Global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivo
Abstract Background OPD and OPD' are the two main active components of Ophiopogon japonicas in Shenmai injection (SMI). Being isomers of each other, they are supposed to have similar pharmacological activities, but the actual situation is complicated. The difference of hemolytic behavior betwee...
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doaj-111387df55444266a41bc16f8dc59d612021-01-10T12:43:13ZengBMCChinese Medicine1749-85462021-01-0116111310.1186/s13020-020-00412-zGlobal metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivoHuan-Hua Xu0Zhen-Hong Jiang1Cong-Shu Huang2Yu-Ting Sun3Long-Long Xu4Xiang-Ling Tang5Hong-Ling Tan6Zeng-Chun Ma7Yue Gao8Tianjin University of Traditional Chinese MedicineJiangxi Province Key Laboratory of Molecular MedicineDepartment of Pharmaceutical Sciences, Beijing Institute of Radiation MedicineDepartment of Pharmaceutical Sciences, Beijing Institute of Radiation MedicineDepartment of Pharmaceutical Sciences, Beijing Institute of Radiation MedicineDepartment of Pharmaceutical Sciences, Beijing Institute of Radiation MedicineDepartment of Pharmaceutical Sciences, Beijing Institute of Radiation MedicineDepartment of Pharmaceutical Sciences, Beijing Institute of Radiation MedicineTianjin University of Traditional Chinese MedicineAbstract Background OPD and OPD' are the two main active components of Ophiopogon japonicas in Shenmai injection (SMI). Being isomers of each other, they are supposed to have similar pharmacological activities, but the actual situation is complicated. The difference of hemolytic behavior between OPD and OPD' in vivo and in vitro was discovered and reported by our group for the first time. In vitro, only OPD' showed hemolysis reaction, while in vivo, both OPD and OPD' caused hemolysis. In vitro, the primary cause of hemolysis has been confirmed to be related to the difference between physical and chemical properties of OPD and OPD'. In vivo, although there is a possible explanation for this phenomenon, the one is that OPD is bio-transformed into OPD' or its analogues in vivo, the other one is that both OPD and OPD' were metabolized into more activated forms for hemolysis. However, the mechanism of hemolysis in vivo is still unclear, especially the existing literature are still difficult to explain why OPD shows the inconsistent hemolysis behavior in vivo and in vitro. Therefore, the study of hemolysis of OPD and OPD' in vivo is of great practical significance in response to the increase of adverse events of SMI. Methods Aiming at the hemolysis in vivo, this manuscript adopted untargeted metabolomics and lipidomics technology to preliminarily explore the changes of plasma metabolites and lipids of OPD- and OPD'-treated rats. Metabolomics and lipidomics analyses were performed on ultra-high performance liquid chromatography (UPLC) system tandem with different mass spectrometers (MS) and different columns respectively. Multivariate statistical approaches such as principal component analysis (PCA) and orthogonal partial least square-discriminant analysis (OPLS-DA) were applied to screen the differential metabolites and lipids. Results Both OPD and OPD' groups experienced hemolysis, Changes in endogenous differential metabolites and differential lipids, enrichment of differential metabolic pathways, and correlation analysis of differential metabolites and lipids all indicated that the causes of hemolysis by OPD and OPD' were closely related to the interference of phospholipid metabolism. Conclusions This study provided a comprehensive description of metabolomics and lipidomics changes between OPD- and OPD'-treated rats, it would add to the knowledge base of the field, which also provided scientific guidance for the subsequent mechanism research. However, the underlying mechanism require further research.https://doi.org/10.1186/s13020-020-00412-zHemolysisOphiopogonin DOphiopogonin D'MetabolomicLipidomic |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Huan-Hua Xu Zhen-Hong Jiang Cong-Shu Huang Yu-Ting Sun Long-Long Xu Xiang-Ling Tang Hong-Ling Tan Zeng-Chun Ma Yue Gao |
spellingShingle |
Huan-Hua Xu Zhen-Hong Jiang Cong-Shu Huang Yu-Ting Sun Long-Long Xu Xiang-Ling Tang Hong-Ling Tan Zeng-Chun Ma Yue Gao Global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivo Chinese Medicine Hemolysis Ophiopogonin D Ophiopogonin D' Metabolomic Lipidomic |
author_facet |
Huan-Hua Xu Zhen-Hong Jiang Cong-Shu Huang Yu-Ting Sun Long-Long Xu Xiang-Ling Tang Hong-Ling Tan Zeng-Chun Ma Yue Gao |
author_sort |
Huan-Hua Xu |
title |
Global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivo |
title_short |
Global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivo |
title_full |
Global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivo |
title_fullStr |
Global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivo |
title_full_unstemmed |
Global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of Ophiopogonin D and Ophiopogonin D' in vivo |
title_sort |
global metabolomic and lipidomic analysis reveals the potential mechanisms of hemolysis effect of ophiopogonin d and ophiopogonin d' in vivo |
publisher |
BMC |
series |
Chinese Medicine |
issn |
1749-8546 |
publishDate |
2021-01-01 |
description |
Abstract Background OPD and OPD' are the two main active components of Ophiopogon japonicas in Shenmai injection (SMI). Being isomers of each other, they are supposed to have similar pharmacological activities, but the actual situation is complicated. The difference of hemolytic behavior between OPD and OPD' in vivo and in vitro was discovered and reported by our group for the first time. In vitro, only OPD' showed hemolysis reaction, while in vivo, both OPD and OPD' caused hemolysis. In vitro, the primary cause of hemolysis has been confirmed to be related to the difference between physical and chemical properties of OPD and OPD'. In vivo, although there is a possible explanation for this phenomenon, the one is that OPD is bio-transformed into OPD' or its analogues in vivo, the other one is that both OPD and OPD' were metabolized into more activated forms for hemolysis. However, the mechanism of hemolysis in vivo is still unclear, especially the existing literature are still difficult to explain why OPD shows the inconsistent hemolysis behavior in vivo and in vitro. Therefore, the study of hemolysis of OPD and OPD' in vivo is of great practical significance in response to the increase of adverse events of SMI. Methods Aiming at the hemolysis in vivo, this manuscript adopted untargeted metabolomics and lipidomics technology to preliminarily explore the changes of plasma metabolites and lipids of OPD- and OPD'-treated rats. Metabolomics and lipidomics analyses were performed on ultra-high performance liquid chromatography (UPLC) system tandem with different mass spectrometers (MS) and different columns respectively. Multivariate statistical approaches such as principal component analysis (PCA) and orthogonal partial least square-discriminant analysis (OPLS-DA) were applied to screen the differential metabolites and lipids. Results Both OPD and OPD' groups experienced hemolysis, Changes in endogenous differential metabolites and differential lipids, enrichment of differential metabolic pathways, and correlation analysis of differential metabolites and lipids all indicated that the causes of hemolysis by OPD and OPD' were closely related to the interference of phospholipid metabolism. Conclusions This study provided a comprehensive description of metabolomics and lipidomics changes between OPD- and OPD'-treated rats, it would add to the knowledge base of the field, which also provided scientific guidance for the subsequent mechanism research. However, the underlying mechanism require further research. |
topic |
Hemolysis Ophiopogonin D Ophiopogonin D' Metabolomic Lipidomic |
url |
https://doi.org/10.1186/s13020-020-00412-z |
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