A Beta 43 Aggregates Exhibit Enhanced Prion-Like Seeding Activity In Mice

When injected into genetically modified mice, aggregates of the amyloid-beta (A beta) peptide from the brains of Alzheimer's disease (AD) patients or transgenic AD mouse models seed cerebral A beta deposition in a prion-like fashion. Within the brain, A beta exists as a pool of distinct C-terminal variants with lengths ranging from 37 to 43 amino acids, yet the relative contribution of individual C-terminal A beta variants to the seeding behavior of A beta aggregates remains unknown. Here, we have investigated the relative seeding activities of A beta aggregates composed exclusively of recombinant A beta 38, A beta 40, A beta 42, or A beta 43. Cerebral A beta 42 levels were not increased in App(NL-F) knock-in mice injected with A beta 38 or A beta 40 aggregates and were only increased in a subset of mice injected with A beta 42 aggregates. In contrast, significant accumulation of A beta 42 was observed in the brains of all mice inoculated with A beta 43 aggregates, and the extent of A beta 42 induction was comparable to that in mice injected with brain-derived A beta seeds. Mice inoculated with A beta 43 aggregates exhibited a distinct pattern of cerebral A beta pathology compared to mice injected with brain-derived A beta aggregates, suggesting that recombinant A beta 43 may polymerize into a unique strain. Our results indicate that aggregates containing longer A beta C-terminal variants are more potent inducers of cerebral A beta deposition and highlight the potential role of A beta 43 seeds as a crucial factor in the initial stages of A beta pathology in AD.