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In this study, the Web of Science and China National Knowledge Infrastructure(CNKI) were searched comprehensively for the literature about the research on Polygalae Radix. After manual screening, 1 207 Chinese articles and 263 English articles were included in this study. Excel was used to draw the line chart of the annual number of relevant publications. CiteSpace 6.1.R3 was used for the visual analysis of author cooperation, publishing institutions, keyword co-occurrence, keyword clustering, and bursts in the research on Polygalae Radix. The results showed that the number of articles published in Chinese and English increased linearly, which indicated the rising research popularity of Polygalae Radix. WANG J and LIU X were the authors publishing the most articles in Chinese and English, respectively. Shanxi University of Chinese Medicine and Chinese Academy of Medical Sciences were the research institutions with the largest number of Chinese and English publications in this field, respectively. The institutions publishing the relevant articles in English formed a system with the Chinese Academy of Medical Sciences as the core. According to the keywords, the research hotspots of Polygalae Radix included variety selection and breeding, quality standard, extraction and identification of active chemical components, prescription compatibility, processing, clinical medication rules, and pharmacological mechanism. The research frontiers were the molecular mechanisms of Polygalae Radix and its active components in exerting the protective effect on brain nerve, regulating receptor pathways, alleviating anxiety and Alzheimer's disease, as well as data mining and clinical medication summary. This study has reference significance for the topic selection and frontier identification of the future research on Polygalae Radix.
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Melhoramento Vegetal , China , Raízes de Plantas/química , Encéfalo , PublicaçõesRESUMO
ObjectiveTo investigate the transformation mechanism and content variation of saponins from Polygalae Radix before and after being boiled with licorice juice and water. MethodSimulated licorice juice boiled products and simulated water boiled products of onjisaponin B, onjisaponin Z, onjisaponin F, polygalasaponin ⅩⅩⅧ were prepared by simulated processing technology, and analyzed by ultra-performance liquid chromatography-quadrupole-electrostatic field orbitrap high resolution mass spectrometry(UPLC-Q-Exactive Orbitrap/MS). Then the contents of onjisaponin B, onjisaponin Z, onjisaponin F, polygalasaponin ⅩⅩⅧ and tenuifolin in Polygalae Radix, licorice-boiled Polygalae Radix and water-boiled Polygalae Radix were determined by UPLC-triple quadrupole tandem mass spectrometry(UPLC-QQQ-MS/MS). ResultDuring the boiling process with licorice juice and water, onjisaponin B could be hydrolyzed to produce 4-methoxycinnamic acid, desacylsenegin Ⅲ, polygalasaponin ⅩⅩⅧ and tenuifolin, onjisaponin Z could be hydrolyzed to produce 3,4,5-trimethoxycinnamic acid, onjisaponin TF, polygalasaponin ⅩⅩⅧ and tenuifolin, onjisaponin F could be hydrolyzed to produce 3,4,5-trimethoxycinnamic acid, onjisaponin G, polygalasaponin ⅩⅩⅧ and tenuifolin, and polygalasaponin ⅩⅩⅧ was hydrolyzed to produce tenuifolin. After being boiled with licorice juice or water, the content of onjisaponin B decreased significantly(P<0.05, P<0.01), but the contents of onjisaponin Z, onjisaponin F, polygalasaponin ⅩⅩⅧ and tenuifolin increased significantly(P<0.05, P<0.01) in Polygalae Radix. Compared with the water-boiled products, the contents of onjisaponin Z and tenuifolin increased significantly(P<0.05, P<0.01), and the change of tenuifolin content was the most significant in the licorice-boiled products.However, there was no significant difference in the content of onjisaponin B, onjisaponin F and polygalasaponin ⅩⅩⅧ between the water-boiled products and the licorice-boiled products. ConclusionBeing boiled with licorice juice or water can hydrolyze onjisaponin B, onjisaponin Z, onjisaponin F and polygalasaponin ⅩⅩⅧ, and generate secondary glycosides and aglycones(organic acids) through deglycosylation, which leads to obvious changes in the contents of onjisaponins after Polygalae Radix being processed.It is inferred that licorice juice can promote the hydrolysis of some onjisaponins in Polygalae Radix to onjisaponin Z and tenuifolin.This study provides an experimental basis for revealing processing mechanism of Polygalae Radix.
