Ynamide Electrophile for the Profiling of Ligandable Carboxyl Residues in Live Cells and the Development of New Covalent Inhibitors

Shengrong Li; Pengwei Zhang; Fang Xu; Shengcao Hu; Jiacong Liu; Yi Tan; Zhengchao Tu; Hongyan Sun; Zhi-Min Zhang; Qing-Yu He; Pinghua Sun; Ke Ding; Zhengqiu Li

doi:10.1021/acs.jmedchem.2c00272

Ynamide Electrophile for the Profiling of Ligandable Carboxyl Residues in Live Cells and the Development of New Covalent Inhibitors

Shengrong Li, Pengwei Zhang, Fang Xu, Shengcao Hu, Jiacong Liu, Yi Tan, Zhengchao Tu, Hongyan Sun, Zhi-Min Zhang, Qing-Yu He, Pinghua Sun^*, Ke Ding^*, Zhengqiu Li^*

^*Corresponding author for this work

Department of Chemistry

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

28 Citations (Scopus)

Abstract

Covalent inhibitors with an electrophilic warhead have received considerable attention due to their remarkable pharmacological properties. However, the electrophilic warhead in covalent drugs is often an alpha, beta-unsaturated amide, and the targets are mainly cysteine or lysine residues. Thus, the development of novel electrophiles that can target other amino acids is highly desirable. Ynamide, a useful and versatile building block, is commonly employed in the construction of various compounds in organic synthesis. The performance of this functional group in a proteome-wide environment has been studied here for the first time, and it has been shown that it can efficiently modify carboxyl residues in situ and in vitro. Upon incorporation of this ynamide warhead into the pharmacophores of kinase inhibitors, the resulting compound showed moderate inhibition against the EGFR L858R mutant but not against EGFR WT. This novel electrophilic group can be used in the development of new types of covalent inhibitors.

Original language	English
Pages (from-to)	10408–10418
Journal	Journal of Medicinal Chemistry
Volume	65
Issue number	15
Online published	26 Jul 2022
DOIs	https://doi.org/10.1021/acs.jmedchem.2c00272
Publication status	Published - 11 Aug 2022

Research Keywords

BIOLOGICAL EVALUATION
TARGET
DERIVATIVES
DISCOVERY
REAGENTS
AMIDE

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title = "Ynamide Electrophile for the Profiling of Ligandable Carboxyl Residues in Live Cells and the Development of New Covalent Inhibitors",

abstract = "Covalent inhibitors with an electrophilic warhead have received considerable attention due to their remarkable pharmacological properties. However, the electrophilic warhead in covalent drugs is often an alpha, beta-unsaturated amide, and the targets are mainly cysteine or lysine residues. Thus, the development of novel electrophiles that can target other amino acids is highly desirable. Ynamide, a useful and versatile building block, is commonly employed in the construction of various compounds in organic synthesis. The performance of this functional group in a proteome-wide environment has been studied here for the first time, and it has been shown that it can efficiently modify carboxyl residues in situ and in vitro. Upon incorporation of this ynamide warhead into the pharmacophores of kinase inhibitors, the resulting compound showed moderate inhibition against the EGFR L858R mutant but not against EGFR WT. This novel electrophilic group can be used in the development of new types of covalent inhibitors.",

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author = "Shengrong Li and Pengwei Zhang and Fang Xu and Shengcao Hu and Jiacong Liu and Yi Tan and Zhengchao Tu and Hongyan Sun and Zhi-Min Zhang and Qing-Yu He and Pinghua Sun and Ke Ding and Zhengqiu Li",

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Ynamide Electrophile for the Profiling of Ligandable Carboxyl Residues in Live Cells and the Development of New Covalent Inhibitors. / Li, Shengrong; Zhang, Pengwei; Xu, Fang et al.
In: Journal of Medicinal Chemistry, Vol. 65, No. 15, 11.08.2022, p. 10408–10418.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

TY - JOUR

T1 - Ynamide Electrophile for the Profiling of Ligandable Carboxyl Residues in Live Cells and the Development of New Covalent Inhibitors

AU - Li, Shengrong

AU - Zhang, Pengwei

AU - Xu, Fang

AU - Hu, Shengcao

AU - Liu, Jiacong

AU - Tan, Yi

AU - Tu, Zhengchao

AU - Sun, Hongyan

AU - Zhang, Zhi-Min

AU - He, Qing-Yu

AU - Sun, Pinghua

AU - Ding, Ke

AU - Li, Zhengqiu

PY - 2022/8/11

Y1 - 2022/8/11

N2 - Covalent inhibitors with an electrophilic warhead have received considerable attention due to their remarkable pharmacological properties. However, the electrophilic warhead in covalent drugs is often an alpha, beta-unsaturated amide, and the targets are mainly cysteine or lysine residues. Thus, the development of novel electrophiles that can target other amino acids is highly desirable. Ynamide, a useful and versatile building block, is commonly employed in the construction of various compounds in organic synthesis. The performance of this functional group in a proteome-wide environment has been studied here for the first time, and it has been shown that it can efficiently modify carboxyl residues in situ and in vitro. Upon incorporation of this ynamide warhead into the pharmacophores of kinase inhibitors, the resulting compound showed moderate inhibition against the EGFR L858R mutant but not against EGFR WT. This novel electrophilic group can be used in the development of new types of covalent inhibitors.

AB - Covalent inhibitors with an electrophilic warhead have received considerable attention due to their remarkable pharmacological properties. However, the electrophilic warhead in covalent drugs is often an alpha, beta-unsaturated amide, and the targets are mainly cysteine or lysine residues. Thus, the development of novel electrophiles that can target other amino acids is highly desirable. Ynamide, a useful and versatile building block, is commonly employed in the construction of various compounds in organic synthesis. The performance of this functional group in a proteome-wide environment has been studied here for the first time, and it has been shown that it can efficiently modify carboxyl residues in situ and in vitro. Upon incorporation of this ynamide warhead into the pharmacophores of kinase inhibitors, the resulting compound showed moderate inhibition against the EGFR L858R mutant but not against EGFR WT. This novel electrophilic group can be used in the development of new types of covalent inhibitors.

KW - BIOLOGICAL EVALUATION

KW - TARGET

KW - DERIVATIVES

KW - DISCOVERY

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DO - 10.1021/acs.jmedchem.2c00272

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SN - 0022-2623

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JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 15

ER -

Ynamide Electrophile for the Profiling of Ligandable Carboxyl Residues in Live Cells and the Development of New Covalent Inhibitors

Abstract

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