Screening for Small Molecule Inhibitors of Statin-Induced APP C-terminal Toxic Fragment Production.

Karen S Poksay,Alex Matalis,Olivier Descamps,Olivia Gorostiza,Nicholas D P Cosford,Douglas J Sheffler,Dale E Bredesen,Jesus Campagna,Barbara Jagodzinska,Varghese John,Michael Mullenix,Patricia Spilman

doi:10.3389/fphar.2017.00046

Abstract

Alzheimer’s disease (AD) is characterized by neuronal and synaptic loss. One process that could contribute to this loss is the intracellular caspase cleavage of the amyloid precursor protein (APP) resulting in release of the toxic C-terminal 31-amino acid peptide APP-C31 along with the production of APPΔC31, full-length APP minus the C-terminal 31 amino acids. We previously found that a mutation in APP that prevents this caspase cleavage ameliorated synaptic loss and cognitive impairment in a murine AD model. Thus, inhibition of this cleavage is a reasonable target for new therapeutic development. In order to identify small molecules that inhibit the generation of APP-C31, we first used an APPΔC31 cleavage site-specific antibody to develop an AlphaLISA to screen several chemical compound libraries for the level of N-terminal fragment production. This antibody was also used to develop an ELISA for validation studies. In both high throughput screening (HTS) and validation testing, the ability of compounds to inhibit simvastatin- (HTS) or cerivastatin- (validation studies) induced caspase cleavage at the APP-D720 cleavage site was determined in Chinese hamster ovary (CHO) cells stably transfected with wildtype (wt) human APP (CHO-7W). Several compounds, as well as control pan-caspase inhibitor Q-VD-OPh, inhibited APPΔC31 production (measured fragment) and rescued cell death in a dose-dependent manner. The effective compounds fell into several classes including SERCA inhibitors, inhibitors of Wnt signaling, and calcium channel antagonists. Further studies are underway to evaluate the efficacy of lead compounds – identified here using cells and tissues expressing wt human APP – in mouse models of AD expressing mutated human APP, as well as to identify additional compounds and determine the mechanisms by which they exert their effects.

Highlights

Alzheimer’s disease (AD) is a progressive neurodegenerative disease characterized by cognitive and functional decline
Since amyloid precursor protein (APP) C31 is generated by caspase cleavage and we found some MEK inhibitors in our high throughput screening (HTS), select caspase and MEK inhibitors were tested for inhibition of cerivastatininduced APP C31 in Chinese hamster ovary (CHO)-7W cells for 24 h using doseresponse curves determined by AlphaLISA (Supplementary Figure S3B)
Our laboratory and others (Lu et al, 2000; Banwait et al, 2008) have shown that the intracellular caspase cleavage of APP resulting in the production of APP-C31 is a destructive physiological process involved in AD

Summary

Introduction

Alzheimer’s disease (AD) is a progressive neurodegenerative disease characterized by cognitive and functional decline. APP C31 has been found in higher levels in the brains of patients with AD as compared to controls, as determined by immunoblotting (Lu et al, 2000) and immunohistochemistry (Banwait et al, 2008) using a caspase cleavage-site specific antibody This C-terminal APP proteolytic cleavage is markedly increased in early stages of AD as related to Braak staging (Braak and Braak, 1997); increased staining is seen in the hippocampal region and around some plaque and tangle-like structures as well as in periand intra- neuronal regions of AD brains, whereas minimal reactivity is seen in age-matched control patients (Banwait et al, 2008)

Methods

Results

Conclusion