2017
DOI: 10.1038/s41467-017-00480-0
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Liquid–liquid phase separation of the microtubule-binding repeats of the Alzheimer-related protein Tau

Abstract: The protein Tau aggregates into tangles in the brain of patients with Alzheimer’s disease. In solution, however, Tau is intrinsically disordered, highly soluble, and binds to microtubules. It is still unclear what initiates the conversion from an innocuous phase of high solubility and functionality to solid-like neurotoxic deposits. Here, we show that the microtubule-binding repeats of Tau, which are lysine-rich, undergo liquid–liquid phase separation in solution. Liquid–liquid demixing causes molecular crowdi… Show more

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Cited by 667 publications
(788 citation statements)
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References 90 publications
(147 reference statements)
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“…Furthermore, we found that the C‐terminal half of p‐tau441 alone, p‐tauCt (aa 242–441), was able to undergo phase separation in a NaCl‐insensitive (≤ 1 M NaCl) manner as well (Fig EV4). Similar observations were very recently reported for the phase separation of the tau repeat domain only (Ambadipudi et al , 2017). To evaluate whether interactions of the repeat domain were essential for LLPS of tau, we also expressed the N‐terminal (aa 1–256) half of tau441 in Sf9 cells, p‐tau256, and tested its LLPS characteristics (Fig EV5, Movie EV10).…”
Section: Resultssupporting
confidence: 91%
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“…Furthermore, we found that the C‐terminal half of p‐tau441 alone, p‐tauCt (aa 242–441), was able to undergo phase separation in a NaCl‐insensitive (≤ 1 M NaCl) manner as well (Fig EV4). Similar observations were very recently reported for the phase separation of the tau repeat domain only (Ambadipudi et al , 2017). To evaluate whether interactions of the repeat domain were essential for LLPS of tau, we also expressed the N‐terminal (aa 1–256) half of tau441 in Sf9 cells, p‐tau256, and tested its LLPS characteristics (Fig EV5, Movie EV10).…”
Section: Resultssupporting
confidence: 91%
“…The spontaneous formation of ThioS‐positive and aggregation seeding tau aggregates in and on the droplets supports this hypothesis. Furthermore, these findings are consistent with the recently reported in vitro LLPS of the tau repeat domain (Ambadipudi et al , 2017). Importantly, though, the contribution of the N‐terminal protein half to intracellular tau LLPS has to be considered as another regulatory entity that could play an important role for either the inhibition or stabilization of LLPS in the brain.…”
Section: Discussionsupporting
confidence: 93%
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“…For example, Tau phosphorylation is a hallmark of pathology in Alzheimer’s disease [115], and interestingly, tau phosphorylation promotes aggregation and phase separation in vitro [116]. …”
Section: Disease Pathology and Agingmentioning
confidence: 99%
“…14 Recent publications implicate a liquid-liquid phase separation that forms droplets of tau induced by electrostatic interactions that provide a molecular crowding environment to promote fibril formation. 15 The formation of higher-order aggregates of tau, whether in oligomers or fibrils, leads to neuron death through gain-of-function toxicity and/or the loss of function of microtubule stabilization. 14 Tau is also implicated as a mediator of β-amyloid–induced neurodegeneration, in that tau reduction rescued β-amyloid–induced axonal transport defects in primary neurons, and crossing mice that express both human amyloid protein precursor and β-amyloid with tau knockout mice resulted in the rescue of the dendritic hyperexcitability phenotype and restored network synchronicity.…”
Section: Tau Fibrillization and Mapt Gene Mutations In Neurodegeneratmentioning
confidence: 99%