Molecular Dynamics Simulations to Gain Insights into the Stability and Morphologies of K3 Oligomers from β2-microglobulin

Abstract β2-Microglobulin (β2-m) forms amyloid fibrils in patients undergoing long-term hemodialysis. K3 peptide, a Ser20-Lys41 fragment of β2-m, has been known to form fibrils over a wide range of pH and solvent conditions. Recent solid-state NMR has revealed that K3 oligomer adopts a parallel U-shaped β-strand-turn-β-strand motif. In order to investigate the stability and morphologies of K3 oligomers with different sizes (dimer, trimer, and tetrameri and organizations (single and double layers), several all-atom molecular dynamics simulations were conducted at 310 K and pH 2 in water and 2,2,2-trifluoroethanol (TFE). For single-layered organizations, our results show that TFE destabilizes the stacking of K3 peptides due to the fact that TFE weakens the intermolecular hydrophobic interactions of K3 oligomers. In addition, we also identified that the loop region is stabilized by the hydrophobic cluster involving resides Y7, Fll, and I16. Our results further suggest that K3 tetramer is a potential minimal ...