Endogenous Aß peptide promote Aß oligomerization tendency of spiked synthetic Aß in Alzheimer's disease plasma.

Alzheimer's disease (AD) is the most common form of age-associated dementia. Several studies have predicted that AD is caused by the production and deposition of the ß-amyloid peptide (Aß) in the brain, which is one of pathologic hallmarks of AD. In particular, Aß oligomers are reportedly the most toxic and pathogenic of other peptide forms. We previously developed Multimer Detection System-Oligomeric Amyloid-ß (MDS-OAß), a technique for measuring Aß oligomerization in plasma to diagnose AD. Here, we clarified the molecular sizes of oligomers that can be detected by the MDS and investigated differences in plasma spiking with a synthetic Aß peptide in the plasma of AD patients and individuals with non-AD neurological conditions. To determine Aß oligomer sizes detectable by MDS, size exclusion chromatography (SEC) was first performed on incubated samples of synthetic Aß42 peptides. As a result, no MDS signals were observed for the Aß42 monomer fractions, but strong signals were found for oligomers of 7-35-mers long. Also, an amplified luminescent proximity homogeneous assay-linked immunoassay (AlphaLISA) was used to confirm that synthetic Aß peptides not only recruited endogenous Aß in plasma but also induced significantly stronger seeding in AD plasma than in healthy control plasma. In addition, the absence of the MDS signals in Aß-depleted plasma confirmed that the increased oligomerization tendency in AD plasma is dependent on the presence of endogenous Aß in plasma. Therefore, the MDS-OAß measurement of oligomerization differences in plasma after incubation with spiked synthetic Aß peptides has significant potential in AD diagnosis.