Membrane lipid co-aggregation with α-synuclein fibrils.

Erik Hellstrand,Agnieszka Nowacka,Daniel Topgaard,Sara Linse,Emma Sparr,Patrick Van Der Wel

doi:10.1371/journal.pone.0077235

Erik Hellstrand, Agnieszka Nowacka + Show 4 more

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https://doi.org/10.1371/journal.pone.0077235

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Journal: PloS one	Publication Date: Oct 11, 2013
Citations: 136	License type: CC BY 4.0

Affiliation: Lund University

Abstract

Amyloid deposits from several human diseases have been found to contain membrane lipids. Co-aggregation of lipids and amyloid proteins in amyloid aggregates, and the related extraction of lipids from cellular membranes, can influence structure and function in both the membrane and the formed amyloid deposit. Co-aggregation can therefore have important implications for the pathological consequences of amyloid formation. Still, very little is known about the mechanism behind co-aggregation and molecular structure in the formed aggregates. To address this, we study in vitro co-aggregation by incubating phospholipid model membranes with the Parkinson’s disease-associated protein, α-synuclein, in monomeric form. After aggregation, we find spontaneous uptake of phospholipids from anionic model membranes into the amyloid fibrils. Phospholipid quantification, polarization transfer solid-state NMR and cryo-TEM together reveal co-aggregation of phospholipids and α-synuclein in a saturable manner with a strong dependence on lipid composition. At low lipid to protein ratios, there is a close association of phospholipids to the fibril structure, which is apparent from reduced phospholipid mobility and morphological changes in fibril bundling. At higher lipid to protein ratios, additional vesicles adsorb along the fibrils. While interactions between lipids and amyloid-protein are generally discussed within the perspective of different protein species adsorbing to and perturbing the lipid membrane, the current work reveals amyloid formation in the presence of lipids as a co-aggregation process. The interaction leads to the formation of lipid-protein co-aggregates with distinct structure, dynamics and morphology compared to assemblies formed by either lipid or protein alone.

Highlights

Amyloid deposits from several human diseases have been found to contain membrane lipids [1,2]
The experiments were designed so that monomeric recombinant a-synuclein freshly collected from size exclusion column was incubated together with small unilamellar vesicles (SUVs)
When lipid vesicles are incubated together with asynuclein, we find that the protein forms amyloid fibrils and coaggregates with lipids from the vesicles

Summary

Introduction

Amyloid deposits from several human diseases have been found to contain membrane lipids [1,2]. The fibrillar LB aggregates, which are the neuropathological hallmarks of the disease, contain other protein components, of which many are membrane associated [3,4,5]. The presence of membrane components in the formed amyloid deposits implies an uptake of these components into the aggregates during or after the formation process. Co-aggregation is expected to have large consequences for the physico-chemical properties of the formed aggregates and modulate their interactions. It implies extraction of components from the membrane, which likely affects the membrane structure and function. Co-aggregation of amyloid proteins and membrane components can have pathological consequences

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