TIA1 regulates the generation and response to toxic tau oligomers

Lulu Jiang,Peter E A Ash,Benjamin Wolozin,Tsuneya Ikezu,Ali Al Abdullatif,Marcello Orlando,Leonard Petrucelli,Samantha Boudeau,Brandon F Maziuk,Heather I Ballance

doi:10.1007/s00401-018-1937-5

Lulu Jiang, Peter E A Ash + Show 8 more

Open Access

https://doi.org/10.1007/s00401-018-1937-5

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Abstract

RNA binding proteins (RBPs) are strongly linked to the pathophysiology of motor neuron diseases. Recent studies show that RBPs, such as TIA1, also contribute to the pathophysiology of tauopathy. RBPs co-localize with tau pathology, and reduction of TIA1 protects against tau-mediated neurodegeneration. The mechanism through which TIA1 reduction protects against tauopathy, and whether TIA1 modulates the propagation of tau, are unknown. Previous studies indicate that the protective effect of TIA1 depletion correlates with both the reduction of oligomeric tau and the reduction of pathological TIA1 positive tau inclusions. In the current report, we used a novel tau propagation approach to test whether TIA1 is required for producing toxic tau oligomers and whether TIA1 reduction would provide protection against the spread of these oligomers. The approach used young PS19 P301S tau mice at an age at which neurodegeneration would normally not yet occur and seeding oligomeric or fibrillar tau by injection into hippocampal CA1 region. We find that propagation of exogenous tau oligomers (but not fibrils) across the brain drives neurodegeneration in this model. We demonstrate that TIA1 reduction essentially brackets the pathophysiology of tau, being required for the production of tau oligomers, as well as regulating the response of neurons to propagated toxic tau oligomers. These results indicate that RNA binding proteins modulate the pathophysiology of tau at multiple levels and provide insights into possible therapeutic approaches to reduce the spread of neurodegeneration in tauopathy.

Highlights

RNA binding proteins (RBPs) are strongly implicated in neurodegeneration
The current study investigates the activities of tau species in propagating tau pathology and neurodegeneration and demonstrates a key role for TIA1 and stress granules (SGs) in neurodegeneration mediated by extracellular, propagated tau oligomers
Mice with reduced TIA1 produce less toxic tau oligomers and exhibit reduced vulnerability to toxic tau oligomers generated from elderly P301S MAPT mice. These results demonstrate that oligomeric tau propagates toxic tau pathology through a mechanism mediated by TIA1 and pathological SGs, suggesting a broad role for SGs in the mechanisms of tau-mediated neurodegeneration

Summary

Introduction

RNA binding proteins (RBPs) are strongly implicated in neurodegeneration. That RBPs, stress granules (SGs) and the translational stress response are key pathways mediating the pathophysiology of tauopathy [8, 9, 43]. SGs are membraneless organelles composed of RNA binding proteins (RBPs) and mRNA, which regulate the translational stress response [4, 28]. Prolonged association of tau with SGs appears to stimulate tau aggregation [2, 43]. The requirement for TIA1 in the pathophysiology of tauopathy was demonstrated by recent findings that TIA1 reduction prolongs lifespan and provides neuroprotection in the PS19 P301S tau mouse model, in a manner that reduced oligomeric tau but increased fibrillary tau [2]. The surprising effects of TIA1 on oligomeric tau raises fundamental mechanistic questions: does TIA1 provide neuroprotection in a cell autonomous manner by modulating production of

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