Impact of A2T and D23N mutations on C99 homodimer conformations

Abstract

The proteolytic cleavage of C99 by γ-secretase is the last step in the production of amyloid- β (A β) peptides. Previous studies have shown that membrane lipid composition, cholesterol concentration, and mutation in the transmembrane helix modified the structures and fluctuations of C99. In this study, we performed atomistic molecular dynamics simulations of the homodimer of the 55-residue congener of the C-terminal domain of the amyloid protein precursor, C99(1–55), in a 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine-cholesterol lipid bilayer and compared the conformational ensemble of wild-type (WT) sequence to those of the A2T and D23N variants. These mutations are particularly interesting as the protective Alzheimer’s disease (AD) A2T mutation is known to decrease A β production, whereas the early onset AD D23N mutation does not affect A β production. We found noticeable differences in the structural ensembles of the three sequences. In particular, A2T varies from both WT and D23N by having long-range effects on the population of the extracellular juxtamembrane helix, the interface between the G29xxx-G33xxx-G37 motifs, and the fluctuations of the transmembrane helical topologies.