Identification of potential anti-pneumonia pharmacological components of Glycyrrhizae Radix et Rhizoma after the treatment with Gan An He Ji oral liquid
- Author:
Xiaojuan JIANG
1
;
Yihua LIN
;
Yunlong WU
;
Caixia YUAN
;
Xuli LANG
;
Jiayun CHEN
;
Chunyan ZHU
;
Xinyi YANG
;
Yu HUANG
;
Hao WANG
;
Caisheng WU
Author Information
1. Fujian Provincial Key Laboratory of Innovative Drug Target Research and State Key Laboratory of Cell Stress Biology,School of Pharmaceutical Sciences,Xiamen University,Xiamen,Fujian,361102,China
- Keywords:
Glycyrrhizae Radix et Rhizoma;
Pneumonia;
Active components;
Inducible nitric oxide synthase;
Glycyrrhetinic acid
- From:
Journal of Pharmaceutical Analysis
2022;12(6):839-851
- CountryChina
- Language:Chinese
-
Abstract:
Glycyrrhizae Radix et Rhizoma,a traditional Chinese medicine also known as Gan Cao(GC),is frequently included in clinical prescriptions for the treatment of pneumonia.However,the pharmacological com-ponents of GC for pneumonia treatment are rarely explored.Gan An He Ji oral liquid(GAHJ)has a simple composition and contains GC liquid extracts and paregoric,and has been used clinically for many years.Therefore,GAHJ was selected as a compound preparation for the study of GC in the treatment of pneumonia.We conducted an in vivo study of patients with pneumonia undergoing GAHJ treatments for three days.Using the intelligent mass spectrometry data-processing technologies to analyze the meta-bolism of GC in vivo,we obtained 168 related components of GC in humans,consisting of 24 prototype components and 144 metabolites,with 135 compounds screened in plasma and 82 in urine.After analysis of the metabolic transformation relationship and relative exposure,six components(liquiritin,liquiritigenin,glycyrrhizin,glycyrrhetinic acid,daidzin,and formononetin)were selected as potential effective components.The experimental results based on two animal pneumonia models and the in-flammatory cell model showed that the mixture of these six components was effective in the treatment of pneumonia and lung injury and could effectively downregulate the level of inducible nitric oxide synthase(iNOS).Interestingly,glycyrrhetinic acid exhibited the strongest inhibition on iNOS and the highest exposure in vivo.The following molecular dynamic simulations indicated a strong bond between glycyrrhetinic acid and iNOS.Thus,the current study provides a pharmaceutical basis for GC and reveals the possible corresponding mechanisms in pneumonia treatment.
