Intracellular delivery of doxorubicin with RGD-modified sterically stabilized liposomes for an improved antitumor efficacy: In vitro and in vivo

Passive targeting by sterically stabilized liposomes (SSL), once combined with efficient intracellular delivery, may be a very useful strategy to improve the antitumor efficacy for the anticancer agents. The arginine-glycine-aspartic acid tripeptide (RGD) is known to serve as a recognition motif for several different integrins located on cell surface. In this study, the RGD tripeptide was coupled to the distal end of the poly (ethylene glycol)-coated liposomes (RGD-SSL) aimed to achieve increased tumor accumulation and enhanced intracellular uptake. DOX-loaded RGD-SSL (RGD-SSL-DOX), DOX-loaded SSL (SSL-DOX), and free DOX were compared with respect to their in vitro uptake and cytotoxicity and their in vivo biodistribution and therapeutic efficacy in tumor-bearing mice. Flow cytometry and confocal microscopy studies revealed that RGD-SSL could facilitate the DOX uptake into melanoma cells by integrin-mediated endocytosis. RGD-SSL-DOX displayed higher cytotoxicity on melanoma cells than SSL-DOX. While RGD-SSL-DOX demonstrated prolonged circulation time and increased tumor accumulation as SSL-DOX did, it showed remarkably higher splenic uptake than SSL-DOX. Mice receiving RGD-SSL-DOX (5 mg DOX/kg) showed effective retardation in tumor growth compared with those receiving same dose of SSL-DOX, free DOX solution, or saline. These results suggest that RGD-modified SSL may be a feasible intracellular targeting carrier for efficient delivery of chemotherapeutic agents into tumor cells.