Anti-tumor efficacy of polymer-platinum(II) complex micelles fabricated from folate conjugated PEG-graft-α,β-poly [(N-amino acidyl)-aspartamide] and cis-dichlorodiammine platinum(II) in tumor-bearing mice.

To develop a tumor-targeting nano-sized delivery system of cis-dichlorodiammine platinum(II) (CDDP), polymer-metal complex micelles were fabricated from folate-conjugated PEG-graft-α,β-poly [(N-amino acidyl)-aspartamide] (FA-PEG-g-PAAsp) and CDDP. The formation of polymer-metal complex micelles was confirmed by the measurements of critical aggregation concentration (CAC) and particle size, and the morphological observation. It was found that all the micelles showed spherical shapes with clear core-shell structures in narrow size distributions. The typical particle size measured by dynamic laser scattering (DLS) was ca. 105 nm, suggesting their passive targeting to tumor tissue and endocytosis potential. FA-PEG-g-PAAsp-CDDP micelles showed sustained drug release profiles over 40 h, and their accumulative drug release was ranked in the order of FA-PEG-g-PAsp-Ami-CDDPFA-PEG-g-PAAsp-CDDP>mPEG-g-PAAsp-CDDP, the severe toxicity of CDDP in vivo limited its use as ideal anti-tumor drug. Furthermore, FA-PEG-g-PAAsp-CDDP and mPEG-g-PAAsp-CDDP showed rather low toxicity against mice, just similar to that of PBS. It indicated the great potential utilization of the FA-PEG-g-PAAsp-CDDP micelles as the tumor-targeted drug carriers of CDDP with improved anti-tumor efficacy.