Clopidogrel as a donor probe and thioenol derivatives as flexible promoieties for enabling H2S biomedicine

Yaoqiu Zhu; Elkin L. Romero; Xiaodong Ren; Angel J. Sanca; Congkuo Du; Cai Liu; Zubair A. Karim; Fatima Z. Alshbool; Fadi T. Khasawneh; Jiang Zhou; Dafang Zhong; Bing Geng

doi:10.1038/s41467-018-06373-0

Clopidogrel as a donor probe and thioenol derivatives as flexible promoieties for enabling H₂S biomedicine

Yaoqiu Zhu, Elkin L. Romero, Xiaodong Ren, Angel J. Sanca, Congkuo Du, Cai Liu, Zubair A. Karim, Fatima Z. Alshbool, Fadi T. Khasawneh, Jiang Zhou, Dafang Zhong, Bing Geng

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Hydrogen sulfide has emerged as a critical endogenous signaling transmitter and a potentially versatile therapeutic agent. The key challenges in this field include the lack of approved hydrogen sulfide-releasing probes for in human exploration and the lack of controllable hydrogen sulfide promoieties that can be flexibly installed for therapeutics development. Here we report the identification of the widely used antithrombotic drug clopidogrel as a clinical hydrogen sulfide donor. Clopidogrel is metabolized in patients to form a circulating metabolite that contains a thioenol substructure, which is found to undergo spontaneous degradation to release hydrogen sulfide. Model studies demonstrate that thioenol derivatives are a class of controllable promoieties that can be conveniently installed on a minimal structure of ketone with an α-hydrogen. These results can provide chemical tools for advancing hydrogen sulfide biomedical research as well as developing hydrogen sulfide-releasing drugs.

Original language	English (US)
Article number	3952
Journal	Nature communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-06373-0
State	Published - Dec 1 2018
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-018-06373-0

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title = "Clopidogrel as a donor probe and thioenol derivatives as flexible promoieties for enabling H2S biomedicine",

abstract = "Hydrogen sulfide has emerged as a critical endogenous signaling transmitter and a potentially versatile therapeutic agent. The key challenges in this field include the lack of approved hydrogen sulfide-releasing probes for in human exploration and the lack of controllable hydrogen sulfide promoieties that can be flexibly installed for therapeutics development. Here we report the identification of the widely used antithrombotic drug clopidogrel as a clinical hydrogen sulfide donor. Clopidogrel is metabolized in patients to form a circulating metabolite that contains a thioenol substructure, which is found to undergo spontaneous degradation to release hydrogen sulfide. Model studies demonstrate that thioenol derivatives are a class of controllable promoieties that can be conveniently installed on a minimal structure of ketone with an α-hydrogen. These results can provide chemical tools for advancing hydrogen sulfide biomedical research as well as developing hydrogen sulfide-releasing drugs.",

author = "Yaoqiu Zhu and Romero, {Elkin L.} and Xiaodong Ren and Sanca, {Angel J.} and Congkuo Du and Cai Liu and Karim, {Zubair A.} and Alshbool, {Fatima Z.} and Khasawneh, {Fadi T.} and Jiang Zhou and Dafang Zhong and Bing Geng",

note = "Funding Information: We thank Dr. A. Rettie (University of Washington), Dr. M. Kenney and Dr. C. Y. Kim (The University of Texas at El Paso) for critical reading of the manuscript, Dr. J. Tang (Peking University) for providing H2S probe Mito-HS and assisting with the fluorescent imaging study, and Prof. B. Jiao (Shandong University) and Dr. Z. Li (University of Kentucky) for attempting in vitro antiplatelet studies. Financial support was provided by the Border Biomedical Research Center (National Institutes of Health, 5G12MD007592) and the University of Texas at El Paso. Publisher Copyright: {\textcopyright} 2018, The Author(s).",

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AU - Zhu, Yaoqiu

AU - Romero, Elkin L.

AU - Ren, Xiaodong

AU - Sanca, Angel J.

AU - Du, Congkuo

AU - Liu, Cai

AU - Karim, Zubair A.

AU - Alshbool, Fatima Z.

AU - Khasawneh, Fadi T.

AU - Zhou, Jiang

AU - Zhong, Dafang

AU - Geng, Bing

N1 - Funding Information: We thank Dr. A. Rettie (University of Washington), Dr. M. Kenney and Dr. C. Y. Kim (The University of Texas at El Paso) for critical reading of the manuscript, Dr. J. Tang (Peking University) for providing H2S probe Mito-HS and assisting with the fluorescent imaging study, and Prof. B. Jiao (Shandong University) and Dr. Z. Li (University of Kentucky) for attempting in vitro antiplatelet studies. Financial support was provided by the Border Biomedical Research Center (National Institutes of Health, 5G12MD007592) and the University of Texas at El Paso. Publisher Copyright: © 2018, The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Hydrogen sulfide has emerged as a critical endogenous signaling transmitter and a potentially versatile therapeutic agent. The key challenges in this field include the lack of approved hydrogen sulfide-releasing probes for in human exploration and the lack of controllable hydrogen sulfide promoieties that can be flexibly installed for therapeutics development. Here we report the identification of the widely used antithrombotic drug clopidogrel as a clinical hydrogen sulfide donor. Clopidogrel is metabolized in patients to form a circulating metabolite that contains a thioenol substructure, which is found to undergo spontaneous degradation to release hydrogen sulfide. Model studies demonstrate that thioenol derivatives are a class of controllable promoieties that can be conveniently installed on a minimal structure of ketone with an α-hydrogen. These results can provide chemical tools for advancing hydrogen sulfide biomedical research as well as developing hydrogen sulfide-releasing drugs.

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Clopidogrel as a donor probe and thioenol derivatives as flexible promoieties for enabling H₂S biomedicine

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