Understanding the processes involved in the cellular uptake of nanoparticles is critical for developing effective nano drug delivery systems. In this paper we found that PEG-b-PLA polymeric micelles firstly interacted with cell membrane using atomic force microscopy (AFM) and then released their core-loaded agents into the cell membrane by fluorescence resonance energy transfer (FRET). The released agents were internalized into the cells via lipid raft/caveolae-mediated endocytosis using total internal reflection fluorescence microscopy (TIRFM) and endocytic inhibitors. Further studies revealed that paclitaxel (PTX)-loaded PEG-b-PLA micelles (M-PTX) increased the cellular accumulation of PTX in PTX-resistant human ovarian cell line A2780/T which resulted in more apoptosis as measured by flow cytometry and the cleavage of poly (ADP-ribose) polymerase (PARP) compared with free PTX. PEG-b-PLA micelles inhibited P-glycoprotein (Pgp) function and Pgp ATPase activity but had no effect on Pgp protein expression. The membrane microenvironment studies showed that PEG-b-PLA micelles induced cell membrane depolarization and enhanced membrane microviscosity. These results suggested that PEG-b-PLA micelles might inhibit Pgp function to reverse multidrug resistance (MDR) via interaction with cell membrane to affect the membrane microenvironment. This study provides a foundation for understanding the mechanism of reversing MDR by nanoparticles better and designing more effective nano drug carriers.
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