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Objective:To explore the molecular mechanism of Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair for depression and Alzheimer disease (AD) with the same treatment through network pharmacology. Methods:Effective components of Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair were retrieved from TCMSP, TCMID and ETCM databases. The disease targets of depression and AD were retrieved from GeneCards, TTD and CTD databases. Targets of action of drugs on active components were predicted through SwissTargetPrediction, and then the intersection targets of medicinal pair and the diseases were taken. Cytoscape 3.6.1 was used to construct the interaction network of Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair on "component-common target-disease". The enrichment analysis of GO function and KEGG pathway was carried out with the help of Metascape platform, and molecular docking verification was carried out. Results:Through searching the databases and literature, 78 compounds in Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair were obtained, corresponding to 41 targets of different diseases with the same treatment. The GO function was mainly concentrated in response to lipopolysaccharide and cellular response to nitrogen compound. The KEGG pathway was mainly concentrated in lipid and atherosclerosis, calcium signaling pathway, serotonergic synapse, insulin resistance and so on. The core targets were PTGS2, ESR2, etc. Molecular docking showed that most of the core components could form stable conformation with the core targets. Conclusions:Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair has the characteristics of multi-component, multi-target and multi-pathway in the same treatment of depression and AD. Through their core components of senegenin, 1-carbobutoxy-β-carboline, 6-hydroxy-1,2,3,7-tetramethoxyxanthone, kaempferol and etc., the pair can act on PTGS2 and other targets, regulate lipid and atherosclerosis, calcium signaling pathway, serotonergic synapse, insulin resistance and so on, and play a therapeutic role in depression and Alzheimer's disease with the same treatment.
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By the in-depth excavation of prescriptions containing herbal pair Acori Tatarinowii Rhizoma-Polygalae Radix in the Dictionary of Traditional Chinese Medicine Prescriptions, this study analyzed their formulation rules, so as to provide reference for their clinical application and new drug development. First, the prescriptions containing Acori Tatarinowii Rhizoma-Polygalae Radix were collected from the Dictionary of Traditional Chinese Medicine Prescriptions, and their indications, herbal compatibility, and dosage forms were analyzed statistically using the Traditional Chinese Medicine Inheritance Support System(TCMISS). Meanwhile, the formulation rules and common dosage forms for the top four indications(amnesia, palpitation, mania, and epilepsy) sorted by frequency were analyzed with Apriori algorithm. A total of 507 prescriptions containing Acori Tatarinowii Rhizoma-Polygalae Radix were screened out, involving 15 indications(frequency>10) like amnesia, palpitation, mania, and epilepsy. There were 30 commonly used Chinese herbs(frequency≥60), with the Qi-tonifying herbs(Ginseng Radix et Rhizoma and Glycyrrhizae Radix et Rhizome), mind-tranquilizing herbs(Poria and Poria cum Radix Pini), and Yin-nourishing herbs(Angelicae Sinensis Radix and Ophiopogonis Radix) being the core ones. The commonly used dosage forms were honey pill, paste pill, decoction, and powder. These have indicated that the herbal pair Acori Tatarinowii Rhizoma-Polygalae Radix is often combined with Qi-tonifying, Yin-nourishing, and mind-tranquilizing herbs for the treatment of "heart or brain diseases" caused by phlegm production due to spleen deficiency, Qi and blood deficiency, and phlegm-turbidity blocking orifice. In the treatment of amnesia, supplementing essence and replenishing marrow are considered on the basis of tonifying Qi, nourishing Yin, and tranquilizing mind. In the treatment of palpitation and mania, tranquilizing mind is emphasized. In the treatment of epilepsy, the emphasis is placed on resolving phlegm, extinguishing wind, and stopping convulsion.
