Issue 31, 2016

Stability of actin–lysozyme complexes formed in cystic fibrosis disease

Abstract

Finding the conditions for destabilizing actin–lysozyme complexes is of biomedical importance in preventing infections in cystic fibrosis. In this manuscript, the effects of different charge-mutants of lysozyme and salt concentration on the stability of actin–lysozyme complexes are studied using Langevin dynamics simulation. A coarse-grained model of F-actin is used in which both its twist and bending rigidities are considered. We observe that the attraction between F-actins is stronger in the presence of wild-type lysozymes relative to the mutated lysozymes of lower charges. By calculating the potential of mean force between F-actins, we conclude that the stability of actin–lysozyme complexes is decreased by reducing the charge of lysozyme mutants. The distributions of different lysozyme charge-mutants show that wild-type (+9e) lysozymes are mostly accumulated in the center of triangles formed by three adjacent F-actins, while lysozyme mutants of charges +7e and +5e occupy the bridging regions between F-actins. Low-charge mutants of lysozyme (+3e) distribute uniformly around F-actins. A rough estimate of the electrostatic energy for these different distributions proves that the distribution in which lysozymes reside in the center of triangles leads to more stable complexes. Also our results in the presence of a salt suggest that at physiological salt concentration of airway, F-actin complexes are not formed by charge-reduced mutants of lysozyme. The findings are interesting because if we can design charge-reduced lysozyme mutants with considerable antibacterial activity, they are not sequestered inside F-actin aggregates and can play their role as antibacterial agents against airway infection.

Graphical abstract: Stability of actin–lysozyme complexes formed in cystic fibrosis disease

Supplementary files

Article information

Article type
Paper
Submitted
03 Feb 2016
Accepted
07 Jul 2016
First published
07 Jul 2016

Soft Matter, 2016,12, 6557-6565

Stability of actin–lysozyme complexes formed in cystic fibrosis disease

S. Mohammadinejad, B. Ghamkhari and S. Abdolmaleki, Soft Matter, 2016, 12, 6557 DOI: 10.1039/C6SM00288A

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