Culture of A7r5 smooth muscle cells on a polyelectrolyte multilayer film (PEMU) can influence various cell properties, including adhesion, motility, and cytoskeletal organization, that are modulated by the extracellular matrix (ECM) in vivo. ECM contribution to cell behavior on PEMUs was investigated by determining the amount of fibronectin (FN) bound to charged and hydrophobic PEMUs by optical waveguide lightmode spectroscopy and immunofluorescence microscopy. FN bound best to poly(allylamine hydrochloride) (PAH)-terminated and Nafion-terminated PEMUs.
View Article and Find Full Text PDFPolyelectrolyte multilayer films were employed to support attachment of cultured rat aortic smooth muscle A7r5 cells. Like smooth muscle cells in vivo, cultured A7r5 cells are capable of converting between a nonmotile "contractile" phenotype and a motile "synthetic" phenotype. Polyelectrolyte films were designed to examine the effect of surface charge and hydrophobicity on cell adhesion, morphology, and motility.
View Article and Find Full Text PDFProtein adsorption on polyelectrolyte multilayers (PEMUs) was evaluated using a combination of synthetic polyelectrolytes and proteins, including serum albumin, fibrinogen, and lysozyme. Variables such as surface and protein charge, polymer hydrophobicity, and hydrophilic repulsion were introduced to probe interaction mechanisms. Quantitative analysis with reflectance Fourier transform infrared spectroscopy, optical waveguiding, and UV-vis absorption, together with qualitative information from atomic force microscopy, provided a coordinated picture for what drives protein adsorption and how the molecules are disposed on the multilayer surface.
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