Objective: To accumulate data from studies on the compounds identified from Gancao (Radix Glycyrrhizae, GC), andthen systematically summarize and classify these compounds according to their structural characteristi...Objective: To accumulate data from studies on the compounds identified from Gancao (Radix Glycyrrhizae, GC), andthen systematically summarize and classify these compounds according to their structural characteristics. Methods: Fivedatabases (CNKI, VIP, Wanfang data, CBM, and Pubmed) were used to search for studies on the chemical structure ofcompounds from GC. The retrieval time of the respective databases was from their inception to March 2016. Accordingto the inclusion and exclusion criteria, the papers were carefully screened, and the data were extracted. Results: A totalof 653 compounds from GC were collated from 252 articles, including flavonols (n = 201) belonging to 10 subgroups,terpenes and saponins (n = 167), coumarins (n = 30) belonging to 3 subgroups, aliphatics (n = 206), aromatics (n = 35),and others (n = 14). The flavones, represented by liquiritin and liquiritigenin, were the most reported compounds isolatedfrom GC, followed by terpenes and saponins such as glycyrrhizic acid and glycyrrhetinic acid. Conclusion: The morethan 600 natural compounds in GC may be responsible for GC’s anti-inflammatory, phlegm-expelling, cough- andpain-relieving activities.展开更多
Radix Glycyrrhizae is the dominant native medicinal material variety in the north and northwestern medicinal materials producing areas.It is a main Chinese medicine of effective TCM drugs and formulas for the treatmen...Radix Glycyrrhizae is the dominant native medicinal material variety in the north and northwestern medicinal materials producing areas.It is a main Chinese medicine of effective TCM drugs and formulas for the treatment of new coronavirus disease(COVID-19).This paper introduces the medicinal value of Radix Glycyrrhizae,involving the labeling,cultural heritage,and creative intellectual property rights of the Chinese medicinal materials,analyzes the poverty-stricken areas that are ecologically suitable for Radix Glycyrrhizae cultivation,and the superior counties and production bases of the Chinese medicinal materials.Besides,mainly from the aspects of perfect intellectual property rights,the establishment of authentic medicinal material production bases,and the construction of quality control systems,etc.,it discusses the rural revitalization strategy and the development strategy of traditional Chinese medicine(TCM),agricultural intellectual property protection and high-quality development strategy of Radix Glycyrrhizae.展开更多
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 components of GC for p...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 components 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 metabolism 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 inflammatory 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.展开更多
To establish a method for determining five saponins(notoginsenoside R1, ginsenoside Rg1, ginsenoside Re, ginsenoside Rb1 and ammonium glycyrrhizinate) in Glycyrrhizae, Notoginseng and Ginseng, the high performance liq...To establish a method for determining five saponins(notoginsenoside R1, ginsenoside Rg1, ginsenoside Re, ginsenoside Rb1 and ammonium glycyrrhizinate) in Glycyrrhizae, Notoginseng and Ginseng, the high performance liquid chromatography with diode array detector(HPLC-DAD) method was applied to an Inertsil ODS-SP column(4.6 mm×250 mm, 5 μm) with a mobile phase consisting of acetonitrile-0.05% phosphoric acid in a gradient elution manner. The flow rate was 1.0 mL/min. The column temperature was 30 ℃ and the detection wavelengths were 203 nm and 237 nm, respectively. The linear ranges were 0.700,0—7.000,0 μg for R1(r=1.000,0), 0.751,1— 7.511,4 μg for Rg1(r=1.000,0), 0.677,2—6.771,6 μg for Re(r=1.000,0), 0.733,9—7.339,1 μg for Rb1(r= 1.000,0), and 0.540,0—5.399,8 μg for ammonium glycyrrhizinate(r=0.999,9), respectively. In addition, their average recoveries were 100.28%, 105.83%, 104.09%, 99.36% and 98.54%, respectively. The relative standard deviations(RSDs) of precision, reproducibility and recovery were all less than 1.5%. The results indicate that the method is simple, accurate and reproducible so that it can be used for the simultaneous determination of the five saponins in Chinese patent medicines containing the three kinds of herbs.展开更多