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Mineração de Dados , Medicina Tradicional Chinesa , Raízes de Plantas , Prescrições , RizomaRESUMO
Objective:To observe the effects of Albiziae Flos (AF) and Polygalae Radix (PR) alone and their combination on the improvement of depression-like behavior in rats with chronic unpredictable stress (CUS) as well as on hippocampal ultrastructure and the expression of cyclic adenosine monophosphate response element binding protein (CREB) and nicotinamide adenine dinucleotide phosphate oxidase 2 (NOX2), to explore their action mechanisms. Method:Seventy-two Wistar rats were randomly divided into the normal group, model group, AF group, PR group, AF-PR group, and fluoxetine group. Rats in all groups except for the normal group were exposed to CUS and separated feeding to induce depression. Since the first day of modeling, rats in the AF group, PR group, AF-PR group were provided with the corresponding decoction containing 1.05 g·kg<sup>-1</sup> total crude drug by gavage, the ones in the fluoxetine group with 2.1 mg·kg<sup>-1</sup> fluoxetine hydrochloride aqueous solution, and those in the normal group and model group with the distilled water, for 28 successive days. The open field test and forced swimming test were performed 1 d before modeling and 7, 14, 21, 28 d after modeling, respectively. The morphological changes in hippocampus were observed under an electron microscope on the 28<sup>th</sup> day. The superoxide dismutase (SOD) and malondialdehyde (MDA) levels in hippocampus were detected by ultraviolet spectrophotometry, and the expression levels of CREB and NOX2 were detected by real-time polymerase chain reaction (Real-time PCR) and Western blot. Result:The behavioral experiment results showed that the number of horizontal activities and sugar water consumption in the model group declined as compared with those in the normal group, while the immobility time in the forced swimming test was prolonged (<italic>P</italic><0.05, <italic>P</italic><0.01). Compared with the model group, the AF group, PR group, and AF-PR group exhibited elevated number of horizontal activities, increased sugar water consumption but shortened immobility time in the forced swimming test (<italic>P</italic><0.05, <italic>P</italic><0.01). Compared with the AF group or PR group, the AF-PR group showed significantly different behavioral indexes (<italic>P</italic><0.05). Morphological results showed that the mitochondria of the model group were obviously swollen and the ultrastructure of the hippocampus was destroyed. By contrast, the hippocampal ultrastructure in each administration group was close to normal. The comparison with the normal group revealed that the activity of SOD in the hippocampus of the model group was significantly reduced, whereas the content of MDA was elevated (<italic>P</italic><0.01). Compared with the model group, the AF group, PR group, and AF-PR group displayed increased activity of SOD and decreased content of MDA in the hippocampal tissues (<italic>P</italic><0.05, <italic>P</italic><0.01). Compared with AF or PR alone, the herbal pair AF-PR resulted in significant differences in the above-mentioned indexes (<italic>P</italic><0.05, <italic>P</italic><0.01). The results of Real-time PCR and Western blot demonstrated that NOX2 expression in the hippocampus of the model group was up-regulated in comparison with that in the normal group, while the CREB expression was down-regulated (<italic>P</italic><0.05, <italic>P</italic><0.01). Compared with the model group, the AF group, PR group, and AF-PR group all showed diminished NOX2 expression but elevated CREB expression in the hippocampal tissues (<italic>P</italic><0.05, <italic>P</italic><0.01). The protein expression levels of NOX2 and CREB in the AF group or PR group were significantly different from those in the AF-PR group (<italic>P</italic><0.01). Conclusion:AF and PR alone and their combination improve the depression-like behavior of rats exposed to CUS, which may be related to the reduction of oxidative stress, the up-regulation of CREB expression, and the down-regulation of NOX2 expression in hippocampus.
