The Functional Amyloid Orb2A Binds to Lipid Membranes

Overview

Journal Biophys J

Publisher Cell Press

Specialty Biophysics

Date 2017 Jul 13

PMID 28700922

Citations 10

Authors

Maria A Soria

Silvia A Cervantes

Thalia H Bajakian

Ansgar B Siemer

Affiliations

Soon will be listed here.

Abstract

Lipid membranes interact with and influence the aggregation of many amyloid-forming proteins. Orb2 is a cytoplasmic polyadenylation element-binding protein homolog in Drosophila melanogaster that forms functional amyloids necessary for long-term memory. One isoform, Orb2A, has a unique N-terminus that has been shown to be important for the formation of amyloid-like aggregates and long-term memory in vivo. Orb2A is also found enriched in the synaptic membrane fraction. Our sequence and hydropathy analysis suggests that it can form an amphipathic helix, which is ideal for lipid membrane interaction. We used circular dichroism and site-directed spin labeling coupled with electron paramagnetic resonance to test the first 88 amino acids of Orb2A for lipid interaction. We show that Orb2A1-88 interacts with anionic lipid membranes using an amphipathic helix at its unique N-terminus. This interaction depends on the charge of the lipid membrane and the degree of membrane curvature. We used transmission electron microscopy and electron paramagnetic resonance to show that the presence of anionic small unilamellar vesicles inhibits amyloid fibril formation by Orb2A. This inhibition by anionic membranes could be a potential mechanism regulating Orb2A amyloid formation in vivo.

Citing Articles

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Calmodulin binds the N-terminus of the functional amyloid Orb2A inhibiting fibril formation.

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Structural transitions in Orb2 prion-like domain relevant for functional aggregation in memory consolidation.

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