Protein Interactions with Layers of TiO Nanotube and Nanopore Arrays: Morphology and Surface Charge Influence

Overview

Journal Acta Biomater

Publisher Elsevier

Specialty Biomedical Engineering

Date 2016 Sep 2

PMID 27581395

Citations 27

Authors

Mukta Kulkarni

Anca Mazare

Jung Park

Ekaterina Gongadze

Manuela Sonja Killian

Slavko Kralj

Klaus von der Mark

Ales Iglic

Patrik Schmuki

Affiliations

Soon will be listed here.

Abstract

Statement Of Significance: Surface nanostructuring of titanium biomedical devices with TiO nanotubes was shown to significantly influence the adhesion, proliferation and differentiation of mesenchymal stem cells (and other cells too). A high level of control over the nanoscale topography and over the surface area of such 1D nanostructures enables a direct influence on protein adhesion. Herein, we investigate and show how the nanostructure morphology (nanotube diameter and length) influences the interactions with small-sized charged proteins, using as model proteins bovine serum albumin (negatively charged) and histone (positively charged). We show that the protein charge strongly influences their adhesion to the TiO nanostructures. Protein adhesion is quantified by ELISA measurements and determination of the nanostructures' total surface area. We use a quantitative surface charge model to describe charge interactions and obtain an increased magnitude of the surface charge density at the top edges of the nanotubes. In addition, we track the proteins presence on and inside the nanostructures. We believe that these aspects are crucial for applications where the incorporation of active molecules such as proteins, drugs, growth factors, etc., into nanotubes is desired.

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