Therapeutic effects of Astragali Radix on diabetic foot:a clinical randomized controlled trial

Objective:This study was conducted to evaluate the efficacy of Astragalus on diabetic foot,as well as the effects on the levels of serum VEGF,bFGF,MMP-2,and inflammatory factors in patients,and to provide a scientific basis for the treatment of diabetic foot with the traditional Chinese medicine Astragalus.Methods:By taking 100 cases of diabetic foot patients who were admitted to the metabolic internal medicine division of the Second Affiliated Hospital of Guizhou University of Traditional Chinese Medicine and met the criteria of natriuresis during April 2021-April 2023 as the study subjects,and according to the random number method,all patients were divided into the control group and the observation group,with 50 cases in each group.In the control group,only basic treatment was carried out,while in the observation group,Astragalus injection was added based on the control group.After 8 weeks of treatment,the clinical efficacy,serum VEGF,bFGF,MMP-2,and inflammatory factor levels of the patients in the two groups were compared,respectively.Results:The total clinical efficiency of patients in the observation group was significantly better than that in the control group(χ^(2)=5.01,P<0.05).The inflammatory factor indexes decreased substantially in both groups.However,the decrease in the observation group was significantly higher than in the control group(P<0.05).Compared with the control group,serum VEGF and bFGF were considerably higher in the observation group,while MMP-2 was significantly lower(P<0.05).Conclusion:Astragali Radix is clinically effective in the diabetic foot,which can induce vascular endothelial repair and reduce the level of inflammatory factors,to improve the inflammatory state of patients and promote the restoration of ulcerated wound tissue,which is worth promoting in clinical practice.

Study on mechanism and molecular docking verification of Angelicae Sinensis Radix and Astragali Radix in treating ischemic stroke

Background:Traditional Chinese medicine(TCM)has been shown to be effective in treating ischemic stroke(IS),and the combination of Angelicae Sinensis Radix(ASR)and Astragali Radix(AR)is a core TCM prescription that is widely acknowledged for its efficacy in IS treatment.This study utilized network pharmacology methods to explore the molecular mechanisms underlying the therapeutic effects of Angelicae Sinensis Radix and Astragali Radix in IS treatment,with preliminary validation conducted through molecular docking.Methods:Information on the structure,targets,main biological functions,and pathways of the active components in Angelicae Sinensis Radix and Astragali Radix was collected using databases such as PubChem,PharmMapper,UniProt,and GeneCards.The results were visualized using software such as Cytoscape 3.6.1,Ledock,and pymol.Results:We retrieved 20 active components and 149 targets associated with the compatibility of Angelicae Sinensis Radix and Astragali Radix from various databases,and GeneCards database was used to search 3350 IS-related gene targets,including 78 key targets of Angelicae Sinensis Radix and Astragali Radix for the treatment of IS.Enrichment analysis of these 78 targets using gene ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)revealed the involvement of 48 GO terms in the treatment of IS,mainly in biological processes such as metabolism,biological regulation,and stress response.The composition of biological devices such as supercavitary membrane,cell fluid,and extracellular space was also involved.The biological functions mainly included protein binding,ion binding,hydrolytic enzyme activity,and others.The identified pathways were estrogen signaling pathway,mitogen-activated protein kinase(MAPK)signaling pathway,PI3K-AKT signaling pathway,RAP1 signaling pathway,P53 signaling pathway,PPAR signaling pathway,FOXO signaling pathway,RAS signaling pathway,prolactin signaling pathway,HIF-1 signaling pathway,and TNF signaling pathway.Molecular docking analysis showed that the 17 key active components of Angelicae Sinensis Radix and Astragali Radix had strong binding activity with 13 IS key targets.Conclusion:Through the application of network pharmacology methods,it was found that the use of Angelicae Sinensis Radix and Astragali Radix for treating ischemic stroke mainly targets the MAPK and PI3K-AKT signaling pathways,involving several crucial compounds and genes.Nevertheless,additional in vitro and in vivo studies are needed to verify these findings.

