Abstract

We study the structures of micelleplexes formed by quaternized poly(2-(dimethylamino) ethyl methacrylate)-b-poly(lauryl methacrylate) (QPDMAEMA-b-PLMA) amphiphilic cationic copolymer micelles interacting electrostatically with linear DNA of different lengths (113 and 2000 base pairs). QPDMAEMA-b-PLMA copolymers form micelles in aqueous milieu, with PLMA hydrophobic cores and QPDMAEMA cationic coronas. Nanosized micelleplexes were formed after mixing QPDMAEMA-b-PLMA micelles with DNAs, in a wide range of N/P ratios (nitrogen (N) of amine group of QPDMAEMA over phosphate (P) groups of DNA), as shown by Ultraviolet–Visible (UV–Vis) and fluorescence spectroscopy. Light scattering techniques demonstrated the formation of well-defined micelleplexes with monomodal and narrow size distributions, whose size and surface charge vary according to the N/P ratio. Micelleplexes presented stability under certain salt concentration. Spherical and worm-like micelleplexes were visualized by cryogenic transmission electron microscopy (Cryo-TEM). Overall, QPMDAEMA-b-PLMA micelles can efficiently interact with DNA. The stability, morphology and complexation of the micelleplexes were found to depend on copolymer molecular mass, the hydrophilic/hydrophobic ratio, the micellar structure, the length of DNA, the N/P ratio and the ionic strength. The findings demonstrate that QPDMAEMA-b-PLMA polyelectrolyte copolymer micelles have prospects for their application as non-viral vectors for nucleic acids delivery and gene therapy.

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