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Microtubules gate tau condensation to spatially regulate microtubule functions.


ABSTRACT: Tau is an abundant microtubule-associated protein in neurons. Tau aggregation into insoluble fibrils is a hallmark of Alzheimer's disease and other types of dementia1, yet the physiological state of tau molecules within cells remains unclear. Using single-molecule imaging, we directly observe that the microtubule lattice regulates reversible tau self-association, leading to localized, dynamic condensation of tau molecules on the microtubule surface. Tau condensates form selectively permissible barriers, spatially regulating the activity of microtubule-severing enzymes and the movement of molecular motors through their boundaries. We propose that reversible self-association of tau molecules, gated by the microtubule lattice, is an important mechanism of the biological functions of tau, and that oligomerization of tau is a common property shared between the physiological and disease-associated forms of the molecule.

SUBMITTER: Tan R 

PROVIDER: S-EPMC6748660 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

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Microtubules gate tau condensation to spatially regulate microtubule functions.

Tan Ruensern R   Lam Aileen J AJ   Tan Tracy T   Han Jisoo J   Nowakowski Dan W DW   Vershinin Michael M   Simó Sergi S   Ori-McKenney Kassandra M KM   McKenney Richard J RJ  

Nature cell biology 20190902 9


Tau is an abundant microtubule-associated protein in neurons. Tau aggregation into insoluble fibrils is a hallmark of Alzheimer's disease and other types of dementia<sup>1</sup>, yet the physiological state of tau molecules within cells remains unclear. Using single-molecule imaging, we directly observe that the microtubule lattice regulates reversible tau self-association, leading to localized, dynamic condensation of tau molecules on the microtubule surface. Tau condensates form selectively pe  ...[more]

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