Objective: To explore the molecular basis of the effects of Gancao (Radix Glycyrrhizae, GC) on inflammation throughthe inhibition of cyclooxygenase 2 (COX-2). Methods: The Discovery Studio 4.5 System was used to...Objective: To explore the molecular basis of the effects of Gancao (Radix Glycyrrhizae, GC) on inflammation throughthe inhibition of cyclooxygenase 2 (COX-2). Methods: The Discovery Studio 4.5 System was used to predict thephysicochemical properties of GC molecular compounds. The Ligand Profiler was used to screen for natural GCcomponents that could combine with the COX-2 pharmacophores. The AutoDock Vina 1.1.2 software was used for themolecular docking of the natural GC components with the COX-2 protein. Results: The aromatics were the closest to thenon-steroidal anti-inflammatory drugs in terms of the three properties, namely molecular weight, molecular surface area,and molecular solubility, followed by the flavonoids; whereas the terpenoids/saponins differed most from thenon-steroidal anti-inflammatory drugs in terms of the three properties; and the aliphatics were inconsistent. One hundredand eighteen small molecules were obtained through the pharmacophore screening using GC. The molecular bindingenergy (MBE) results demonstrated that the MBE value of the flavonoids/aromatics, obtained from their binding with theCOX-2 protein, was lower than that obtained from their binding with the substrate, metabolism of arachidonic acid,whereas the MBE value of the aliphatics/terpenoids, obtained from their binding with the COX-2 protein, was higherthan that obtained from their binding with the substrate, arachidonic acid. Finally, further filtration, based on thephysicochemical properties and the molecular binding energies of the small molecules, was carried out. Forty-twonatural GC components, including 35 flavonoid and 7 aromatic constituents, with low binding energies and potentialinhibitory effects on COX-2, were screened. Conclusion: Using the three-step program, pharmacophore screening,molecular docking, and physicochemical properties analysis, we screened out 35 flavonoid molecules and 7 aromaticmolecules, which may be potential COX-2 inhibitors, from GC. Two of the 35 flavonoid molecules (licochalcone A andglabridin) have been confirmed in the laboratory to have inhibitory effects on COX-2. Our findings provide a materialbasis for the development of non-steroidal GC drugs.展开更多
文摘Objective: To accumulate data from studies on the compounds identified from Gancao (Radix Glycyrrhizae, GC), andthen systematically summarize and classify these compounds according to their structural characteristics. Methods: Fivedatabases (CNKI, VIP, Wanfang data, CBM, and Pubmed) were used to search for studies on the chemical structure ofcompounds from GC. The retrieval time of the respective databases was from their inception to March 2016. Accordingto the inclusion and exclusion criteria, the papers were carefully screened, and the data were extracted. Results: A totalof 653 compounds from GC were collated from 252 articles, including flavonols (n = 201) belonging to 10 subgroups,terpenes and saponins (n = 167), coumarins (n = 30) belonging to 3 subgroups, aliphatics (n = 206), aromatics (n = 35),and others (n = 14). The flavones, represented by liquiritin and liquiritigenin, were the most reported compounds isolatedfrom GC, followed by terpenes and saponins such as glycyrrhizic acid and glycyrrhetinic acid. Conclusion: The morethan 600 natural compounds in GC may be responsible for GC’s anti-inflammatory, phlegm-expelling, cough- andpain-relieving activities.
基金Foundation for Key Program of Hubei Province(LX201827)Soft Science Program for Technological Innovation of Hubei Province(2018ADC149).
文摘Radix Glycyrrhizae is the dominant native medicinal material variety in the north and northwestern medicinal materials producing areas.It is a main Chinese medicine of effective TCM drugs and formulas for the treatment of new coronavirus disease(COVID-19).This paper introduces the medicinal value of Radix Glycyrrhizae,involving the labeling,cultural heritage,and creative intellectual property rights of the Chinese medicinal materials,analyzes the poverty-stricken areas that are ecologically suitable for Radix Glycyrrhizae cultivation,and the superior counties and production bases of the Chinese medicinal materials.Besides,mainly from the aspects of perfect intellectual property rights,the establishment of authentic medicinal material production bases,and the construction of quality control systems,etc.,it discusses the rural revitalization strategy and the development strategy of traditional Chinese medicine(TCM),agricultural intellectual property protection and high-quality development strategy of Radix Glycyrrhizae.
