FG020326‐loaded nanoparticle with PEG and PDLLA improved pharmacodynamics of reversing multidrug resistance in vitro and in vivo 1

Aim: FG020326, a novel imidazole derivative, is a potent multidrug‐resistance (MDR) modulator in vitro and in vivo. However, FG020326 is insoluble. PEDLLA‐FG020326 is a FG020326‐loaded nanoparticle formed with diblock copolymers of poly (ethylene glycol)‐block‐poly ( D,L ‐lactic acid) (PEG:PDLLA, PEDLLA) that can solubilize FG020326. This work was intended to evaluate the pharmacodynamics of PEDLLA‐FG020326 on reversing MDR in vitro and in vivo. Methods: Cytotoxicity was determined by tetrazolium assay. The intracellular accumulation and efflux of doxorubicin (Dox) were detected by fluorescence spectrophotometry. The function of P‐glycoprotein was examined by Rhodamine 123 (Rh123) accumulation detected by flow cytometry. The KBv200 cell xenograft model was established to investigate the effect of PEDLLA‐FG020326 on reversing MDR in vivo. Results: PEDLLA‐FG020326 and FG020326 exhibited 56.4‐ and 35.9‐fold activity in reversing KBv200 cells to vincristine (VCR) resistance, respectively and 14.98‐and 7.64‐fold to Dox resistance, respectively. PEDLLA‐FG020326 was much stronger than FG020326, resulting in the increase of Dox and Rh123 accumulation and the decrease of intracellular Dox extrusion in KBv200 cells. Importantly, PEDLLA‐FG020326 exhibited more powerful activity than FG020326 in enhancing the effect of VCR against KBv200 cell xenografts in nude mice, but did not appear more toxic. Conclusion: The pharmacodynamics of FG020326 was improved by incorporating it into a micellar nanoparticle formed with PEG‐block‐PDLLA copolymers.