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Disruption of tubulin-alpha4a polyglutamylation prevents aggregation of hyper-phosphorylated tau and microglia activation in mice

Torben J. Hausrat, Philipp Christoph Janiesch, Petra Breiden, David Lutz, Sabine Hoffmeister‐Ullerich, Irm Hermans‐Borgmeyer, Antonio Virgilio Failla, Matthias Kneussel

2022Nature Communications30 citationsDOIOpen Access PDF

Abstract

Dissociation of hyper-phosphorylated Tau from neuronal microtubules and its pathological aggregates, are hallmarks in the etiology of tauopathies. The Tau-microtubule interface is subject to polyglutamylation, a reversible posttranslational modification, increasing negative charge at tubulin C-terminal tails. Here, we asked whether tubulin polyglutamylation may contribute to Tau pathology in vivo. Since polyglutamylases modify various proteins other than tubulin, we generated a knock-in mouse carrying gene mutations to abolish Tuba4a polyglutamylation in a substrate-specific manner. We found that Tuba4a lacking C-terminal polyglutamylation prevents the binding of Tau and GSK3 kinase to neuronal microtubules, thereby strongly reducing phospho-Tau levels. Notably, crossbreeding of the Tuba4a knock-in mouse with the hTau tauopathy model, expressing a human Tau transgene, reversed hyper-phosphorylation and oligomerization of Tau and normalized microglia activation in brain. Our data highlight tubulin polyglutamylation as a potential therapeutic strategy in fighting tauopathies.

Topics & Concepts

TubulinMicrotubuleTauopathyBiologyCell biologyMicrogliaPhosphorylationNeuroscienceNeurodegenerationInternal medicineImmunologyMedicineInflammationDiseaseAlzheimer's disease research and treatmentsNeuroinflammation and Neurodegeneration MechanismsRetinoids in leukemia and cellular processes
Disruption of tubulin-alpha4a polyglutamylation prevents aggregation of hyper-phosphorylated tau and microglia activation in mice | Litcius