Effect of familial mutations on the interconversion of α-Helix to β-sheet structures in an amyloid-forming peptide: insight from umbrella sampling simulations

SK Mudedla, NA Murugan, H Ågren - ACS Chemical …, 2018 - ACS Publications
ACS Chemical Neuroscience, 2018ACS Publications
Understanding the initial events of aggregation of amyloid β monomers to form β-sheet rich
fibrils is useful for the development of therapeutics for Alzheimer's disease. In this context,
the changes in energetics involved in the aggregation of helical amyloid β monomers into β-
sheet rich dimers have been investigated using umbrella sampling simulations and density
functional theory calculations. The results from umbrella sampling simulations for the free
energy profile for the interconversion closely agree with the results of density functional …
Understanding the initial events of aggregation of amyloid β monomers to form β-sheet rich fibrils is useful for the development of therapeutics for Alzheimer’s disease. In this context, the changes in energetics involved in the aggregation of helical amyloid β monomers into β-sheet rich dimers have been investigated using umbrella sampling simulations and density functional theory calculations. The results from umbrella sampling simulations for the free energy profile for the interconversion closely agree with the results of density functional theory calculations. The results reveal that helical peptides converted to β-sheet structures through coil-like conformations as intermediates that are mostly stabilized by intramolecular hydrogen bonds. The stabilization of intermediate structures could be a possible way to inhibit fibril formation. Mutations substantially decrease the height of the energy barrier for interconversion from α-helix to β-sheet structure when compared to that of the wild type, something that is attributed to an increase in the number of intramolecular hydrogen bonds between backbone atoms in the coil structures that correspond to a maximum value on the free energy surface. The reduction of the energy barrier leads to an enhancement of the rate of aggregation of amyloid β monomers upon introduction of various familial mutations, which is consistent with previous experimental reports.
ACS Publications
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