Predicting the grades of Astragali radix using mass spectrometrybased metabolomics and machine learning

Astragali radix(AR,the dried root of Astragalus)is a popular herbal remedy in both China and the United States.The commercially available AR is commonly classified into premium graded(PG)and ungraded(UG)ones only according to the appearance.To uncover novel sensitive and specific markers for AR grading,we took the integrated mass spectrometry-based untargeted and targeted metabolomics approaches to characterize chemical features of PG and UG samples in a discovery set(n=16 batches).A series of five differential compounds were screened out by univariate statistical analysis,including arginine,calycosin,ononin,formononetin,and astragalosideⅣ,most of which were observed to be accumulated in PG samples except for astragalosideⅣ.Then,we performed machine learning on the quantification data of five compounds and constructed a logistic regression prediction model.Finally,the external validation in an independent validation set of AR(n=20 batches)verified that the five compounds,as well as the model,had strong capability to distinguish the two grades of AR,with the prediction accuracy>90%.Our findings present a panel of meaningful candidate markers that would significantly catalyze the innovation in AR grading.

Simultaneous separation and determination of four main isoflavonoids in Astragali Radix by an isocratic LC/ESI-MS method

A simple, reliable and rapid isocratic liquid chromatography(LC)-mass spectrometric detection(MS) coupled with electrospray ionization(ESI) method for simultaneous separation and determination of calycosin-7-O-β-D-glucoside, ononin, calycosin and formonometin in Astragali Radix was developed. After the samples were extracted with ethanol, the optimum separation conditions for these analytes were achieved using water and acetonitrile(70:30, v/v) containing 0.2%(v/v) acetic acid as a mobile phase and a 2.0 mm×150 mm Hypersil-Keystone C18 column. Selective ion monitoring(SIM) mode and [M+H]+ ions at m/z 447, 431, 285 and 269 were used for quantitative analysis of four main active components above mentioned. The calibration curves were linear in the range of 0.4-175.0 μg/mL for calycosin-7-O-β-D-glucoside, 0.2-146.0 μg/m L for ononin, 0.4-210.0 μg/mL for calycosin and 0.5-217.0 μg/mL for formonetion, respectively. The limits of quantification(LOQ) and detection(LOD) were 0.4 μg/mL and 0.08 μg/m L for calycosin-7-O-β-D-glucoside, 0.2 μg/mL and 0.06 μg/m L for ononin, 0.4 μg/mL and 0.1 μg/mL for calycosin, 0.5 μg/m L and 0.1 μg/m L formonetion, respectively. The standard recoveries were in the range of 96.5%-104.7%. The developed method has successfully been used for the determination of four main flavonoids in Astragali Radix from various sources and can be used for identification, differentiation and quality evaluation of Astragali Radix.

A Preliminary Study in the Effect of <i>Astragali radix</i>, a Qi-Invigorating Herb, on Mitochondria: Insights at Cellular Level and Mouse Tissues Level

Objectives: To explore the effects of Qi-invigorating herbs on mitochondrial function using cultured cells and animal organs. Methods: Using water extracts of Astragali radix, we investigated the effect of “Qi-invigoration” on M-1 renal cells and mouse organs in-vitro including total adenylate production (TAP), reactive oxygen species (ROS) levels, and mitochondrial membrane potential (MMP). We also examined the effect on antioxidant capacity by conducting an analysis of superoxide dismutase (SOD) and glutathione (GSH). Results: 1) Astragali radix increased mitochondrial TAP generation and decreased ROS levels in both mouse kidney tissues and M-1 renal cells. 2) Astragali radix also significantly increased MMP and GSH levels in M-1 cells, but in the kidney tissue, there was no significant change in MMP levels and a decrease in GSH levels. 3) Astragali radix stimulated TAP levels in the heart, spleen, lung, kidney and skeletal muscle tissue, which was accompanied by the reduction of ROS. 4) For the meridian organs that Astragali radix belongs to, the energy production and antioxidant capacity were boosted simultaneously. Conclusions: These results provide new insights for the biochemical basis of Qi-invigoration and the meridian tropism theory for this Qi-invigorating herb.

