Abstract
The transition of tau proteins from its soluble physiological conformation to the pathological aggregate forms found in Alzheimer’s disease and related dementias, is poorly understood. Therefore, understanding the process that modulates the formation of toxic tau oligomers and their conversion to putative neuroprotective neurofibrillary tangles will lead to better therapeutic strategies. We previously identified that EFhd2 is associated with aggregated tau species in AD brains and the coiled-coil domain in EFhd2 mediates the interaction with tau. To further characterize the association between EFhd2 and tau, we examined whether EFhd2 could affect the liquid–liquid phase separation properties of tau under molecular crowding conditions. We demonstrate that EFhd2 alters tau liquid phase behavior in a calcium and coiled-coil domain dependent manner. Co-incubation of EFhd2 and tau in the absence of calcium leads to the formation of solid-like structures containing both proteins, while in the presence of calcium these two proteins phase separate together into liquid droplets. EFhd2’s coiled-coil domain is necessary to alter tau’s liquid phase separation, indicating that protein–protein interaction is required. The results demonstrate that EFhd2 affects the liquid–liquid phase separation of tau proteins in vitro, suggesting that EFhd2 modulates the structural dynamics of tau proteins.
Highlights
IntroductionSpecialty section: This article was submitted to Neurodegeneration, a section of the journal Frontiers in NeuroscienceReceived: 01 June 2019 Accepted: 30 July 2019 Published: 13 August 2019
Specialty section: This article was submitted to Neurodegeneration, a section of the journal Frontiers in NeuroscienceReceived: 01 June 2019 Accepted: 30 July 2019 Published: 13 August 2019Citation: Vega IE, Umstead A and Kanaan NM (2019) EFhd2 Affects Tau Liquid–Liquid Phase Separation
We show that EFhd2 modulates liquid–liquid phase separation behavior of tau, demonstrating, for the first time, that EFhd2 directly converts tau liquid phase behavior to solid-like structures in vitro and this phenomenon is controlled by calcium
Summary
Specialty section: This article was submitted to Neurodegeneration, a section of the journal Frontiers in NeuroscienceReceived: 01 June 2019 Accepted: 30 July 2019 Published: 13 August 2019. Several studies indicate that tau oligomers are a toxic form, while NFTs may represent a neuroprotective form due to sequestration of the more toxic tau species (Alonso et al, 2006; Vega et al, 2008; Kuchibhotla et al, 2014; Goedert and Spillantini, 2017). Understanding how these two thermodynamically different tau structures are formed and coexist is crucial to deciphering the molecular mechanisms involved in tau-mediated neurodegeneration
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