Direct measurement of lipid membrane disruption connects kinetics and toxicity of Aβ42 aggregation

Patrick Flagmeier; Suman De; Thomas C.T. Michaels; Xiaoting Yang; Alexander J. Dear; Cecilia Emanuelsson; Michele Vendruscolo; Sara Linse; David Klenerman; Tuomas P.J. Knowles; Christopher M. Dobson

doi:10.1038/s41594-020-0471-z

Direct measurement of lipid membrane disruption connects kinetics and toxicity of Aβ42 aggregation

Patrick Flagmeier, Suman De, Thomas C.T. Michaels, Xiaoting Yang, Alexander J. Dear, Cecilia Emanuelsson, Michele Vendruscolo, Sara Linse, David Klenerman, Tuomas P.J. Knowles, Christopher M. Dobson

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

Abstract

The formation of amyloid deposits in human tissues is a defining feature of more than 50 medical disorders, including Alzheimer’s disease. Strong genetic and histological evidence links these conditions to the process of protein aggregation, yet it has remained challenging to identify a definitive connection between aggregation and pathogenicity. Using time-resolved fluorescence microscopy of individual synthetic vesicles, we show for the Aβ42 peptide implicated in Alzheimer’s disease that the disruption of lipid bilayers correlates linearly with the time course of the levels of transient oligomers generated through secondary nucleation. These findings indicate a specific role of oligomers generated through the catalytic action of fibrillar species during the protein aggregation process in driving deleterious biological function and establish a direct causative connection between amyloid formation and its pathological effects.

Original language	English
Pages (from-to)	886-891
Number of pages	6
Journal	Nature Structural and Molecular Biology
Volume	27
Issue number	10
Early online date	2020 Aug 10
DOIs	https://doi.org/10.1038/s41594-020-0471-z
Publication status	Published - 2020 Oct

Subject classification (UKÄ)

Cell and Molecular Biology

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title = "Direct measurement of lipid membrane disruption connects kinetics and toxicity of Aβ42 aggregation",

abstract = "The formation of amyloid deposits in human tissues is a defining feature of more than 50 medical disorders, including Alzheimer{\textquoteright}s disease. Strong genetic and histological evidence links these conditions to the process of protein aggregation, yet it has remained challenging to identify a definitive connection between aggregation and pathogenicity. Using time-resolved fluorescence microscopy of individual synthetic vesicles, we show for the Aβ42 peptide implicated in Alzheimer{\textquoteright}s disease that the disruption of lipid bilayers correlates linearly with the time course of the levels of transient oligomers generated through secondary nucleation. These findings indicate a specific role of oligomers generated through the catalytic action of fibrillar species during the protein aggregation process in driving deleterious biological function and establish a direct causative connection between amyloid formation and its pathological effects.",

author = "Patrick Flagmeier and Suman De and Michaels, {Thomas C.T.} and Xiaoting Yang and Dear, {Alexander J.} and Cecilia Emanuelsson and Michele Vendruscolo and Sara Linse and David Klenerman and Knowles, {Tuomas P.J.} and Dobson, {Christopher M.}",

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doi = "10.1038/s41594-020-0471-z",

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T1 - Direct measurement of lipid membrane disruption connects kinetics and toxicity of Aβ42 aggregation

AU - Flagmeier, Patrick

AU - De, Suman

AU - Michaels, Thomas C.T.

AU - Yang, Xiaoting

AU - Dear, Alexander J.

AU - Emanuelsson, Cecilia

AU - Vendruscolo, Michele

AU - Linse, Sara

AU - Klenerman, David

AU - Knowles, Tuomas P.J.

AU - Dobson, Christopher M.

PY - 2020/10

Y1 - 2020/10

N2 - The formation of amyloid deposits in human tissues is a defining feature of more than 50 medical disorders, including Alzheimer’s disease. Strong genetic and histological evidence links these conditions to the process of protein aggregation, yet it has remained challenging to identify a definitive connection between aggregation and pathogenicity. Using time-resolved fluorescence microscopy of individual synthetic vesicles, we show for the Aβ42 peptide implicated in Alzheimer’s disease that the disruption of lipid bilayers correlates linearly with the time course of the levels of transient oligomers generated through secondary nucleation. These findings indicate a specific role of oligomers generated through the catalytic action of fibrillar species during the protein aggregation process in driving deleterious biological function and establish a direct causative connection between amyloid formation and its pathological effects.

AB - The formation of amyloid deposits in human tissues is a defining feature of more than 50 medical disorders, including Alzheimer’s disease. Strong genetic and histological evidence links these conditions to the process of protein aggregation, yet it has remained challenging to identify a definitive connection between aggregation and pathogenicity. Using time-resolved fluorescence microscopy of individual synthetic vesicles, we show for the Aβ42 peptide implicated in Alzheimer’s disease that the disruption of lipid bilayers correlates linearly with the time course of the levels of transient oligomers generated through secondary nucleation. These findings indicate a specific role of oligomers generated through the catalytic action of fibrillar species during the protein aggregation process in driving deleterious biological function and establish a direct causative connection between amyloid formation and its pathological effects.

U2 - 10.1038/s41594-020-0471-z

DO - 10.1038/s41594-020-0471-z

M3 - Article

C2 - 32778821

AN - SCOPUS:85089256120

SN - 1545-9993

VL - 27

SP - 886

EP - 891

JO - Nature Structural and Molecular Biology

JF - Nature Structural and Molecular Biology

IS - 10

ER -

Direct measurement of lipid membrane disruption connects kinetics and toxicity of Aβ42 aggregation

Abstract

Subject classification (UKÄ)

UN SDGs

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