基金funded by the National Natural Science Foundation of China(Grant Nos.:82141215,82173694,82173779,82222068,and U1903119)Fujian Province Science and Technology Project(Grant Nos.:2021J011340 and 2020Y0013)Xiamen Municipal Bureau of Science and Technology Planning Project(Grant No.:3502Z2021YJ11).
文摘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 components 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 metabolism 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 inflammatory 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.
基金Supported by Plan Issue of Shanghai Science &Technology Committee(No.13401901100)
文摘To establish a method for determining five saponins(notoginsenoside R1, ginsenoside Rg1, ginsenoside Re, ginsenoside Rb1 and ammonium glycyrrhizinate) in Glycyrrhizae, Notoginseng and Ginseng, the high performance liquid chromatography with diode array detector(HPLC-DAD) method was applied to an Inertsil ODS-SP column(4.6 mm×250 mm, 5 μm) with a mobile phase consisting of acetonitrile-0.05% phosphoric acid in a gradient elution manner. The flow rate was 1.0 mL/min. The column temperature was 30 ℃ and the detection wavelengths were 203 nm and 237 nm, respectively. The linear ranges were 0.700,0—7.000,0 μg for R1(r=1.000,0), 0.751,1— 7.511,4 μg for Rg1(r=1.000,0), 0.677,2—6.771,6 μg for Re(r=1.000,0), 0.733,9—7.339,1 μg for Rb1(r= 1.000,0), and 0.540,0—5.399,8 μg for ammonium glycyrrhizinate(r=0.999,9), respectively. In addition, their average recoveries were 100.28%, 105.83%, 104.09%, 99.36% and 98.54%, respectively. The relative standard deviations(RSDs) of precision, reproducibility and recovery were all less than 1.5%. The results indicate that the method is simple, accurate and reproducible so that it can be used for the simultaneous determination of the five saponins in Chinese patent medicines containing the three kinds of herbs.
文摘Objective: To explore the molecular basis of the effects of Gancao (Radix Glycyrrhizae, GC) on inflammation throughthe inhibition of cyclooxygenase 2 (COX-2). Methods: The Discovery Studio 4.5 System was used to predict thephysicochemical properties of GC molecular compounds. The Ligand Profiler was used to screen for natural GCcomponents that could combine with the COX-2 pharmacophores. The AutoDock Vina 1.1.2 software was used for themolecular docking of the natural GC components with the COX-2 protein. Results: The aromatics were the closest to thenon-steroidal anti-inflammatory drugs in terms of the three properties, namely molecular weight, molecular surface area,and molecular solubility, followed by the flavonoids; whereas the terpenoids/saponins differed most from thenon-steroidal anti-inflammatory drugs in terms of the three properties; and the aliphatics were inconsistent. One hundredand eighteen small molecules were obtained through the pharmacophore screening using GC. The molecular bindingenergy (MBE) results demonstrated that the MBE value of the flavonoids/aromatics, obtained from their binding with theCOX-2 protein, was lower than that obtained from their binding with the substrate, metabolism of arachidonic acid,whereas the MBE value of the aliphatics/terpenoids, obtained from their binding with the COX-2 protein, was higherthan that obtained from their binding with the substrate, arachidonic acid. Finally, further filtration, based on thephysicochemical properties and the molecular binding energies of the small molecules, was carried out. Forty-twonatural GC components, including 35 flavonoid and 7 aromatic constituents, with low binding energies and potentialinhibitory effects on COX-2, were screened. Conclusion: Using the three-step program, pharmacophore screening,molecular docking, and physicochemical properties analysis, we screened out 35 flavonoid molecules and 7 aromaticmolecules, which may be potential COX-2 inhibitors, from GC. Two of the 35 flavonoid molecules (licochalcone A andglabridin) have been confirmed in the laboratory to have inhibitory effects on COX-2. Our findings provide a materialbasis for the development of non-steroidal GC drugs.