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Strong Reduction of the Chain Rigidity of Hyaluronan by Selective Binding of Ca2+ Ions

Authors :
Bernd Ensing
Dixy E. Green
Ralf P. Richter
Fouzia Bano
Alberto Pérez de Alba Ortíz
Paul L. DeAngelis
Xing Zhang
Robert J. Linhardt
Gijsje H. Koenderink
Giulia Giubertoni
Huib J. Bakker
HIMS Other Research (FNWI)
Molecular Spectroscopy (HIMS, FNWI)
Molecular Simulations (HIMS, FNWI)
Source :
Macromolecules, Macromolecules, 54(3), Macromolecules, 54(3), 1137-1146. American Chemical Society
Publication Year :
2021

Abstract

The biological functions of natural polyelectrolytes are strongly influenced by the presence of ions, which bind to the polymer chains and thereby modify their properties. Although the biological impact of such modifications is well recognized, a detailed molecular picture of the binding process and of the mechanisms that drive the subsequent structural changes in the polymer is lacking. Here, we study the molecular mechanism of the condensation of calcium, a divalent cation, on hyaluronan, a ubiquitous polymer in human tissues. By combining two-dimensional infrared spectroscopy experiments with molecular dynamics simulations, we find that calcium specifically binds to hyaluronan at millimolar concentrations. Because of its large size and charge, the calcium cation can bind simultaneously to the negatively charged carboxylate group and the amide group of adjacent saccharide units. Molecular dynamics simulations and single-chain force spectroscopy measurements provide evidence that the binding of the calcium ions weakens the intramolecular hydrogen-bond network of hyaluronan, increasing the flexibility of the polymer chain. We also observe that the binding of calcium to hyaluronan saturates at a maximum binding fraction of similar to 10-15 mol %. This saturation indicates that the binding of Ca2+ strongly reduces the probability of subsequent binding of Ca2+ at neighboring binding sites, possibly as a result of enhanced conformational fluctuations and/or electrostatic repulsion effects. Our findings provide a detailed molecular picture of ion condensation and reveal the severe effect of a few, selective and localized electrostatic interactions on the rigidity of a polyelectrolyte chain.

Details

Language :
English
ISSN :
00249297
Volume :
54
Issue :
3
Database :
OpenAIRE
Journal :
Macromolecules
Accession number :
edsair.doi.dedup.....2ad8d47d67bc85725c76c247a29dbd54