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Polygalae Radix has long been used in China for calming the mind, promoting intelligence, communicating the heart and kidney, eliminating phlegm, and reducing swelling. At present, it is used to treat amnesia, insomnia, and malaise. Modern research has revealed that Polygalae Radix mainly contains triterpenoid saponins, xanthone, oligosaccharide esters, etc., with the activities of improving memory, resisting dementia, protecting the brain, relieving cough, and removing phlegm, as well as sedation and hypnosis. The present study reviews the research progress on chemical composition, pharmacological action, quality control, and metabolism of Polygalae Radix in the past 30 years, to provide a theoretical basis for further research and development.
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Medicamentos de Ervas Chinesas , Oligossacarídeos , Raízes de Plantas , Polygala , Controle de QualidadeRESUMO
Polygalae Radix, a traditional Chinese medicine, has the functions of improving intelligence, calming nerves, relieving cough and eliminating phlegm. Its processing methods are various, but the purpose of processing is to reduce toxicity and increase efficiency. In this paper, the methods of ancient processing, such as cleansing, cutting, processing with excipient and processing without excipient, were summarized, the processing methods of Polygalae Radix in the different versions of Chinese Pharmacopoeia and the local processing specifications were summarized, in order to compare the differences and research progress of different processing methods. On this basis, taking the modern research of processed products of Polygalae Radix as the breakthrough point, this paper reviewed the modern research on processed products of Polygalae Radix from the aspects of processing technology, chemical composition changes and pharmacodynamics changes before and after processing, and the mechanism of reducing toxicity and increasing efficiency. Based on the research status of processing of Polygalae Radix, some existing problems were analyzed in this paper, including not many ancient processing methods used in modern times, lack of standardized research on processing technology, few studies on the ingredients introduced by excipients, etc. The author thinks that it is necessary to strengthen the research on the ancient processing of Polygalae Radix combined with processing methods with local characteristics. While discussing the processing technology, combining with the composition and efficacy, we should carry out in-depth research on the processing mechanism of different processing products of Polygalae Radix, so as to provide scientific basis for the rationality of processing of Polygalae Radix and ensure the clinical safety of medication.
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Objective::To investigate the processing purpose of Morindae Officinalis Radix (MO), Euodiae Fructus (EF) and Polygalae Radix (PR) processed by Glycyrrhizae Radix et Rhizoma (Gly). Method::The content of dapsone in rat plasma was determined by high performance liquid chromatography (HPLC), the mobile phase was acetonitrile (A)-water (B) for gradient elution (0-5 min, 10%-25%A; 5-20 min, 25%A) and detection wavelength was set at 292 nm. PK Solution 2.0 software was used to simulate pharmacokinetic parameters. Result::Within 300 min after dapsone was administrated, compared with the control (CTL) group, the elimination of dapsone was slowed down and its plasma concentration was increased in the unprocessed product of MO (UMO) group. The elimination of dapsone was accelerated and its peak concentration (Cmax) was decreased in the processed products of MO with Gly (GMO) groups, and they had positive correlation with proportion of Gly in GMO. Compared with the CTL group, the elimination of dapsone was slowed down, and its plasma concentration was increased and its peak time (Tmax) was postponed in the unprocessed product of EF (UEF) group, while their Cmax and Tmax were changed in the processed products of EF with Gly (GEF) groups. Compared with the CTL group, the elimination of dapsone was slowed down and its plasma concentration was increased in the unprocessed product of PR (UPR) group, while the elimination was accelerated and its plasma concentration was decreased in the processed products of PR with Gly (GPR) groups. Conclusion::The elimination of dapsone is slowed down in rats administered with UMO, UEF and UPR, while its elimination is accelerated in rats administered with the processed products of these three herbs with different proportions of Gly. Among the proportions, effect of processed products of these three herbs with 100∶6 (ratio of unprocessed product-Gly) on pharmacokinetics of dapsone is not significant.
