Abstract
Tauopathies are heterogeneous neurodegenerative diseases defined by progressive brain accumulation of tau aggregates. The most common tauopathy, sporadic Alzheimer’s disease (AD), involves progressive tau deposition that can be divided into specific stages of neurofibrillary tangle pathology. This classification is consistent with experimental data which suggests that network-based propagation is mediated by cell–cell transfer of tau “seeds”, or assemblies, that serve as templates for their own replication. Until now, seeding assays of AD brain have largely been limited to areas previously defined by NFT pathology. We now expand this work to additional regions. We selected 20 individuals with AD pathology of NFT stages I, III, and V. We stained and classified 25 brain regions in each using the anti-phospho-tau monoclonal antibody AT8. We measured tau seeding in each of the 500 samples using a cell-based tau “biosensor” assay in which induction of intracellular tau aggregation is mediated by exogenous tau assemblies. We observed a progressive increase in tau seeding according to NFT stage. Seeding frequently preceded NFT pathology, e.g., in the basolateral subnucleus of the amygdala and the substantia nigra, pars compacta. We observed seeding in brain regions not previously known to develop tau pathology, e.g., the globus pallidus and internal capsule, where AT8 staining revealed mainly axonal accumulation of tau. AT8 staining in brain regions identified because of tau seeding also revealed pathology in a previously undescribed cell type: Bergmann glia of the cerebellar cortex. We also detected tau seeding in brain regions not previously examined, e.g., the intermediate reticular zone, dorsal raphe nucleus, amygdala, basal nucleus of Meynert, and olfactory bulb. In conclusion, tau histopathology and seeding are complementary analytical tools. Tau seeding assays reveal pathology in the absence of AT8 signal in some instances, and previously unrecognized sites of tau deposition. The variation in sites of seeding between individuals could underlie differences in the clinical presentation and course of AD.
Highlights
Tauopathies are a heterogeneous group of neurodegenerative diseases defined by progressive brain accumulation of tau aggregates [35]
Seeding threshold determination To determine the lower limit of detection, tissue lysate was transduced into v2H biosensor cells
Note that the samples from case 21 were included as internal assay control to ensure that the seeding assay was appropriately detecting tau seeding only when present and not detecting seeding when tau was absent in human tissue
Summary
Tauopathies are a heterogeneous group of neurodegenerative diseases defined by progressive brain accumulation of tau aggregates [35]. Sporadic Alzheimer’s disease (AD) is the most common, and is uniquely defined by coexistent tau and amyloid β pathology. Tau pathology progresses in a defined and Stopschinski et al acta neuropathol commun (2021) 9:164 characteristic pattern, allowing AD classification into different stages that correlate with antemortem clinical presentation [4]. AT8 binds phospho-serine 202 and phospho-threonine 205 on aggregated tau protein, and marks AD intraneuronal pathology (pretangles and NFTs) [38]. In NFT stages IV and V, AT8 marks neocortical regions including the superior temporal gyrus (STG), and in NFT stage VI it marks primary neocortical areas such as the visual cortex (VC). Longitudinal tau PET imaging has confirmed the progression of tau pathology along NFT stages, and its correlation with neuronal dysfunction and neurodegeneration [24, 27, 36, 44]
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