Much attention has been drawn to targeted nanodrug delivery systems due to their high therapeutic efficacy in cancer treatment. In this work, doxorubicin (DOX) was incorporated into a zwitterionic arginyl-glycyl-aspartic acid (RGD)-conjugated polypeptide by an emulsion solvent evaporation technique with high drug loading content (45%) and high drug loading efficiency (95%). This zwitterionic nanoformulation showed excellent colloidal stability at high dilution and in serum. The pH-induced disintegration and enzyme-induced degradation of the nanoformulation were confirmed by dynamic light scattering and gel permeation chromatography. Efficient internalization of DOX in the cells and high antitumor activity in vitro was observed. Compared with the free drug, this nanoformulation showed higher accumulation in tumor and lower systemic toxicity in vivo. The DOX-loaded zwitterionic RGD-conjugated polypeptide vesicles show potential application for targeted drug delivery in the clinic.
The surface primary amines of generation five poly(amido amine) (G5 PAMAM) dendrimer were modified by different amounts of carboxybetaine acrylamide (CBAA). As a result, the fully modified molecules (CBAA-PAMAM-20, obtained from the 20:1 molar ratio of CBAA molecules to amino groups in modification solution) show excellent compatibility with protein and cells. CBAA-PAMAM-20 and fibrinogen (Fg) could coexist in solution without forming aggregation, indicating very weak interaction force between CBAA-PAMAM-20 and fibrinogen. CBAA-PAMAM-20 exhibits almost undetectable hemolytic activity, while other partially modified ones cause severe hemolysis and fibrinogen aggregation. Furthermore, the membrane of human umbilical vascular endothelial cell (HUVEC) remains intact after 24 h incubation with CBAA-PAMAM-20. The cytotoxicity assay of HUVEC cells and KB cells also showed that the CBAA-PAMAM-20 was not cytotoxic up to a 2 mg/mL concentration (>90% cell viability). In short, a thin compact layer of zwitterionic carboxybetaine could reduce the cytotoxicity of PAMAM through minimizing the interaction with protein and cell membranes, which suggest that the carboxybetaine-coated PAMAM could be a useful platform for biocompatible carriers to load contrast agents and drugs.
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