Altering APP proteolysis: increasing sAPPalpha production by targeting dimerization of the APP ectodomain.

Clare A Peters Libeu,Qiang Zhang,Varghese John,Dale E Bredesen,Olivier Descamps

doi:10.1371/journal.pone.0040027

Clare A Peters Libeu, Qiang Zhang + Show 3 more

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https://doi.org/10.1371/journal.pone.0040027

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Journal: PloS one	Publication Date: Jun 29, 2012
Citations: 62	License type: CC BY 4.0

Affiliation: Buck Institute for Research on Aging

Abstract

One of the events associated with Alzheimer's disease is the dysregulation of α- versus β-cleavage of the amyloid precursor protein (APP). The product of α-cleavage (sAPPα) has neuroprotective properties, while Aβ1-42 peptide, a product of β-cleavage, is neurotoxic. Dimerization of APP has been shown to influence the relative rate of α- and β- cleavage of APP. Thus finding compounds that interfere with dimerization of the APP ectodomain and increase the α-cleavage of APP could lead to the development of new therapies for Alzheimer's disease. Examining the intrinsic fluorescence of a fragment of the ectodomain of APP, which dimerizes through the E2 and Aβ-cognate domains, revealed significant changes in the fluorescence of the fragment upon binding of Aβ oligomers—which bind to dimers of the ectodomain— and Aβ fragments—which destabilize dimers of the ectodomain. This technique was extended to show that RERMS-containing peptides (APP695 328–332), disulfiram, and sulfiram also inhibit dimerization of the ectodomain fragment. This activity was confirmed with small angle x-ray scattering. Analysis of the activity of disulfiram and sulfiram in an AlphaLISA assay indicated that both compounds significantly enhance the production of sAPPα by 7W-CHO and B103 neuroblastoma cells. These observations demonstrate that there is a class of compounds that modulates the conformation of the APP ectodomain and influences the ratio of α- to β-cleavage of APP. These compounds provide a rationale for the development of a new class of therapeutics for Alzheimer's disease.

Highlights

Alzheimer’s disease (AD) affects more than five million people in the US, yet it is currently without any truly effective treatment
We have recently shown that Ab oligomers bind to parallel dimers of purified amyloid precursor protein (APP) ectodomain and effect a distinct conformational change—movement of the E1 domain away from the E2 domain—that can be detected by small angle x-ray scattering (SAXS); Ab dimers bind to parallel dimers of APP ectodomain and split the APP ectodomain homodimer, as well as opening the compact amino-terminal structure (‘‘popping the top’’) of the APP ectodomain [18]
To determine whether binding of sulfiram or disulfiram caused significant conformational changes in the MBP-eAPP230–624, we examined the conformation of eAPP230–624 in the presence of a 12-fold molar excess of sulfiram or disulfiram by small angle x-ray scattering

Summary

Introduction

Alzheimer’s disease (AD) affects more than five million people in the US, yet it is currently without any truly effective treatment. We have recently shown that Ab oligomers bind to parallel dimers of purified APP ectodomain and effect a distinct conformational change—movement of the E1 domain away from the E2 domain—that can be detected by small angle x-ray scattering (SAXS); Ab dimers bind to parallel dimers of APP ectodomain and split the APP ectodomain homodimer, as well as opening the compact amino-terminal structure (‘‘popping the top’’) of the APP ectodomain [18] These changes in conformation may be important in setting the balance between a-cleavage and b-cleavage of APP because the relative rates of these cleavages are known to be affected by interactions between APP and a number of proteins, both at the cell surface and during recycling of APP [19,20].

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