Title of article
Probing aggregation and fibril formation of insulin in polyelectrolyte multilayers
Author/Authors
Koo، نويسنده , , Juny and Czeslik، نويسنده , , Claus، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
9
From page
80
To page
88
Abstract
Ultrathin films are useful for coating materials and controlling drug delivery processes. Here, we explore the use of polyelectrolyte multilayers as templates for the formation of two-dimensional protein networks, which represent biocompatible and biodegradable ultrathin films. In a first step, we have studied the lateral aggregation and amyloid fibril formation of bovine insulin that is adsorbed at and confined within planar polyelectrolyte multilayers, assembled with poly(diallyldimethylammonium chloride) (PDDA), poly(styrenesulfonic acid) (PSS), and hyaluronic acid (HA). Si-PDDA-PSS-(insulin-PSS)x and Si-PDDA-PSS-(insulin-HA)x multilayers (x = 1–4) have been prepared and characterized in the fully hydrated state by using X-ray reflectometry, attenuated total reflection-Fourier transform infrared spectroscopy and confocal fluorescence microscopy. The obtained data demonstrate a successful build-up of the insulin-polyelectrolyte multilayers on silicon wafers that grow strongly in thickness upon insulin adsorption on PSS and HA layers. The secondary structure analysis of insulin, based on the vibrational amide I′-band, indicates an enhanced intermolecular β-sheet formation within the multilayers at 70 °C and pD = 2, i.e. at conditions that promote insulin amyloid fibrils rich in β-sheet contents. However, insulin that is confined between two polyelectrolyte layers rather forms amorphous aggregates as can be inferred from confocal fluorescence images. Remarkably, when insulin is deposited as the top-layer, a partial conversion into a two-dimensional fibrillar network can be induced by adding amyloid seeds to the solution. Thus, the results of this study illustrate the capability of polyelectrolyte multilayers as templates for the growth of protein networks.
Keywords
Insulin , Polyelectrolyte , protein aggregation , amyloid fibril
Journal title
Colloids and Surfaces B Biointerfaces
Serial Year
2012
Journal title
Colloids and Surfaces B Biointerfaces
Record number
1974614
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