Conformational basis for asymmetric seeding barrier in filaments of three- and four-repeat tau

Ayisha Siddiqua; Yin Luo; Virginia Meyer; Michael A. Swanson; Xiang Yu; Guanghong Wei; Jie Zheng; Gareth R. Eaton; Buyong Ma; Ruth Nussinov; Sandra S. Eaton; Martin Margittai

doi:10.1021/ja303498q

Conformational basis for asymmetric seeding barrier in filaments of three- and four-repeat tau

Ayisha Siddiqua, Yin Luo, Virginia Meyer, Michael A. Swanson, Xiang Yu, Guanghong Wei, Jie Zheng, Gareth R. Eaton, Buyong Ma, Ruth Nussinov, Sandra S. Eaton, Martin Margittai^*

^*Corresponding author for this work

Human Molecular Genetics Biochemistry

Research output: Contribution to journal › Article › peer-review

58 Scopus citations

Abstract

Tau pathology in Alzheimers disease is intimately linked to the deposition of proteinacious filaments, which akin to infectious prions, have been proposed to spread via seeded conversion. Here we use double electron-electron resonance (DEER) spectroscopy in combination with extensive computational analysis to show that filaments of three- (3R) and four-repeat (4R) tau are conformationally distinct. Distance measurements between spin labels in the third repeat, reveal tau amyloid filaments as ensembles of known β-strand-turn-β-strand U-turn motifs. Whereas filaments seeded with 3R tau are structurally homogeneous, filaments seeded with 4R tau are heterogeneous, composed of at least three distinct conformers. These findings establish a molecular basis for the seeding barrier between different tau isoforms and offer a new powerful approach for investigating the composition and dynamics of amyloid fibril ensembles.

Original language	English
Pages (from-to)	10271-10278
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	134
Issue number	24
DOIs	https://doi.org/10.1021/ja303498q
State	Published - 20 Jun 2012

Funding

Funders	Funder number
National Cancer Institute	ZIABC010440

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10.1021/ja303498q

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title = "Conformational basis for asymmetric seeding barrier in filaments of three- and four-repeat tau",

abstract = "Tau pathology in Alzheimers disease is intimately linked to the deposition of proteinacious filaments, which akin to infectious prions, have been proposed to spread via seeded conversion. Here we use double electron-electron resonance (DEER) spectroscopy in combination with extensive computational analysis to show that filaments of three- (3R) and four-repeat (4R) tau are conformationally distinct. Distance measurements between spin labels in the third repeat, reveal tau amyloid filaments as ensembles of known β-strand-turn-β-strand U-turn motifs. Whereas filaments seeded with 3R tau are structurally homogeneous, filaments seeded with 4R tau are heterogeneous, composed of at least three distinct conformers. These findings establish a molecular basis for the seeding barrier between different tau isoforms and offer a new powerful approach for investigating the composition and dynamics of amyloid fibril ensembles.",

author = "Ayisha Siddiqua and Yin Luo and Virginia Meyer and Swanson, {Michael A.} and Xiang Yu and Guanghong Wei and Jie Zheng and Eaton, {Gareth R.} and Buyong Ma and Ruth Nussinov and Eaton, {Sandra S.} and Martin Margittai",

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T1 - Conformational basis for asymmetric seeding barrier in filaments of three- and four-repeat tau

AU - Siddiqua, Ayisha

AU - Luo, Yin

AU - Meyer, Virginia

AU - Swanson, Michael A.

AU - Yu, Xiang

AU - Wei, Guanghong

AU - Zheng, Jie

AU - Eaton, Gareth R.

AU - Ma, Buyong

AU - Nussinov, Ruth

AU - Eaton, Sandra S.

AU - Margittai, Martin

PY - 2012/6/20

Y1 - 2012/6/20

N2 - Tau pathology in Alzheimers disease is intimately linked to the deposition of proteinacious filaments, which akin to infectious prions, have been proposed to spread via seeded conversion. Here we use double electron-electron resonance (DEER) spectroscopy in combination with extensive computational analysis to show that filaments of three- (3R) and four-repeat (4R) tau are conformationally distinct. Distance measurements between spin labels in the third repeat, reveal tau amyloid filaments as ensembles of known β-strand-turn-β-strand U-turn motifs. Whereas filaments seeded with 3R tau are structurally homogeneous, filaments seeded with 4R tau are heterogeneous, composed of at least three distinct conformers. These findings establish a molecular basis for the seeding barrier between different tau isoforms and offer a new powerful approach for investigating the composition and dynamics of amyloid fibril ensembles.

AB - Tau pathology in Alzheimers disease is intimately linked to the deposition of proteinacious filaments, which akin to infectious prions, have been proposed to spread via seeded conversion. Here we use double electron-electron resonance (DEER) spectroscopy in combination with extensive computational analysis to show that filaments of three- (3R) and four-repeat (4R) tau are conformationally distinct. Distance measurements between spin labels in the third repeat, reveal tau amyloid filaments as ensembles of known β-strand-turn-β-strand U-turn motifs. Whereas filaments seeded with 3R tau are structurally homogeneous, filaments seeded with 4R tau are heterogeneous, composed of at least three distinct conformers. These findings establish a molecular basis for the seeding barrier between different tau isoforms and offer a new powerful approach for investigating the composition and dynamics of amyloid fibril ensembles.

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ER -

Conformational basis for asymmetric seeding barrier in filaments of three- and four-repeat tau

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