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Nat Neurosci
Published

A tau homeostasis signature is linked with the cellular and regional vulnerability of excitatory neurons to tau pathology.

Authors

Hongjun Fu, Andrea Possenti, Rosie Freer, Yoshikazu Nakano, Nancy C Hernandez Villegas, Maoping Tang, Paula V M Cauhy, Benjamin A Lassus, Shuo Chen, Stephanie L Fowler, Helen Y Figueroa, Edward D Huey, Gail V W Johnson, Michele Vendruscolo, Karen E Duff

Abstract

Excitatory neurons are preferentially impaired in early Alzheimer's disease but the pathways contributing to their relative vulnerability remain largely unknown. Here we report that pathological tau accumulation takes place predominantly in excitatory neurons compared to inhibitory neurons, not only in the entorhinal cortex, a brain region affected in early Alzheimer's disease, but also in areas affected later by the disease. By analyzing RNA transcripts from single-nucleus RNA datasets, we identified a specific tau homeostasis signature of genes differentially expressed in excitatory compared to inhibitory neurons. One of the genes, BCL2-associated athanogene 3 (BAG3), a facilitator of autophagy, was identified as a hub, or master regulator, gene. We verified that reducing BAG3 levels in primary neurons exacerbated pathological tau accumulation, whereas BAG3 overexpression attenuated it. These results define a tau homeostasis signature that underlies the cellular and regional vulnerability of excitatory neurons to tau pathology.

PMID:30559469 | DOI: