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1. Enhanced phosphorylation of T153 in soluble tau is a defining biochemical feature of the A152T tau risk variant.

Author

Carlomagno Y, Chung DC, Yue M, Kurti A, Avendano NM, Castanedes-Casey M, Hinkle KM, Jansen-West K, Daughrity LM, Tong J, Phillips V, Rademakers R, DeTure M, Fryer JD, Dickson DW, Petrucelli L, and Cook C

Subjects

Aged, Aged, 80 and over, Animals, Brain pathology, Disease Models, Animal, Female, Gliosis pathology, Humans, Male, Mice, Transgenic, Middle Aged, Neurodegenerative Diseases genetics, Neurodegenerative Diseases pathology, Neurons pathology, Phosphorylation, tau Proteins genetics, Brain metabolism, Genetic Predisposition to Disease, Neurodegenerative Diseases metabolism, tau Proteins metabolism

Abstract

Pathogenic mutations in the tau gene (microtubule associated protein tau, MAPT) are linked to the onset of tauopathy, but the A152T variant is unique in acting as a risk factor for a range of disorders including Alzheimer's disease (AD), progressive supranuclear palsy (PSP), corticobasal degeneration (CBD), and dementia with Lewy bodies (DLB). In order to provide insight into the mechanism by which A152T modulates disease risk, we developed a novel mouse model utilizing somatic brain transgenesis with adeno-associated virus (AAV) to drive tau expression in vivo, and validated the model by confirming the distinct biochemical features of A152T tau in postmortem brain tissue from human carriers. Specifically, Tau A152T -AAV mice exhibited increased tau phosphorylation that unlike animals expressing the pathogenic P301L mutation remained localized to the soluble fraction. To investigate the possibility that the A152T variant might alter the phosphorylation state of tau on T152 or the neighboring T153 residue, we generated a novel antibody that revealed significant accumulation of soluble tau species that were hyperphosphorylated on T153 (pT153) in Tau A152T -AAV mice, which were absent the soluble fraction of Tau P301L -AAV mice. Providing new insight into the role of A152T in modifying risk of tauopathy, as well as validating the Tau A152T -AAV model, we demonstrate that the presence of soluble pT153-positive tau species in human postmortem brain tissue differentiates A152T carriers from noncarriers, independent of disease classification. These results implicate both phosphorylation of T153 and an altered solubility profile in the mechanism by which A152T modulates disease risk.

Published

2019