the formulation. Furthermore, intracellular and phagocytosis escape studies of the optimized formulation were performed on A549 and NR8383 cells. Results: The optimal micelles exhibited satisfactory encapsulation efficiency (78.48 ± 2.36%) and drug loading (17.06 ± 1.71%). In vitro studies showed enhanced CPSO micelle A549 cellular uptake and their ability to escape macrophages. Conclusion: PTX-CPSO micelles could be a promising system for pulmonary targeting by intravenous administration.