Functionalized PGMA nanoparticles with aggregation-induced emission characteristics for gene delivery systems

Literature Information

Publication Date 2016-07-11
DOI 10.1039/C6PY00998K
Impact Factor 5.582
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Abstract

Cationic polymers are considered as potential gene carriers due to their intrinsic ability to compact pDNA. Generally, cationic vectors lack the abilities of long-term tracking and real-time imaging. Ethanolamine (EA)-functionalized poly(glycidyl methacrylate) (PGMA), namely BUCT-PGEA, has recently been reported as an effective gene carrier because of its low cytotoxicity and good transfection efficiency. In this work, a series of well-defined star-like PGMA-based cationic vectors (TPE-PGEA/TPE) with plenty of flanking hydrophobic fluorophore tetraphenylethene (TPE) groups was proposed for the development of efficient multifunctional gene delivery systems. TPE-PGEA/TPE polymers could self-assemble into cationic nanoparticles, show bright cyan fluorescence in aqueous media and display aggregation-induced emission phenomena. Compared with TPE-PGEA, TPE-PGEA/TPE nanoparticles had a largely improved transfection performance. In addition, such nanoparticles also possessed the property of real-time imaging, which can help to understand the mechanism of intracellular behavior.

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