An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn

An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn

Objective: Anthraquinone (AQ), a major bioactive component of the traditional Chinese medicine HeShouWu, has widespread applications in industry and medicine. The objective of the current study is to explore the differences in the bioavailability of anthraquinones in vivo and the metabolism in liver...

Full description

Bibliographic Details
Main Authors: Sha Chen, Hong-Yu Ma, Zhe Deng, Jun Zhang, Jin-Tang Cheng, Chang Chen, An Liu
Format: Article
Language:English
Published: Wolters Kluwer Medknow Publications 2018-01-01
Series:World Journal of Traditional Chinese Medicine
Subjects:
Anthraquinones
liver microsomes
UPLC-QqQ-MS/MS
UPLC-Q-TOF/MS
Online Access:http://www.wjtcm.net/article.asp?issn=2311-8571;year=2018;volume=4;issue=1;spage=21;epage=27;aulast=Chen
id doaj-1e8ca372dfe34a52a498897fe4599386
record_format Article
spelling doaj-1e8ca372dfe34a52a498897fe45993862020-11-25T00:18:20ZengWolters Kluwer Medknow PublicationsWorld Journal of Traditional Chinese Medicine2311-85712589-28942018-01-0141212710.4103/wjtcm.wjtcm_2_18An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSnSha ChenHong-Yu MaZhe DengJun ZhangJin-Tang ChengChang ChenAn LiuObjective: Anthraquinone (AQ), a major bioactive component of the traditional Chinese medicine HeShouWu, has widespread applications in industry and medicine. The objective of the current study is to explore the differences in the bioavailability of anthraquinones in vivo and the metabolism in liver microsomes. Materials and Methods: In vivo, we used a reliable UPLC-ESI-QqQ-MS/MS method to measure seven AQ compounds in the jugular vein plasma of rats following oral administration of HeShouWu. Furthermore, in order to quantify the bioavailability of AQs in vivo and to further understand the metabolism of these compounds, we compared the in vitro metabolism of AQ in different species with respect to metabolic profiles, the enzymes involved, and catalytic efficiency using liver microsomes from human (HLM), mouse (MLM), rat (RLM), and beagle dog (DLM). Results: We identified two metabolic pathways, including the hydroxylation and glucuronidation of AQ, in the liver microsomes of humans and other species using UPLC-ESI-Q-TOF. We found that substitutions on the AQ ring were crucial to the activity and regioselectivity of its hydroxylation. In general, hydroxylation activity decreased greatly with β-COOH (rhein) and enhanced dramatically with β-OH (emodin). We also found that glucuronidation of the compound emodin-8-O-β-D-glucoside acts as the main isoform in AQ hydroxylation in HLM and DLM. Total microsomal intrinsic clearance values for AQ were greatest in mouse microsomes, followed by those in dog, human, and rat microsomes. Conclusion: The absorption of different anthrquinone compounds varied based on the compound structure, the metabolism types and products of anthraquinones in liver microsomes were different in different species. These findings provide vital information for a deeper unuunderstanding of the metabolism of AQs.http://www.wjtcm.net/article.asp?issn=2311-8571;year=2018;volume=4;issue=1;spage=21;epage=27;aulast=ChenAnthraquinonesliver microsomesUPLC-QqQ-MS/MSUPLC-Q-TOF/MS
collection DOAJ
language English
format Article
sources DOAJ
author Sha Chen
Hong-Yu Ma
Zhe Deng
Jun Zhang
Jin-Tang Cheng
Chang Chen
An Liu
spellingShingle Sha Chen
Hong-Yu Ma
Zhe Deng
Jun Zhang
Jin-Tang Cheng
Chang Chen
An Liu
An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn
World Journal of Traditional Chinese Medicine
Anthraquinones
liver microsomes
UPLC-QqQ-MS/MS
UPLC-Q-TOF/MS
author_facet Sha Chen
Hong-Yu Ma
Zhe Deng
Jun Zhang
Jin-Tang Cheng
Chang Chen
An Liu
author_sort Sha Chen
title An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn
title_short An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn
title_full An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn
title_fullStr An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn
title_full_unstemmed An integrated study for the utilization of anthraquinone compounds extract “Heshouwu” In vivo and their comparative metabolism in liver microsomes using UPLC-ESI-Q-TOF/MSn
title_sort integrated study for the utilization of anthraquinone compounds extract “heshouwu” in vivo and their comparative metabolism in liver microsomes using uplc-esi-q-tof/msn
publisher Wolters Kluwer Medknow Publications
series World Journal of Traditional Chinese Medicine
issn 2311-8571
2589-2894
publishDate 2018-01-01
description Objective: Anthraquinone (AQ), a major bioactive component of the traditional Chinese medicine HeShouWu, has widespread applications in industry and medicine. The objective of the current study is to explore the differences in the bioavailability of anthraquinones in vivo and the metabolism in liver microsomes. Materials and Methods: In vivo, we used a reliable UPLC-ESI-QqQ-MS/MS method to measure seven AQ compounds in the jugular vein plasma of rats following oral administration of HeShouWu. Furthermore, in order to quantify the bioavailability of AQs in vivo and to further understand the metabolism of these compounds, we compared the in vitro metabolism of AQ in different species with respect to metabolic profiles, the enzymes involved, and catalytic efficiency using liver microsomes from human (HLM), mouse (MLM), rat (RLM), and beagle dog (DLM). Results: We identified two metabolic pathways, including the hydroxylation and glucuronidation of AQ, in the liver microsomes of humans and other species using UPLC-ESI-Q-TOF. We found that substitutions on the AQ ring were crucial to the activity and regioselectivity of its hydroxylation. In general, hydroxylation activity decreased greatly with β-COOH (rhein) and enhanced dramatically with β-OH (emodin). We also found that glucuronidation of the compound emodin-8-O-β-D-glucoside acts as the main isoform in AQ hydroxylation in HLM and DLM. Total microsomal intrinsic clearance values for AQ were greatest in mouse microsomes, followed by those in dog, human, and rat microsomes. Conclusion: The absorption of different anthrquinone compounds varied based on the compound structure, the metabolism types and products of anthraquinones in liver microsomes were different in different species. These findings provide vital information for a deeper unuunderstanding of the metabolism of AQs.
topic Anthraquinones
liver microsomes
UPLC-QqQ-MS/MS
UPLC-Q-TOF/MS
url http://www.wjtcm.net/article.asp?issn=2311-8571;year=2018;volume=4;issue=1;spage=21;epage=27;aulast=Chen
work_keys_str_mv AT shachen anintegratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT hongyuma anintegratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT zhedeng anintegratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT junzhang anintegratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT jintangcheng anintegratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT changchen anintegratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT anliu anintegratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT shachen integratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT hongyuma integratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT zhedeng integratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT junzhang integratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT jintangcheng integratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT changchen integratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
AT anliu integratedstudyfortheutilizationofanthraquinonecompoundsextractheshouwuinvivoandtheircomparativemetabolisminlivermicrosomesusinguplcesiqtofmsn
_version_ 1725377247731253248

Similar Items