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Objective: To investigate aflatoxins contamination B1, B2, G1, G2 (AFB1, ATB2, AFG1, AFG2), toxigenic fungi species and potential contamination sources of Polygalae Radix during post-harvest processing, and analyze the main ways of aflatoxins contamination. Methods: Twenty-one Polygalae Radix samples were collected from multiple steps during the post-harvest processing in this study. Aflatoxin levels in these samples were determined by immunoaffinity column and HPLC coupled with post-column photochemical derivatization. Dilution-plate method was applied for the fungi isolation followed by strain identification based on morphological characterization and molecular approaches. Results: Aflatoxins were detected in 15 samples, but none of them exceeded the limit set by Chinese Pharmacopoeia. The fungal counts increased significantly from newly harvested samples to post-sweating, and the counts further increased to the maximum (2 × 108 CFU/g) after xylem-removing, then decreased after drying. In contrast, fungal counts of samples dried directly after harvesting did not change much throughout the processing. There was a significant positive correlation between fungal counts and water activity (Aw). A total of 209 fungal belonged to five genera were identified from the samples, and Penicillium was the predominant genus. Cladosporium and Fusarium were increased after sweating, and then Aspergillus increased after xylem-removing and drying. One A. parasiticus strain was confirmed to be able to produce AFB1, AFB2, AFG1, and AFG2. Conclusion: Aflatoxins contamination happened in both field production and post-harvest processing of Polygalae Radix. Especially, the contamination of Penicillium spp. should be paid more attention.
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Polygalae Radix and Acori Tatarinowii Rhizoma were first recorded in Shennong's Herbal Classic. Both of them can "improve people's memory". Long-term administration can make body light and macrobian. They have often been used as couplet medicines and the core combination of nootropic and memory improvement prescriptions. At present, traditional Chinese medicine clinicians believes that the principle of Polygalae Radix and Acori Tatarinowii Rhizoma in improving memory or intelligence is to supplement the deficiency, remove phlegm and unblock nine orifices, with sufficient evidences for the traditional theory. However, its material basis and mechanism for improving memory have not been fully elucidated. In this paper, we searched the literatures about pharmacological and pharmacodynamics mechanism of Polygalae Radix,Acori Tatarinowii Rhizoma and their chemical components on nervous system in recent ten years from Pubmed database and CNKI. The main material basis for improving memory of Polygalae Radix-saponins, oligosaccharides and alone, the main material basis for improving memory of Acori Tatarinowii Rhizoma-α-asarone,β-asarone and eugenol, the changes of the quality and quantity of the active substances after combination, and the mechanism of improving memory of the single drugs and their couplet medicines, such as scavenging free radicals, regulating cholinergic system, clearing β-amyloid protein(Aβ), decreasing the level of phosphorylation of Tau protein, improving the rate of apoptosis and regulating synaptic plasticity, were systematically collected, analyzed and summarized. In view of the current research situation, this paper points out the possible shortcomings, with the aim to further explore the mechanism of Polygalae Radix combined with Acori Tatarinowii Rhizoma with the mechanism of "1+1>2".
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Objective: To establish the method for determining the content of Polygalae Radix (3,6'-disinapoylsucrose) and Glycyrrhizae Radix et Rhizoma (glycyrrhizic acid) in Fufang Jiegeng Zhike Pian,so as to know the overall quality condition of Fufang Jiegeng Zhike Pian and ensure the safety and effectiveness of public medication. Method: HPLC was performed of MG C18 chromatographic column (4.6 mm×250 mm,5 μm) and mobile phase acetonitrile-0.05% phosphoric acid solution were used to test Polygalae Radix (3,6'-disinapoylsucrose) and Glycyrrhizae Radix et Rhizoma (glycyrrhizic acid),with the sample amount of 20 μL,flow rate of 1.0 mL·min-1,and column temperature of 30℃,where the mobile phase acetonitrile-0.05% phosphoric acid solution and detection wavelength were 18:82 and 320 nm for Polygalae Radix (3,6'-disinapoylsucrose) and 35:65 and 250 nm for Glycyrrhizae Radix et Rhizoma (glycyrrhizic acid). Result: 3,6'-Disinapoylsucrose and glycyrrhizic acid presented high linearity with the peak area at 0.105 8-2.643 8 μg(r=0.999 5) and 0.077 0-5.773 0 μg (r=1.000 0) respectively,and the average recovery rate was 96.2%(RSD 1.2%) and 95.6%(RSD 0.9%). After content determination of Polygalae Radix and Glycyrrhizae Radix et Rhizoma in 178 batches of samples,it was found that some producers input no,only a few or even poor medicinal materials (medicinal slices) during production,and the quality varied a lot among products from different producers and products of different batches from a same producer. Conclusion: The method is simple,accurate,and highly reproducible and sensitive,providing scientific basis for the overall quality control of Fufang Jiegeng Zhike Pian.
