Ultrahigh‐performance liquid chromatography coupled with triple quadrupole and time‐of‐flight mass spectrometry for the screening and identification of the main flavonoids and their metabolites in rats after oral administration of Cirsium japonicum DC. extract

Rationale Cirsium japonicum DC., a traditional Chinese medicine, has been shown to have anti‐haemorrhagic and anti‐tumour effects. Pharmacological studies have demonstrated that this curative effect may be related to flavonoids. The present work aimed to screen and identify the main flavonoids and t...

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Published in:Rapid communications in mass spectrometry 2018-08, Vol.32 (16), p.1451-1461
Main Authors: Zhang, Xia, Liao, Man, Cheng, Xiaoye, Liang, Caijuan, Diao, Xinpeng, Zhang, Lantong
Format: Article
Language:English
Subjects:
Biotransformation
Chemical reduction
Chromatography
Conjugation
Flavonoids
Hydrolysis
Liquid chromatography
Mass spectrometry
Metabolites
Oxidation
Pharmacology
Quadrupoles
Rats
Scientific imaging
Screening
Spectroscopy
Traditional Chinese medicine
Urine
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Summary:Rationale Cirsium japonicum DC., a traditional Chinese medicine, has been shown to have anti‐haemorrhagic and anti‐tumour effects. Pharmacological studies have demonstrated that this curative effect may be related to flavonoids. The present work aimed to screen and identify the main flavonoids and their corresponding metabolites in rats after oral administration of Cirsium japonicum DC. extract. Methods A rapid and simple method based on ultrahigh‐performance liquid chromatography coupled with triple quadrupole and time‐of‐flight mass spectrometry (UHPLC/QTOF‐MS) was developed for the identification of the primary absorbing components and metabolites of the principal flavonoids. The absorbing components were first characterized, followed by the selection of representative constituents. In this study, the main flavonoids, pectolinarin, linarin and pectolinarigenin, were selected as templates to identify possible metabolites. Results A total of 27 metabolites were detected in rat blood, urine and bile samples. A hydrolysis reaction was the first step for pectolinarin and linarin, followed by oxidation and reduction reactions. However, phase II metabolites for pectolinarin and linarin were not detected. The primary biotransformation routes of pectolinarigenin were identified as oxidation, reduction, hydrolysis, and glucuronide and glucose conjugation. Conclusions The metabolic pathways of pectolinarin, linarin and pectolinarigenin were summarized. This study not only proposed a practical strategy for rapidly screening and identifying metabolites but also provided useful information for further pharmacological studies and the design of new drugs based on Cirsium japonicum DC.
ISSN:0951-4198
1097-0231
DOI:10.1002/rcm.8161