Transcriptome Analysis of Gene in Mouse M-1 Cells Revealing the Functional Mechanism of Astragali Radix Extract

Astragali Radix (AR), the dried root of legumes, belongs to the Qi-invigorating herbs in traditional Chinese medicine and plays an important role in the treatment of many diseases. In order to understand the mechanism of action of AR extract. We used AR extract to treat M-1, mouse kidney cells, and used transcriptome sequencing technology to detect the genomic transcription level of the cells under the action of AR at different concentrations and times. The results showed that after a low concentration of AR treatments on the cells, the expression of genes related to cell growth and cellular immune response changed significantly, among which multiple genes are related to mitochondrial function, while high concentrations of AR affected the expression of histones and disease-related genes. It showed that the low concentration of AR extract can achieve the effect of invigorating Qi by regulating the function of mitochondria. In addition, several important genes and pathways were identified as potential targets of AR activation. The research not only clarified the main molecular biological mechanism of AR invigorating Qi, but also provided experimental basis and cellular physiology reference for the further clinical application of AR.

Potential mechanism of Astragali radix-Angelicae sinensis radix in the treatment of spinal cord injury based on network pharmacology and molecular docking

Objective:Using network pharmacology and molecular docking technology to explore the possible mechanism of Huangqi(Astragali radix)-Danggui(Angelicae sinensis radix)on the treatment of spinal cord injury.Methods:The active components and the targets related to Astragali radix-Angelicae sinensis radix were screened out on the Traditional Chinese Medicine Systems Pharmacology database.Genes of spinal cord injury were searched by Genecards and the Online Mendelian Inheritance in Man databases.The intersection targets between herbs and diseases were obtained through online Venn diagrams.A components-targets-pathways network was established on Cytoscape 3.8.1 software.The STRING database was used to construct the intersection protein interaction network and screen out core targets.Gene Ontology biological processes and enrichment analysis based on the Kyoto Encyclopedia of Genes and Genes of intersection proteins were performed via DAVID database.Finally,the molecular docking with key components and core targets were performed in AutoDock software.Results:The 22 chemical components including quercetin,kaempferol were collected from Astragali radix-Angelicae sinensis radix.It acts on 110 targets,and interleukin-6,tumor necrosis factor,mitogen-activated protein kinase,tumor antigen p53 were considered as the major targets.50 pathways like Interleukin-17 signaling pathway,tumor necrosis factor signaling pathway and mitogen-activated protein kinase signaling pathway participate in biological processes such as positive transcription regulation and lipopolysacchanide response.The molecular docking revealed that the core targets had stronger binding activity with its corresponding active components.Conclusion:Astragali radix-Angelicae sinensis radix has the characteristics of multi-component,multi-target,and multi-pathway effects in treating spinal cord injury.Its potential mechanism may be related to preventing inflammation,improving microcirculation,inhibiting neuronal apoptosis,protecting damaged nerve cells and promoting nerve repair and regeneration.

Quercetin,the key constituent of Astragali Radix,modulates ferroptosis in PASMCs and attenuates hypoxia pulmonary hypertension via the MAPK signaling pathway

This study delved into the mechanism by which the principal component of Astragali Radix regulated ferroptosis in the context of hypoxia-induced pulmonary hypertension,employing a combination of network pharmacology and experimental validation techniques.Active constituents of Astragali Radix and their corresponding targets were identified using the TCMSP database,while therapeutic targets associated with hypoxia-induced pulmonary hypertension were sourced from the GeneCards database.The Venn online tool facilitated the identification of overlapping targets between the active constituents of Astragali Radix and hypoxia-induced pulmonary hypertension.Interaction network diagrams depicting the relationship between Astragali Radix’s active constituents and their targets were constructed using Cytoscape software,with core targets and sub-networks identified using the CytoHubba plug-in.Gene ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)pathway enrichment analyses were conducted using the DAVID database.Additionally,the FerrDb database was consulted to analyze genes implicated in regulating ferroptosis.The investigation revealed 18 active constituents selected from Astragali Radix,with quercetin emerging as the key component.A total of 35 potential targets associated with Astragali Radix in regulating ferroptosis and addressing hypoxia-induced pulmonary hypertension were predicted.Experimental validation demonstrated that quercetin could inhibit the MAPK signaling pathway,resulting in reduced Fe2+and lipid peroxide levels,increased GPX4 expression,and the reversal of ferroptosis.In summary,this study elucidated the fundamental constituents and pivotal signaling pathways through which Astragali Radix modulated ferroptosis and mitigated hypoxia-induced pulmonary hypertension.Specifically,quercetin,a core constituent of Astragali Radix,was observed to inhibit ferroptosis in pulmonary arterial smooth muscle cells via the MAPK pathway and alleviate hypoxia-induced pulmonary hypertension.

