Intraneuronal tau aggregation induces the integrated stress response in astrocytes

Kevin L Batenburg, Nael N Kasri, Vivi M Heine, Wiep Scheper

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

Progressive aggregation of tau protein in neurons is associated with neurodegeneration in tauopathies. Cell non-autonomous disease mechanisms in astrocytes may be important drivers of the disease process but remain largely elusive. Here, we studied cell type-specific responses to intraneuronal tau aggregation prior to neurodegeneration. To this end, we developed a fully human co-culture model of seed-independent intraneuronal tau pathology, which shows no neuron- and synapse loss. Using high-content microscopy, we show that intraneuronal tau aggregation induces oxidative stress accompanied by activation of the integrated stress response specifically in astrocytes. This requires the direct co-culture with neurons and is not related to neurodegeneration or extracellular tau levels. Tau-directed antisense therapy reduced intraneuronal tau levels and aggregation and prevented the cell non-autonomous responses in astrocytes. These data identify the astrocytic integrated stress response as a novel disease mechanism activated by intraneuronal tau aggregation. In addition, our data provide the first evidence for the efficacy of tau-directed antisense therapy to target cell autonomous and cell non-autonomous disease pathways in a fully human model of tau pathology.

Original languageEnglish
Article numbermjac071
Pages (from-to)1-19
Number of pages19
JournalJournal of molecular cell biology
Volume14
Issue number10
DOIs
Publication statusPublished - Oct 2022

Bibliographical note

Publisher Copyright:
© The Author(s) (2022). Published by Oxford University Press on behalf of Journal of Molecular Cell Biology, CEMCS, CAS.

Funding

This work was supported by ZonMW and Stichting Proefdiervrij (MKMD #114022506 to W.S.) and co-funded by the PPP Allowance made available by Health∼Holland, Top Sector Life Sciences & Health, to stimulate public–private partnerships (#LSHM17014 to V.M.H. and LSHM18024 to W.S.).

FundersFunder number
ZonMw17014, 114022506, LSHM18024

    Keywords

    • antisense oligonucleotides
    • astrocytes
    • hiPSC-derived neurons
    • integrated stress response
    • oxidative stress
    • tau aggregation

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