Chemoproteomic profiling reveals that cathepsin D off-target activity drives ocular toxicity of [beta]-secretase inhibitors

Inhibition of β-secretase BACE1 is considered one of the most promising approaches for treating Alzheimer's disease. Several structurally distinct BACE1 inhibitors have been withdrawn from development after inducing ocular toxicity in animal models, but the target mediating this toxicity has no...

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Veröffentlicht in:	Nature communications 2016-10, Vol.7, p.13042
Hauptverfasser:	Zuhl, Andrea M, Nolan, Charles E, Brodney, Michael A, Niessen, Sherry, Atchison, Kevin, Houle, Christopher, Karanian, David A, Ambroise, Claude, Brulet, Jeffrey W, Beck, Elizabeth M, Doran, Shawn D, O'neill, Brian T, Am Ende, Christopher W, Chang, Cheng, Geoghegan, Kieran F, West, Graham M, Judkins, Joshua C, Hou, Xinjun, Riddell, David R, Johnson, Douglas S
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Schlagworte:	Alzheimer's disease Clinical trials Enzymes Photoreceptors Proteins R&D Research & development Toxicity Toxicology
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creator	Zuhl, Andrea M Nolan, Charles E Brodney, Michael A Niessen, Sherry Atchison, Kevin Houle, Christopher Karanian, David A Ambroise, Claude Brulet, Jeffrey W Beck, Elizabeth M Doran, Shawn D O'neill, Brian T Am Ende, Christopher W Chang, Cheng Geoghegan, Kieran F West, Graham M Judkins, Joshua C Hou, Xinjun Riddell, David R Johnson, Douglas S
description	Inhibition of β-secretase BACE1 is considered one of the most promising approaches for treating Alzheimer's disease. Several structurally distinct BACE1 inhibitors have been withdrawn from development after inducing ocular toxicity in animal models, but the target mediating this toxicity has not been identified. Here we use a clickable photoaffinity probe to identify cathepsin D (CatD) as a principal off-target of BACE1 inhibitors in human cells. We find that several BACE1 inhibitors blocked CatD activity in cells with much greater potency than that displayed in cell-free assays with purified protein. Through a series of exploratory toxicology studies, we show that quantifying CatD target engagement in cells with the probe is predictive of ocular toxicity in vivo. Taken together, our findings designate off-target inhibition of CatD as a principal driver of ocular toxicity for BACE1 inhibitors and more generally underscore the power of chemical proteomics for discerning mechanisms of drug action.
doi_str_mv	10.1038/ncomms13042
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Several structurally distinct BACE1 inhibitors have been withdrawn from development after inducing ocular toxicity in animal models, but the target mediating this toxicity has not been identified. Here we use a clickable photoaffinity probe to identify cathepsin D (CatD) as a principal off-target of BACE1 inhibitors in human cells. We find that several BACE1 inhibitors blocked CatD activity in cells with much greater potency than that displayed in cell-free assays with purified protein. Through a series of exploratory toxicology studies, we show that quantifying CatD target engagement in cells with the probe is predictive of ocular toxicity in vivo. 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subjects	Alzheimer's disease Clinical trials Enzymes Photoreceptors Proteins R&D Research & development Toxicity Toxicology
title	Chemoproteomic profiling reveals that cathepsin D off-target activity drives ocular toxicity of [beta]-secretase inhibitors
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