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Objective:To investigate the effect of alcohol extract of Magnoliae Officinalis Cortex,alcohol extract of Polygalae Radix and their compatibility on fecal metabolites of rats,analyze its potential metabolic pathways,and provide experimental basis for exploring the possible mechanism of Magnoliae Officinalis Cortex relieving gastrointestinal motility disorders induced by Polygalae Radix. Method:Forty male SD rats were randomly divided into the normal group,alcohol extract of Magnoliae Officinalis Cortex group(3.50 g·kg-1),alcohol extract of Polygalae Radix group(1.75 g·kg-1) and compatibility group (3.5 g·kg-1 of alcohol extract of Magnoliae Officinalis Cortex+1.75 g·kg-1 of alcohol extract of Polygalae Radix).Fecal samples were collected within 24 h after continuous gavage for 3 days.The fecal metabolites in each group was detected by ultra-high performance liquid chromatography-quadrupole-time of flight-mass spectrometry(UPLC-Q-TOF-MS),mobile phase was acetonitrile-0.1%formic acid solution for gradient elution,data collection range was m/z 50-1 200 under positive and negative ion mode of electrospray ionization.The characteristic biomarkers and corresponding metabolic pathways were analyzed or screened by Progenesis QI v2.0,SIMCA-P 14.0,SPSS 20.0,MetaboAnalyst 4.0 and other softwares. Result:A total of 17 characteristic metabolic markers were screened out,including 5-formiminotetrahydrofolic acid,L-3-hydroxykynurenine,7,8-dihydropteroic acid,etc.The main related pathways included biosynthesis of unsaturated fatty acids,linoleic acid metabolism,vitamin B6 metabolism,etc. Conclusion:The mechanism of Magnoliae Officinalis Cortex relieving gastrointestinal motility disorders induced by Polygalae Radix may be related to purine metabolism,folate biosynthesis,tryptophan metabolism and primary bile acid biosynthesis.
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Objective:To construct a "drug-target-pathway" network of Polygalae Radix and Gastrodiae Rhizoma in treating epilepsy, in order to explore the "multi-component, multi-target, multi-pathway" mechanism of the two kinds of traditional Chinese medicines. Method:According to the reverse pharmacophore matching method, potential targets of Polygalae Radix and Gastrodiae Rhizoma were predicted. Biological information annotation databases were used to analyze the molecular function and biological process of the action targets. Cytoscape 3.2.1 software was used to construct the "ingredient-core, target-pathway" network of Polygalae Radix and Gastrodiae Rhizoma for the treatment of epilepsy. Result:The 14 major constituents from Polygalae Radix exhibited interactions with 105 potential targets, and the 12 compounds from Gastrodiae Rhizoma showed interactions with 109 potential targets, involving several cancer signaling pathways, neuroactive ligand-receptor interaction and mitogen-activated protein kinase(MAPK) biological process played roles in the treatment of epilepsy. Conclusion:According to the screening for the potential targets relating to epilepsy and the evidences obtaining from docking study, we demonstrated that constituents from Polygalae Radix and Gastrodiae Rhizoma could play an anticonvulsant role by mediating the levels of monoamine substances. The conclusion is close to literatures published online to a certain degree, suggesting the accuracy of the study on the effect of Polygalae Radix and Gastrodiae Rhizoma in treating epilepsy according to the network pharmacology.
