Ionic Environment Affects Biomolecular Interactions of Amyloid-ß: SPR Biosensor Study.

ABSTRACT

In early stages of Alzheimer's disease (AD), amyloid beta (Aß) accumulates in the mitochondrial matrix and interacts with mitochondrial proteins, such as cyclophilin D (cypD) and 17ß-hydroxysteroid dehydrogenase 10 (17ß-HSD10). Multiple processes associated with AD such as increased production or oligomerization of Aß affect these interactions and disbalance the equilibrium between the biomolecules, which contributes to mitochondrial dysfunction. Here, we investigate the effect of the ionic environment on the interactions of Aß (Aß1-40, Aß1-42) with cypD and 17ß-HSD10 using a surface plasmon resonance (SPR) biosensor. We show that changes in concentrations of K+ and Mg2+ significantly affect the interactions and may increase the binding efficiency between the biomolecules by up to 35% and 65% for the interactions with Aß1-40 and Aß1-42, respectively, in comparison with the physiological state. We also demonstrate that while the binding of Aß1-40 to cypD and 17ß-HSD10 takes place preferentially around the physiological concentrations of ions, decreased concentrations of K+ and increased concentrations of Mg2+ promote the interaction of both mitochondrial proteins with Aß1-42. These results suggest that the ionic environment represents an important factor that should be considered in the investigation of biomolecular interactions taking place in the mitochondrial matrix under physiological as well as AD-associated conditions.