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  • Title: Cationic poly(ethyleneglycol) lipids incorporated into pre-formed vesicles enhance binding and uptake to BHK cells.
    Author: Fenske DB, Palmer LR, Chen T, Wong KF, Cullis PR.
    Journal: Biochim Biophys Acta; 2001 Jun 06; 1512(2):259-72. PubMed ID: 11406103.
    Abstract:
    This paper describes a new method for enhancing the interaction of liposomes with cells. A novel class of cationic poly(ethyleneglycol) (PEG)-lipid (CPL) conjugates have been characterized for their ability to insert into pre-formed vesicles and enhance in vitro cellular binding and uptake of neutral and sterically-stabilized liposomes. The CPLs, which consist of a distearoylphosphatidylethanolamine (DSPE) anchor, a fluorescent dansyl moiety, a heterobifunctional PEG polymer (M(r) 3400), and a cationic headgroup composed of lysine derivatives, have been described previously [Bioconjug. Chem. 11 (2000) 433]. Five separate CPL, possessing 1-4 positive charges in the headgroup (referred to as CPL(1)-CPL(4), respectively), were incubated (as micellar solutions) in the presence of neutral or sterically-stabilized cationic large unilamellar vesicles (LUVs), and were found to insert into the external leaflet of the LUVs in a manner dependent on temperature, time, CPL/lipid ratio, and LUV composition. For CPL/lipid molar ratios < or =0.1, optimal insertion levels of approximately 70% of initial CPL were obtained following 3 h at 60 degrees C. The insertion of CPL resulted in aggregation of the LUVs, as assessed by fluorescence microscopy, which could be prevented by the presence of 40 mM Ca(2+). The effect of CPL-insertion on the binding of LUVs to cells was examined by fluorescence microscopy and quantified by measuring the ratio of rhodamine fluorescence to protein concentration. Neither control LUVs or LUVs containing CPL(2) displayed significant uptake by BHK cells. However, a 3-fold increase in binding was observed for LUVs possessing CPL(3), while for CPL(4)-LUVs values as high as 10-fold were achieved. Interestingly, the increase in lipid uptake did not correlate with total surface charge, but rather with increased positive charge density localized at the CPL distal headgroups. These results suggest that incorporation of CPLs into existing liposomal drug delivery systems may lead to significant improvements in intracellular delivery of therapeutic agents.
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