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The grading and quality analysis methods for different commercial Glycyrrhiza Polygalae Radix slices were established. The qualities of different grade samples were analyzed and compared, in order to provide useful information for the formulation of the grading standards of Glycyrrhiza Polygalae Radix slices. A total of 34 batches of Glycyrrhiza Polygalae Radix slice samples collected from 12 companies were divided into two grades: first-grade (diameter ≥ 3.0 mm) and second-grade (diameter < 3.0 mm). Thin-layer chromatography (TLC), multi-component content determination and fingerprint analysis were used to analyze the qualities of different grades of Glycyrrhiza Polygalae Radix slices, and the fingerprints were statistically analyzed using partial least squares-discriminant analysis (PLS-DA) and orthogonal partial least squares-discriminant analysis (OPLS-DA). The results showed that the established TLC method can simultaneously identify three major types of components, including sugar esters, xanthones, and saponins in Glycyrrhiza Polygalae Radix slices, and has obvious advantage compared to the existing methods for its rich information, low cost, and easy or safe operation. The multi-component determination showed that the contents of three index components (polygalaxanthone Ⅲ, 3,6'-disinapoyl sucrose and tenuifolin) in the first-grade products of Glycyrrhiza Polygalae Radix slices were lower than those in the second-grade products. The results of PLS-DA and OPLS-DA indicated significant differences were observed between the first-grade and second-grade products, with sibiricose A5, sibiricose A6, polygalaxanthone Ⅲ, 3,6'-disinapoyl sucrose and tenuifoliside A being identifies as the major differentiate markers.
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The quality of Chinese herbal medicine is an important prerequisite for ensuring clinical efficacy and safety. The current commodity specification of medicinal herbs is the summary of the traditional Chinese medicine practitioners' experience of "assessing the quality by distinguishing the features of traditional Chinese medicinal materials". However, with the continuous introduction and acclimatization and large-scale cultivation of wild medicinal herbs, the traits of some medicinal herbs have changed greatly compared with the previous one, resulting in that the market circulation specifications of these medicinal herbs is inconsistent with the current commodity specification. In this paper, by consulting the modern monographs, literatures and so on, we analyzed the market circulation specifications being implementing of Polygalae Radix, combined with the modern quality evaluation methods to explore the effects of strains and base, origin and climate, growth duration and harvesting period and medicinal parts on the quality of P. tenuifolia. This paper reveals the correlation between the traits and quality of Polygalae Radix, furthermore, provides the theoretical basis for setting up the commodity specifications of Polygalae Radix, and determines the future research direction of P. tenuifolia quality assessment.
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Quality control is the premise for traditional Chinese medicine efficacy and safety, but there are some problems in quality control of Polygalae Radix. The records of the modern pharmacopoeias for its medicinal species are not consistent with them in the ancient herbal books. Habitats of Polygala tenuifolia are endlessly changed in the ancient herbal books, which leads to an unclear genuine producing area. According to the traditional medicine theories, the reason why people feel dysphoria after taking P. tenuifolia is xylem and P. tenuifolia is bad for the throat without processing. However, the chemical composition that causes these side effects is not very clear. This paper reviewed the medicinal species, genuine producing area and the reasons for side effects of P. tenuifolia by consulting ancient herbal books, monographs, and literature. In the past, there are many other polygala plants used widely in all over the country. Shanxi province has become the genuine habitat for P. tenuifolia. The reason why people feel dysphoria after taking P. tenuifolia is saponins. All saponins, methylbenzene, and alkaloids cause these side effects for throat, but processing can reduce it. This review on processing aspect can provide evidence for reducing toxicity of P. tenuifolia.
