ACR-Based Probe for the Quantitative Profiling of Histidine Reactivity in the Human Proteome

The quantitative profiling of residue reactivity in proteins promotes the discovery of covalent druggable targets for precise therapy. Histidine (His) residues, accounting for more than 20% of the active sites in enzymes, have not been systematically characterized for their reactivity, due to lack o...

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Published in	Journal of the American Chemical Society Vol. 145; no. 9; pp. 5252 - 5260
Main Authors	Li, Jiaying, Zhou, Jiahua, Xu, Hao, Tian, Kailu, Zhu, He, Chen, Yao, Huang, Yangyu, Wang, Guosheng, Gong, Zhou, Qin, Hongqiang, Ye, Mingliang
Format	Journal Article
Language	English
Published	United States American Chemical Society 08.03.2023
Subjects	Acrolein Histidine Humans Phosphorylation Proteome Proteomics
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Abstract	The quantitative profiling of residue reactivity in proteins promotes the discovery of covalent druggable targets for precise therapy. Histidine (His) residues, accounting for more than 20% of the active sites in enzymes, have not been systematically characterized for their reactivity, due to lack of labeling probes. Herein, we report a chemical proteomics platform for the site-specific quantitative analysis of His reactivity by combination of acrolein (ACR) labeling and reversible hydrazine chemistry enrichment. Based on this platform, in-depth characterization of His residues was conducted for the human proteome, in which the rich content of His residues (>8200) was quantified, including 317 His hyper-reactive residues. Intriguingly, it was observed that the hyper-reactive residues were less likely to be the sites for phosphorylation, and the possible mechanism of this antagonistic effect still needs to be evaluated in further research. Based on the first comprehensive map of His residue reactivity, many more residues could be adopted as the bindable sites to disrupt the activities of a diverse number of proteins; meanwhile, ACR derivatives could also be used as a novel reactive warhead in the development of covalent inhibitors.
AbstractList	The quantitative profiling of residue reactivity in proteins promotes the discovery of covalent druggable targets for precise therapy. Histidine (His) residues, accounting for more than 20% of the active sites in enzymes, have not been systematically characterized for their reactivity, due to lack of labeling probes. Herein, we report a chemical proteomics platform for the site-specific quantitative analysis of His reactivity by combination of acrolein (ACR) labeling and reversible hydrazine chemistry enrichment. Based on this platform, in-depth characterization of His residues was conducted for the human proteome, in which the rich content of His residues (>8200) was quantified, including 317 His hyper-reactive residues. Intriguingly, it was observed that the hyper-reactive residues were less likely to be the sites for phosphorylation, and the possible mechanism of this antagonistic effect still needs to be evaluated in further research. Based on the first comprehensive map of His residue reactivity, many more residues could be adopted as the bindable sites to disrupt the activities of a diverse number of proteins; meanwhile, ACR derivatives could also be used as a novel reactive warhead in the development of covalent inhibitors.
Author	Huang, Yangyu Qin, Hongqiang Xu, Hao Tian, Kailu Zhu, He Zhou, Jiahua Wang, Guosheng Gong, Zhou Li, Jiaying Chen, Yao Ye, Mingliang
AuthorAffiliation	College of Chemical Engineering Shaoyang University State Key Laboratory of Magnetic Resonance and Atomic Molecular Physics CAS Key Laboratory of Separation Science for Analytical Chemistry University of Chinese Academy of Sciences
AuthorAffiliation_xml	– name: CAS Key Laboratory of Separation Science for Analytical Chemistry – name: University of Chinese Academy of Sciences – name: College of Chemical Engineering – name: Shaoyang University – name: State Key Laboratory of Magnetic Resonance and Atomic Molecular Physics
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Title	ACR-Based Probe for the Quantitative Profiling of Histidine Reactivity in the Human Proteome
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