Analysis of principal isoflavone glycosides and aglycones in Radix astragali

Two major isoflavone glycosides [calycosin 7-O-β-D-glucopyranoside （1） and ononin （2）] and their aglycones [calycosin （3） and formononetin （4）] were simultaneously quantified with HPLC/DAD method. Two unknown compounds were identified as calycosin 7-O-β-D-glucopyranoside-6＇＂-O-malonate （U1） and formononetin 7-O-β-D-glucopymnoside-6＇＂-O-malonate （U2）, respectively, with LC/MS^n. Raw Radix astragli were shown to have higher contents of isoflavone glycosides （1, 2）, but lower contents of aglycones （3, 4） than the processed herbal materials. After being moistened with water and stored up for 24 h at 35 ℃, the glycosides and their m_alonates were almost completely transformed to their corresponding aglycones. The different contents of the isoflavone glycosides and their aglycones in raw and processed Radix astragali materials might be due to enzymolysis of the glycosides during processing.

Nuclear magnetic resonance based metabolomic differentiation of different Astragali Radix

Astragali Radix(AR) is one of the most popular herbal medicines in traditional Chinese medicine(TCM). Wild AR is believed to be of high quality, and substitution with cultivated AR is frequently encountered in the market. In the present study, two types of ARs(wild and cultivated) from Astragalus membranaceus(Fisch.) Bge. and A. membranaceus var. mongholicus(Bge.) Hsiao, growing in different regions of China, were analyzed by NMR profiling coupled with multivariate analysis. Results showed that both could be differentiated successfully and cultivation patterns or growing years might have greater impact on the metabolite compositions than the variety; the metabolites responsible for the separation were identified. In addition, three extraction methods were compared and the method(M1) was used for further analysis. In M1, the extraction solvent composed of water, methanol, and chloroform in the ratio of 1 : 1 : 2 was used to obtain the aqueous methanol(upper layer) and chloroform(lower layer) fractions, respectively, showing the best separation. The differential metabolites among different methods were also revealed. Moreover, the sucrose/glucose ratio could be used as a simple index to differentiate wild and cultivated AR. Meanwhile, the changes of correlation pattern among the differential metabolites of the two varieties were found. The work demonstrated that NMR-based non-targeted profiling approach, combined with multivariate statistical analysis, can be used as a powerful tool for differentiating AR of different cultivation types or growing years.

Review of Astragali Radix

Astragali Radix(AR),known as Huangqi in China,is one of the most popular herbal medicines learnt worldwide to reinforce Qi(the vital energy).AR is traditionally prepared from the dried roots of Astragalus membranaceus or A.membranaceus var.mongholicus.It has been reported to have cardiotonic,hepatoprotective,hypotensive,immunostimulant,anti-aging,anti-oxidative,antidiabetic,and anti-inflammatory activities.The bioactive compounds were found to be flavonoids,saponins,polysaccharides,amino acids,and some trace elements.The present paper reviews the studies on AR including history,phytochemistry studies,pharmacological functions,and clinical application in recent years.

Two isomers of HDTIC isolated from Astragali Radix decrease the expression of p16 in 2BS cells

Background Astragafi Radix, the root of Astragalus membranceus （Fish） Bunge Var. mongholicus （Bge）, is a crude drug considered as one of the effective traditional Chinese anti-ageing material. The two isomers of 4-hydroxy-5-hydroxymethyl-[1,3]dioxolan-2,6＇-spirane-5＇,6＇,7＇,8＇-tetrahydro-indolizine-3＇-carbaldehyde （HDTIC）, HDTIC-1 and HDTIC-2, were first extracted from the herb in 2002. We demonstrated previously that 0.1 μmol/L HDTIC-1 or 1.0 μmol/L HDTIC-2 strongly delay replicaUve senescence of human fetal lung diploid fibroblasts （2BS）. In this study, we chose them to investigate their effects on the expression of senescence-associated genes to explore the mechanism of how HDTIC delays replicative senescence. Methods The effects of HDTIC-1 and HDTIC-2 on the expression of p16 and p21 were observed in vitro by RT-PCR and Western blot. The anti-oxidative activities of the compounds were also observed by phenotype alteration after treatment with antioxidants. Results There was an obvious expression of p16 in the control senescent cells. However, in the 2BS cells, after 56 population doublings （PDs） grown from PD28 in 0.1 μmol/L HDTIC-1 or 1.0 μmol/L HDTIC-2, there was a weak mRNA expression of p16 and no protein expression of pl 6 was observed. The expression level of p21 increased with cell ageing Moreover, there was no difference between the expression level of p21 in the control cells and that in the same PD cells cultured with HDTIC compounds. The results also showed that 2BS cells exposed to 100 μmol/L H202 for 5 minutes retum to their non-senescent phenotype and continue to be confluent after incubating the damaged cells with HDTIC-1 （1.0 μmol/L ） or HDTIC-2 （10 μmol/L ） for I hour. Conclusions Expression of p16 by 2BS cells was strongly inhibited by HDTIC compounds, which could contribute to their delayed replicative senescence by the way of p16^INK4a/Rb/MAPK. The anti-oxidative activities of HDTIC-1 and HDTIC-2, described in this study for the first time, might be indirectly related to their inhibition of p16 expression.

