Protein Repellent Properties of Covalently Attached PEG Coatings on Nanostructured SiO(2)-based Interfaces

Overview

Journal Biomaterials

Specialty Biomedical Engineering

Date 2007 Aug 19

PMID 17697710

Citations 49

Authors

Jacques Blummel

Nadine Perschmann

Daniel Aydin

Jovana Drinjakovic

Thomas Surrey

Monica Lopez-Garcia

Horst Kessler

Joachim P Spatz

Affiliations

Soon will be listed here.

Abstract

In this study, we report the systematic comparison of different poly(ethylene glycol) (PEG) self-assembled monolayers on glass with respect to their protein adsorption and cell adhesion resistance. Combining PEGylation with micellar nanolithography allowed the formation of gold nanoparticle arrays on glass and selective coverage of the free glass area by PEG. The gold nanoparticles serve as anchor points for the attachment of individual proteins and peptides such as the cell-matrix adhesion promoting cyclic RGDfK motif or the kinesin motor protein Eg5. The capability of the motor protein to bind microtubules remained unaffected by the immobilization. It was shown that the film thickness of a water swollen PEG layer is crucial to maximize the interaction between proteins and peptides with the nanostructures. Non-specific interaction between cells or microtubules and the surface was minimized. The optimum PEG layer thickness correlated with the size of gold nanoparticles which was approximately 5 nm.

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