Clasmatodendrosis and β‐amyloidosis in aging hippocampus

Alterations of the tightly interwoven neuron/astrocyte interactions are frequent traits of aging, but also favor neurodegenerative diseases, such as Alzheimer disease (AD). These alterations reflect impairments of the innate responses to inflammation-related processes, such as β-amyloid (Aβ) burdening. Multidisciplinary studies, spanning from the tissue to the molecular level, are needed to assess how neuron/astrocyte interactions are influenced by aging. Our study addressed this requirement by joining fluorescence-lifetime imaging microscopy/phasor multiphoton analysis with confocal microscopy, implemented with a novel method to separate spectrally overlapped immunofluorescence and Aβ autofluorescence. By comparing data from young control rats, chronically inflamed rats, and old rats, we identified age-specific alterations of neuron/astrocyte interactions in the hippocampus. We found a correlation between Aβ aggregation (+300 and +800% of aggregated Aβ peptide in chronically inflamed and oldvs.control rats, respectively) and fragmentation (clasmatodendrosis) of astrocyte projections (APJs) (+250 and +1300% of APJ fragments in chronically inflamed and oldvs.control rats, respectively). Clasmatodendrosis, in aged rats, associates with impairment of astrocyte-mediated Aβ clearance (-45% of Aβ deposits on APJs, and +33% of Aβ deposits on neurons in oldvs.chronically inflamed rats). Furthermore, APJ fragments colocalize with Aβ deposits and are involved in novel Aβ-mediated adhesions between neurons. These data define the effects of Aβ deposition on astrocyte/neuron interactions as a key topic in AD biology.-Mercatelli, R., Lana, D., Bucciantini, M., Giovannini, M. G., Cerbai, F., Quercioli, F., Zecchi-Orlandini, S., Delfino, G., Wenk, G. L., Nos, D. Clasmatodendrosis and β-amyloidosis in aging hippocampus.