Discovery of Irreversible p97 Inhibitors

Rui Ding; Ting Zhang; Daniel J. Wilson; Jiashu Xie; Jessica Williams; Yue Xu; Yihong Ye; Liqiang Chen

doi:10.1021/acs.jmedchem.9b00144

Discovery of Irreversible p97 Inhibitors

Rui Ding, Ting Zhang, Daniel J. Wilson, Jiashu Xie, Jessica Williams, Yue Xu, Yihong Ye, Liqiang Chen

Center for Drug Design

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15 Scopus citations

Abstract

Inhibitors of human p97 (also known as valosin-containing protein) have been actively pursued because of their potential therapeutic applications in cancer and other diseases. However, covalent and irreversible p97 inhibitors have not been well explored. Herein, we report our design, synthesis, and biological evaluation of covalent and irreversible inhibitors of p97. Among an amide and a reverse amide series we synthesized, we have identified a p97 inhibitor whose functional irreversibility has been established both in vitro and in cells. Also importantly, mass spectrometry reveals three potential cysteine residues labeled by this compound, and mutagenesis together with computer modeling suggests Cys522 as a major site, which when modified, could compromise the function of p97. Taken together, this new inhibitor may provide a template for designing more potent p97 inhibitors with covalent and irreversible characteristics.

Original language	English (US)
Pages (from-to)	2814-2829
Number of pages	16
Journal	Journal of medicinal chemistry
Volume	62
Issue number	5
DOIs	https://doi.org/10.1021/acs.jmedchem.9b00144
State	Published - Mar 14 2019

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© 2019 American Chemical Society.

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title = "Discovery of Irreversible p97 Inhibitors",

abstract = "Inhibitors of human p97 (also known as valosin-containing protein) have been actively pursued because of their potential therapeutic applications in cancer and other diseases. However, covalent and irreversible p97 inhibitors have not been well explored. Herein, we report our design, synthesis, and biological evaluation of covalent and irreversible inhibitors of p97. Among an amide and a reverse amide series we synthesized, we have identified a p97 inhibitor whose functional irreversibility has been established both in vitro and in cells. Also importantly, mass spectrometry reveals three potential cysteine residues labeled by this compound, and mutagenesis together with computer modeling suggests Cys522 as a major site, which when modified, could compromise the function of p97. Taken together, this new inhibitor may provide a template for designing more potent p97 inhibitors with covalent and irreversible characteristics.",

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AU - Ding, Rui

AU - Zhang, Ting

AU - Wilson, Daniel J.

AU - Xie, Jiashu

AU - Williams, Jessica

AU - Xu, Yue

AU - Ye, Yihong

AU - Chen, Liqiang

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AB - Inhibitors of human p97 (also known as valosin-containing protein) have been actively pursued because of their potential therapeutic applications in cancer and other diseases. However, covalent and irreversible p97 inhibitors have not been well explored. Herein, we report our design, synthesis, and biological evaluation of covalent and irreversible inhibitors of p97. Among an amide and a reverse amide series we synthesized, we have identified a p97 inhibitor whose functional irreversibility has been established both in vitro and in cells. Also importantly, mass spectrometry reveals three potential cysteine residues labeled by this compound, and mutagenesis together with computer modeling suggests Cys522 as a major site, which when modified, could compromise the function of p97. Taken together, this new inhibitor may provide a template for designing more potent p97 inhibitors with covalent and irreversible characteristics.

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Discovery of Irreversible p97 Inhibitors

Abstract

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