Rapid quantitative analysis of 12 chemical constituents in wild-simulated and cultivated Astragali Radix based on UHPLC-MS

Objective:Astragali Radix(AR)is one of the most widely used traditional Chinese medicines(TCMs)for tonic,which can be divided into wild-simulated and cultivated AR according to its cultivation method.However,whether cultivated AR can replace wild-simulated AR has always been a concern.Methods:In this study,a rapid,highly sensitive and specific analytical method using ultra-high performance liquid chromatography tandem mass spectrometry(UHPLC-MS)was developed to quantitatively measure 12 chemical constituents of AR in the different cultivation methods.Results:AR samples were analyzed with a good linear regression relationship(R2,0.9983–0.9995),precisions(relative standard deviation(RSD),1.31%-2.36%),repeatability(RSD,2.65%-4.92%),stability(RSD,1.50%-4.05%),and recovery(95.13%-106.52%).Through the determination of AR samples,we found the components of favonoids in wild-simulated AR were higher than cultivated AR,the saponins in cultivated AR were higher,the ratio of saponins/favonoids in cultivated AR was higher than wildsimulated AR.Conclusion:Based on this research,it could provide guidance for the quality control of AR.

Quality Evaluation of Astragali Radix based on DPPH Radical Scavenging Activity and Chemical Analysis

Objective To assess the quality of Astragali Radix from different areas based on the biological evaluation and chemical analysis. Methods The bioassay method of 1,1- diphenyl-2-picryl-hydrazyl （DPPH） radical scavenging activity for Astragali Radix was established. The parameters of DPPH assay including sample extraction time, reaction time, repeatability, and stability were detected. Furthermore, a method of HPLC-MS was developed to simultaneously determine calycosin-7-O-glucoside, ononin, formononetin, and astragaloside IV in Astragali Radix samples. And the total flavonoids and total saponins were detected by spectrophotometry. The relationship between DPPH evaluation and chemical analysis was studied by Pearson correlation analysis. Results Twelve batches of Astragali Radix from different origins showed a wide range of DPPH radical scavenging activities （ICso = 1.395-9.894 tJg/mL）. Based on DPPH assay, Sample ]0 derived from Inner Mongolia Autonomous Region （ICso = 1.395 iJg/mL） showed the best quality of all samples. Chemical analysis showed that different compounds selected as indices would cause different results for quality evaluation. Pearson correlation analysis revealed that the contents of total flavonoids （P = 0.032）, calycosin-7-giucoside （P = 0.035）, and astragaloside IV （P = 0.010） were positively correlated with DPPH radical scavenging activity. Conclusion Except for chemical analysis, DPPH radical scavenging activity can be used as a good alternative to assess and control the quality of Astragal/Radix.

