Using seeding models to understand strain differences from Alzheimer’s disease and pathological aging brains

Abstract

AbstractBackgroundPathological aging (PA) patients are individuals that are cognitively normal prior to death but have abundant and widespread amyloid‐β (Aβ) deposits. These individuals typically have few cored amyloid deposits with variable levels of diffuse parenchymal deposits and/or vascular deposits. There is little or no inflammatory reaction, neuritic pathology or neurofibrillary tangles in the cortex. Previously, we have shown that total Aβ levels in PA brain lysates were similar to the levels in Alzheimer’s disease (AD) brain lysates, with overlap in the length of the Aβ peptides that were deposited and no major differences in SDS‐stable Aβ oligomeric assemblies. Despite these similarities, it is unclear whether PA represents a prodromal phase of AD or if the amyloid pathology of PA patients represents a less pathogenic variant. To explore this idea, we examined the seeding capacity of AD and PA brain homogenates to induce Aβ deposition and to secondarily induce tau pathology.MethodWe determined the seeding capacity of two AD, four PA and two control brain homogenates in transgenic mice expressing APPswe/ind with and without Tau‐P301L by intracerebral injection at neonatal day 0. At either 6, 9, 12 or 18 months, we assessed Aβ deposition and neurofibrillary pathology in all 4 genotypes by immunohistochemical and biochemical methods. Furthermore we examined the seeding activity of human AD brain lysates in brain slice cultures from APP/Tau transgenic mice.ResultIn our newborn mouse injections, we observed widespread Aβ seeding as evidenced by accelerated onset of diffuse parenchymal Aβ deposition that was largely proportional to the burden of parenchyma deposits in patient brains. In all cases, high levels of pial deposition were observed and Aβ42 was the predominant peptide deposited. Tau pathology was not induced in any animal, and with the absence of neuritic plaques there was no induction of tau positive neurites.ConclusionThis study provides evidence that the Aβ conformers associated with diffuse Aβ deposits in the brains of cognitively normal individuals possess seeding activities similar to those found in the brains of AD patients. The findings are consistent with the idea that pathological aging is on a continuum with AD.