Abstract
Previous studies showed that δ-COP interacts with APP and regulates its intracellular trafficking, while an important reduction in the level of Aβ plaques was observed in AD/δ-COP I422T mice. Here, we show that δ-COP interacts directly with Aβ assemblies according to experiments and simulations. Experiments suggest a two-binding site model, one with high affinity and one with lower affinity. Simulations comply with experiments and provide mechanistic biophysical insights into the high-affinity interactions, comprising a "co-assembly-like" β-sheet interaction within nearly identical domains (426)DGEYRHDS(433) of δ-COP and (1)DAEFRHDS(8) of Aβ, complemented by interactions between (416)GVGAPVIGEI(425) of δ-COP and (13)HHQKLVFFAED(23) of Aβ, with a β-bridge between δ-COP I422 and Aβ D23. As such, our simulations highlight the role of I422, which is also investigated in comparison to T422. Our studies can provide impetus for the future investigation of the interaction between δ-COP and Aβ, particularly in its involvement in intracellular trafficking in Alzheimer's disease.