Abstract
We report molecular dynamics simulations of three possible adducts of Fe(II) to the N-terminal 1–16 fragments of the amyloid-β peptide, along with analogous simulations of Cu(II) and Zn(II) adducts. We find that multiple simulations from different starting points reach pseudo-equilibration within 100–300 ns, leading to over 900 ns of equilibrated trajectory data for each system. The specifics of the coordination modes for Fe(II) have only a weak effect on peptide secondary and tertiary structures, and we therefore compare one of these with analogous models of Cu(II) and Zn(II) complexes. All share broadly similar structural features, with mixture of coil, turn and bend in the N-terminal region and helical structure for residues 11–16. Within this overall pattern, subtle effects due to changes in metal are evident: Fe(II) complexes are more compact and are more likely to occupy bridge and ribbon regions of Ramachandran maps, while Cu(II) coordination leads to greater occupancy of the poly-proline region. Analysis of representative clusters in terms of molecular mechanics energy and atoms-in-molecules properties indicates similarity of four-coordinate Cu and Zn complexes, compared to five-coordinate Fe complex that exhibits lower stability and weaker metal–ligand bonding.Communicated by Ramaswamy H. Sarma
Highlights
KEYWORDS Amyloid-β peptide; transition metals; molecular dynamics; AMBER; Ramachandran map Neurodegenerative diseases present one of the greatest health-care challenges to modern society
The amyloid (Cleary et al, 2005; Haass & De Strooper, 1999; Selkoe, 1991; Walsh et al, 2002) and metal ion (Bush & Tanzi, 2008; Kepp, 2017) hypotheses are leading theories to explain the onset of Alzheimer’s disease (AD): in the former, accumulation of the b-amyloid (Ab) peptide into toxic soluble oligomers as well as observed plaques is argued to be the cause of disease
Parameters are obtained from B3LYP/6-31G(d), and RESP charges for the metal-coordinating regions were obtained at the same level of theory using Gaussian09 (Frisch et al, 2009)
Summary
Neurodegenerative diseases present one of the greatest health-care challenges to modern society. The amyloid (Cleary et al, 2005; Haass & De Strooper, 1999; Selkoe, 1991; Walsh et al, 2002) and metal ion (Bush & Tanzi, 2008; Kepp, 2017) hypotheses are leading theories to explain the onset of AD: in the former, accumulation of the b-amyloid (Ab) peptide into toxic soluble oligomers as well as observed plaques is argued to be the cause of disease. The redox activity of Cu and Fe may lead to the formation of reactive oxygen species that place diseased nerve cells and synapses under oxidative stress (Greenough et al, 2013)
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