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AIM To determine the contents of arillanin A,tenuifoliside A and tenuifoliside C in raw Polygalae Radix (root barks),Polygalae Radix duramen,Glycyrrhizae Radix et Rhizoma-processed Polygalae Radix,waterboiling Polygalae Radix and honey-processed Polygalae Radix.METHODS The analyses of 50% methanol extracts from samples were performed on a 30 ℃ thermostatic Kromasil C18 column (250 mm ×4.6 mm,5 μm),with the mobile phase comprising of acetonitrile-0.1% formic acid flowing at 1.0 mL/min in a gradient elution manner,and the detection wavelength was set at 330 nm.RESULTS The contents of three oligosaccharide esters were the highest in raw Polygalae Radix,followed by those in honey-processed Polygalae Radix,and those in water-boiling Polygalae Radix were the lowest.These constituents also existed in Polygalae Radix duramen,but their contents were lower than those in root barks.CONCLUSION The ester bonds of oligosaccharide esters in Polygalae Radix may be hydrolyzed during processing,followed by the generation of small molecular organic acids.The medication of whole Polygalae Radix (root barks and duramen) can be taken into consideration in clinical practice to reduce toxicity and enhance efficacy.
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OBJECTIVE:To improve the content determination for polygala xanthone Ⅲ in Polygalae Radix contained in Chi-nese Pharmacopoeia (2010 edition). METHODS:HPLC was performed on the column of Hypersil BDS C18 with mobile phase of acetonitrile-0.05% phosphoric acid(gradient elution)at a flow rate of 1.0 ml/min;detection wavelength was 320 nm,column tem-perature was 25℃,and the injection volume was 10μl. RESULTS:The linear range of polygala xanthoneⅢwas 0.029-0.928 μg/ml (r=0.999 1);RSDs of precision,stability and reproducibility tests were lower than 2.0%;recovery was 94.66%-100.90%(RSD=2.46%,n=6). CONCLUSIONS:The method is simple,stable and reproducible. Although the determination time is prolonged,it has improved the accuracy and it is more suitable for the content determination of polygala xanthoneⅢin Polygalae Radix.
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Polygalae Radix used as Chinese materia medica has a long history. The main chemical constituents include triterpenoid saponins, xanthones, oligosaccharide esters, and so on. The study shows that Polygalae Radix has a wide range of pharmacological activities, such as sedative hypnotic, anticonvulsant, antiaging, antidementia, brain protection, cough expectorant, antidepressant, antibacterial, and anticancer. In this paper, through referring to the domestic and foreign relevant literatures on Polygalae Radix systematically, we summarize the chemical composition, pharmacological activity, and structure activity relationship of Polygalae Radix, which could provide the reference for the further investigation and development of this plant.
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Objective: A rapid and specific ultra performance liquid chromatography (UPLC) method was established for simultaneous analysis on six compounds and fingerprint analysis on Polygalae Radix to evaluate the herb quality from different habitats in China. Methods: The UPLC method was carried out by gradient elution with acetonitrile-formic acid water (0.1%). The flow rate was 0.4 mL/min. The detection wavelength was at 320 nm. The fingerprint chromatograms and the contents of six compounds including sibiricose A5, sibiricose A6, sibiricaxanthone B, glomeratose A, polygalaxanthone III, and 3,6'-disinapoyl sucrose in 24 batches of Polygalae Radix were analyzed. The common peaks were identified by ultra performance liquid chromatography tandem with time-of-flight mass spectrometry with MSE data-acquistion mode (UPLC-Q-TOF-MSE). Results: There was a difference in contents of six compounds, especially for the content of 3,6'-disinapoyl sucrose and sibiricose A6. Thirty-seven peaks were selected as the common peaks, of which 33 peaks were identified, and the similarities of 24 batches were between 0.756 and 0.997. Based on the results of quantification and fingerprint analysis, a certain difference between samples from different habitats was further proven. Conclusion: The validated UPLC quantitative analysis and fingerprint methods are successfully used in the quality control of Polygalae Radix.