Exploiting the relevance of the protein corona on the cellular uptake of polymeric micelles and polymersomes

Abstract

The project aims to understand the relevance of the protein-corona on the cellular uptake of polymeric micelles and polymersomes. Block copolymer micelles and polymersomes will be produced form novel synthesized Cy7-conjugated PHPMA35-b-PDPA35 block copolymers. The presence of the fluorescent dye DBCO-Cyanine 7 (Cy7) chemically conjugated to the polymer chains will enable the evaluation of cellular uptake by confocal laser scanning microscopy (CLSM) and flow cytometry. The self-assemblies will be manufactured by thin-film hydration (polymersomes) or nanoprecipitation (micelles) with further characterization via dynamic (DLS) and electrophoretic (ELS) light scattering, besides transmission electron microscopy (TEM). The Cy7-conjugated PHPMA35-b-PDPA65 assemblies will be exposed to human serum environment in order to enable plasma protein adsorption with further separation and semi-quantification by SDS-PAGE. In the step further, the cellular uptake behavior of protein-free and protein-bound assemblies will be monitored by CLSM and flow cytometry. Overall, we wish to understand the influence of the morphology in the development of protein layers onto the surface of micelles and polymersomes and its relevance to the cellular uptake of supramolecular self-assemblies having a PHPMA stabilizing shell. (AU)