Potential quality evaluation approach for the absolute growth years’ wild and transplanted Astragali Radix based on anti-heart failure efficacy

The quality of Astragali Radix(AR) was closely related to the growth period. However, the current commodity grades of AR were only divided by diameter but not directly related to the growth period, which leads to the contradiction between the grade standard and the quality evaluation index. Therefore, solving this problem will be the key for the quality evaluation of AR. The present study established a potential quality evaluation approach for the absolute growth years’ wild Astragali Radix(WAR) and transplanted Astragali Radix(TAR) based on the chemical components and anti-heart failure efficacy through adopting a bare-handed sections approach to rapidly identify the growth years of WAR. In this study, the absolute growth years of WAR were obtained by identifying the growth rings of 1–6 growth years root through the methods. The contents of flavonoids and saponins in 2–6 growth years’ WAR were determined by HPLC-UV-ELSD. The contents of 12 chemical components and the anti-fatigue failure effects of WAR(4-year-old)and TAR were compared on rat models of heart failure induced by doxorubicin. Meanwhile, NMR-based untargeted metabolomics studies were performed to investigate the regulative effects of WAR and TAR. The result shows that the numbers of growth rings were consistent with the actual growth periods of AR. The HPLC-UV-ELSD determination indicated that the content of total flavonoids in WAR was significantly higher than that in TAR. Pharmacodynamics analysis revealed that the effects of WAR on cardiac function parameters(EF, FS and LVIDs), contents of serum CK and BNP were superior to those of TAR. 13 metabolites of heart were identified that had a higher rate of change in WAR group than TAR. Overall, a rapid identification method for the growth years of WAR was established, and the fact that WAR were significantly better than TAR in the heart failure rats was first proved in the paper. This study provided a scientific basis for establishing a novel commodity specification and grade of AR for clinical rational drug use.

Research Status of Astragali Radix on Nerve Cells and Nerve System Diseases

Astragali Radix has a wide application in the nerve system diseases because of its obvious nerve cell protection and recovery effects.Astragali Radix has good clinical effects both in acute and chronic cerebrovascular diseases and neurological degenerative diseases.This paper reviews the experimental and clinical research status of Astragali Radix on nerve system and nerve system diseases,which may promote its experimental research and clinical application.

Critical process parameter identification of manufacturing processes of Astragali Radix extract with a weighted determination coeffcient method

Objective:Critical process parameters(CPPs)identification is an important step of the implementation of quality by design(Qb D)concept.There are many CPP identification methods,such as risk analysis method,sensitivity analysis method,multiple linear regression method,standard partial regression coefficient(SPRC)method,and so on.The SPRC method can consider multiple process critical quality attributes(CQAs)simultaneously,but the determination of CPP number is subjective.Therefore,new CPP identification method is still required.Methods:The manufacturing process of Astragali Radix extract,which contained water reflux extraction,concentration,and ethanol precipitation,was used as an example.First,the multiple process CQAs were determined to be the yield of pigment,dry matter,sugars,and active ingredients.Second,the potential CPPs were determined by a knowledge organization method.Plackett-Burman designed experiments were then performed.A weighted determination coefficient(R2 w)method was presented to identify CPPs.In this method,the importance of different CQAs was considered.Process parameters were removed one-by-one according to their importance index.The decrease in R2 wwas used to characterize the importance of the removed parameter.If the decrease of R2 wwas less than a preset threshold,the removed parameter was not a CPP.Results:During the manufacturing process of Astragali Radix extract,the potential CPPs determined by the knowledge organization method were water consumption,reflux extraction time,extraction frequency,ethanol content,ethanol consumption,and concentration endpoint.Reflux extraction time,the first ethanol consumption,the second ethanol consumption,and the second ethanol precipitation refrigeration temperature were found to be CPPs using the weighted determination coefficient method with the threshold of 10%.Conclusion:Using the weighted determination coefficient method,CPPs can be determined with all the CQAs considered based on their importance.The determination of CPP number is more objective compared with the SPRC method.

Molecular mechanism of Radix astragali on improvement of insulin sensitivity of SD rats treated with low dose dexamethasone

