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Dynamic studies of the interaction of a pH responsive, amphiphilic polymer with a DOPC lipid membrane

Published version
Peer-reviewed

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Authors

Ramadurai, S 
Werner, M 
Slater, NKH 
Martin, A 
Baulin, VA 

Abstract

Deeper understanding of the molecular interactions between polymeric materials and the lipid membrane is important across a range of applications from permeation for drug delivery to encapsulation for immuno-evasion. Using highly fluidic microcavity supported lipid bilayers, we studied the interactions between amphiphilic polymer PP50 and a DOPC lipid bilayer. As the PP50 polymer is pH responsive the studies were carried out at pH 6.5, 7.05 and 7.5, corresponding to fully, partly protonated (pH = pKa = 7.05) and fully ionized states of the polymer, respectively. Fluorescence correlation spectroscopy (FCS) using both labelled lipid and polymer revealed the PP50 associates with the bilayer interface across all pHs where its diffusion along the interface is impeded. Both FCS and electrochemical impedance spectroscopy (EIS) data indicate that the PP50 does not penetrate fully into the bilayer core but rather forms a layer at the bilayer aqueous interface reflected in increased resistance and decreased capacitance of the bilayer on PP50 binding. The extent of these effects and the dynamics of binding are influenced by pH, increasing with decreasing pH. These experimental trends concurred with coarse grained Monte Carlo simulations of polymer-bilayer interactions wherein a model hydrophilic polymer backbone grafted with side chains of varying hydrophobicity, to mimic the effect of varying pH, was simulated based on the bond fluctuation model with explicit solvent. Simulation results showed that with increasing hydrophobicity, the polymer penetrated deeper into the contacting bilayer leaflet of the membrane suppressing, consistent with EIS data, solvent permeation and that a full insertion of the polymer into the bilayer core is not necessary for suppression of permeability.

Description

Keywords

Cell Membrane, Electrochemistry, Gold, Hydrogen-Ion Concentration, Hydrophobic and Hydrophilic Interactions, Models, Molecular, Monte Carlo Method, Phosphatidylcholines, Polymers

Journal Title

Soft Matter

Conference Name

Journal ISSN

1744-683X
1744-6848

Volume Title

Publisher

Royal Society of Chemistry
Sponsorship
European Commission (608184)
This material is based upon work supported by the Science Foundation Ireland under Grant No. [14/IA/2488]. T. E. K. and S. R. are grateful to the Irish Research Council for a Government of Ireland postdoctoral fellowship (GOIPD/2014/322). M. W. and V. A. B. gratefully thank the European Union’s funding of the Initial Training Network SNAL (grant agreement no. 608184) under the 7th Framework programme.