Combined targeting of perivascular anf endothelial tumor cells enhances anti-tumor efficacy of liposomal chemotherapy in neuroblastoma

The therapeutic index of anti-cancer drugs is increased when encapsulating them in tumor-targeted liposomes. Liposome-entrapped doxorubicin (DXR), targeting the tumor vasculature marker, aminopeptidase N (APN), displayed enhanced anti-tumor effects and prolonged survival in human neuroblastoma (NB)-bearing mice. Here we exploited a peptide ligand of aminopeptidase A (APA), discovered by phage display technology for delivery of liposomal DXR to perivascular tumor cells. Immunohistochemistry, performed in NB-bearing mice, showed APA expression in the vascular wall of NB primary and metastatic lesions. APA-targeted peptides displayed specific binding to APA-transfected cells in vitro, and also accumulation in the tumor of NB-bearing mice. Consequently, novel, APA-targeted, DXR-liposomeswere developed and in vivo proof-of-principle was established, alone and in combination with APN-targeted DXR-loaded liposomes, in NB-bearing mice. Mice receiving APA-targeted liposomal DXR exhibited an increased life span in comparison to control mice, but to a lesser extent relative to that in mice treated with APN-targeted formulation, moreover the greatest increase in TUNEL-positive tumor cellswas observed in animals treated withAPN-targeted formulations. Mice treated with a combination of APA- and APN-targeted, liposomal DXR had a significant increase in life span compared to each treatment administered separately. Therewas a significant increase in the level of apoptosis in the tumors of mice on the combination therapy, and a pronounced destruction of the tumor vasculature with nearly total ablation of endothelial cells and pericytes. The availability of novel ligands binding to additional tumor vasculatureassociated antigens will allowthe design of sophisticated combinations of ligand-targeted liposomal anti-cancer drug