Aim To reveal the main active components and the action mechanisms of Radix astragali on insulin sensitivity improvement, we have investigated the effects of polysaccharide portion and saponin portion of Radix astragali extracts on blood biochemical indices and related gene expression of dexamethasone-induced SD rats. Methods SD rats （6 per group） received 2 μg/day subcutaneous dexamethasone for 4 weeks plus same dose （10 g material/kg） of polysaccharide or saponin extracts of Radix astragali. Blood samples, kidney tissues and epididymal fat pads were taken at the end of the experiment. Serum triglyceride （TG）, total cholesterol （TC）, low density lipoprotein cholesterol （LDLC）, high density lipoprotein cholesterol （HDLC）, glucose （GLU） and insulin （INS） levels were measured, respectively, mRNA levels of angiotensinogen in kidney, adiponectin and leptin as well as TNF-α in epididymal fats were determined by RT-PCR assay using GAPDH gene as an internal control. Results Both of polysaccharide and saponin extracts of Radix astragali exhibited positive effects in reducing serum triglycerides, glucose, and insulin levels of dexamethasone-induced SD rats. The saponin group showed more improvements on quantitive insulin sensitivity check index （QUICKI） than the polysaccharide group did. Both of the extracts down-regulated kidney angiotensinogen and fat TNF-α mRNA levels while they were simultaneously up-regulating fat adiponectin and leptin mRNA levels. No significant difference was found between actions of the two extracts. Conclusion Both of polysaccharide and saponin extracts of Radix astragali can improve insulin sensitivity. This action might be closely related to down-regulation of angiotensinogen, TNF-α and up-regulation of adiponectin and leptin expression. The results partly explained the improvement of type Ⅱ diabetes and diabetic nephropathy by Radix astragali. The similar actions of the two crude extracts suggest that unknown key active compounds might exist in both and remain to be discovered.

Metabolomics analysis and rapid identification of changes in chemical ingredients in crude and processed Astragali Radix by UPLC-QTOF-MS combined with novel informatics UNIFI platform

Astragali Radix, the root of Astragalus membranaceus(Fisch.) Bge. var. mongholicus(Bge.) Hsiao or Astragalus membranaceus(Fisch.) Bge., is widely used as a tonic decoction pieces in the clinic of traditional Chinese medicine(TCM). Astragali Radix has various processed products with varying pharmacological actions. There is no modern scientific evidence to explain the differences in pharmacological activities and related mechanisms. In the present study, we explore the changes in chemical components in Astragali Radix after processing, by ultra-high performance liquid chromatography quadrupole time-of-flight mass spectrometry(UPLC-QTOF-MS) combined with novel informatics UNIFI platform and multivariate statistical analysis. Our results showed that the crude and various processed products could be clearly separated in PCA scores plot and 15 significant markers could be used to distinguish crude and various processed products by OPLS-DA in UNIFI platform. In conclusion, the present study provided a basis of chemical components for revealing connotation of different processing techniques on Astragali Radix.

Protective effect of Radix Astragali injection on immune organs of rats with obstructive jaundice and its mechanism

AIM: To observe the protective effect of Radix Astragali injection on immune organs (lymph nodes, spleen and thymus) of rats with obstructive jaundice (OJ) and its mechanism. METHODS: SD rats were randomly divided into sham-operation group, model control group and Radix Astragali treatment group. On days 7, 14, 21 and 28 after operation, mortality rate of rats, pathological changes in immune organs, expression levels of Bax and nuclear factor (NF)-κB p65 proteins, apoptosis indexes and serum tumor necrosis factor (TNF)-α level in spleen and thymus were observed, respectively.RESULTS: Compared to model control group, the number of dead OJ rats in Radix Astragali treatment group decreased (P > 0.05). The TNF-α level (27.62 ± 12.61 vs 29.55 ± 18.02, 24.61 ± 9.09 vs 31.52 ± 10.95) on days 7 and 21, the pathological severity score for spleen [0.0 (0.0) vs 0.0 (2.0) on days 7 and 14 and for lymph nodes [0.0 (1.0) vs 1.0 (2.0), 1.0 (0.0) vs 2.0 (1.0)] on days 21 and 28, the product staining intensity and positive rate of Bax protein in spleen [0.0 (0.0) vs 1.0 (2.0), 0.0 (1.0) vs 2.0 (1.5) and thymus [0.0 (0.0) vs 1.0 (2.0), 0.0 (1.0) vs 2.0 (1.5)] on days 14 and 28, the apoptotic indexes [0.0 (0.0) vs 0.0 (0.01)] in spleen and thymus [0.0 (0.0) vs 0.0 (0.01) on days 14 and 21 were significantly lower in Radix Astragali treatment group than in model control group (P < 0.05). CONCLUSION: Radix Astragali has protective effects on immune organs of OJ rats by relieving the pathological changes in immune organs, reducing TNF-α level and inhibiting Bax expression and apoptosis in spleen and thymus.