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ObjectiveTo establish an ultra-high performance liquid chromatography-tandem triple quadrupole mass spectrometry(UHPLC-QqQ-MS) for determination of the active ingredients in Erdongtang, and to predict the targets and pathways of anti-insulin resistance action of this formula. MethodThe analysis was performed on an ACQUITY UPLC BEH C18 column(2.1 mm×100 mm, 1.7 μm) with the mobile phase of 0.1% formic acid aqueous solution(A)-acetonitrile(B) for gradient elution(0-3 min, 90%-87%A; 3-6 min, 87%-86%A; 6-9 min, 86%-83%A; 9-11 min, 83%-75%A; 11-18 min, 75%-70%A; 18-19 min, 70%-52%A; 19-22 min, 52%A; 22-25 min, 52%-5%A; 25-27 min, 5%-90%A; 27-30 min, 90%A). The contents of active ingredients in Erdongtang was detected by electrospray ionization(ESI) and multiple reaction monitoring(MRM) mode under positive and negative ion modes. On this basis, network pharmacology was applied to predict the targets and pathways of Erdongtang exerting anti-insulin resistance effect. ResultThe 20 active ingredients in Erdongtang showed good linear relationships within a certain mass concentration range, and the precision, stability, repeatability and recovery rate were good. The results of determination showed that the ingredients with high content in 15 batches of samples were baicalein(1 259.39-1 635.78 mg·L-1), baicalin(1 078.37-1 411.52 mg·L-1), the ingredients with medium content were mangiferin(148.59-217.04 mg·L-1), timosaponin BⅡ(245.10-604.89 mg·L-1), quercetin-3-O-glucuronide(89.30-423.26 mg·L-1), rutin(46.91-1 553.61 mg·L-1), glycyrrhizic acid(55.97-391.47 mg·L-1), neomangiferin(37.45-127.03 mg·L-1), nuciferine(0.89-63.48 mg·L-1), hyperoside(6.96-136.78 mg·L-1), liquiritin(30.89-122.78 mg·L-1), liquiritigenin(26.64-110.67 mg·L-1), protodioscin(58.57-284.26 mg·L-1), the ingredients with low content were wogonin(7.16-20.74 mg·L-1), pseudoprotodioscin(5.49-22.96 mg·L-1), ginsenoside Rb1(7.31-23.87 mg·L-1), ginsenoside Rg1(10.78-28.33 mg·L-1), ginsenoside Re(7.78-24.76 mg·L-1), ophiopogonin D(2.08-4.29 mg·L-1), methylophiopogonanone A(0.74-1.67 mg·L-1). The results of network pharmacology indicated that the mechanism of anti-insulin resistance exerted by Erdongtang might be related to the phosphatidylinositol 3-kinase/protein kinase B(PI3K/Akt) signaling pathway. ConclusionThe established UHPLC-QqQ-MS has the advantages of simple sample processing, strong exclusivity and high sensitivity, and can simultaneously determine the contents of the main ingredients from seven herbs in Erdongtang, which can lay the foundation for the development of Erdongtang compound preparations. The results of the network pharmacology can provide a reference for the mechanism study of Erdongtang in the treatment of type 2 diabetes mellitus.
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AIM: To predict the core targets and related signaling pathways of Yi-xin-yin oral liquid for the treatment of arrhythmia, heart failure and myocarditis based on UHPLC-Q-TOF/MS, network pharmacology, molecular docking methods, cell experiments, according to the“homotherapy for heteropathy”theory in traditional Chinese medicine. METHODS: UHPLC-Q-TOF / MS was used to analyze and identify the chemical composition of Yi-xin-yin oral liquid Extract and the blood-absorbing components of rats oral administrated with Yi-xin-yin oral liquid extract, which compounds were applied in the databases searching for the potential targets (TCMSP, SwissTargetPrediction) and disease targets (OMIM, Genecard). Venn diagram was used for target intersection, and the subsequent protein-protein interaction network obtained core targets by STRING11.5 database, and then construct a "disease-component-target" network by cytoscape3.9.0. Finally, DAVID database was used to analysis GO function and KEGG enrichment analysis of core targets, and molecular docking validation was performed using Autodock vina software. And, validated with H9c2 cells for potential active ingredients and targets. RESULTS: A total of 156 compounds were identified from Yi - xin-yin Oral Liquid extract; 34 compounds were identified from rat serum, including 6-gin-gerol, isoliquiritigenin, glycyrrhizic acid and other compounds, and 139 intersecting targets were obtained. The KEGG pathway enrichment analysis mainly involved the TNF signaling pathway, IL-17 signaling pathway, MAPK signaling pathway, PI3K-Akt signaling pathway and so on. The TNF and IL-6 targets were selected for molecular docking with the main compounds, and the docking results were good (less than -5 kcal/mol). In vitro cellular experiments have shown that Yi-xin-yin oral liquid can exert therapeutic effects by regulating TNF and IL-6. CONCLUSION: The main potential active ingredients of Yi-xin-yin oral liquid may be isoliquiritigenin, glycyrrhetinic acid, calycosin-7-glucoside, salvianolic acid B, and 6-gingerol, which mainly act on TNF, IL-6 and other targets to regulate specific signaling pathways and exert therapeutic effects.
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Aim To analyze the differences in plasma biomarkers and metabolic pathways between Atractylodes chinensis and Atractylodes coreana after intervention in spleen deficiency rats, and discuss the spleen strengthening mechanism of the two from a non targeted metabolomics perspective. Methods A spleen deficiency model was established in SD rats using a composite factor method of improper diet, excessive fatigue, and bitter cold diarrhea. To determine the content of gastrointestinal and immunological indicators, UHPLC-QE-MS technology was used, combined with principal component analysis (PC A) and orthogonal projections to latent structures-discriminant analysis (OPLS-DA) methods to search for biomarkers in plasma of spleen deficiency rats, and metabolic pathways were induced using the Pathway database. Results After administration of Atractylodes chinensis and Atractylodes coreana, various indicators in plasma of spleen deficiency rats showed varying degrees of regression. Metabolomics analysis showed that Atractylodes chinensis and Atractylodes coreana respectively recalled 70 and 82 plasma differential metabolites. Atractylodes chinensis mainly regulated two metabolic pathways : "Glycine, serine, and threonine metabolism, and "Thiamine metabolism". Atractylodes coreana mainly regulated five metabolic pathways, "Glycine, serine, and threonine metabolism", "Thiamine metabolism, "Pyrimidine metabolism", "Butanoate metabolism", and "Riboflavin metabolism". Conclusions Both Atractylodes chinensis and Atractylodes coreana have certain regulatory effects on spleen deficiency rats, and their mechanism of action may be related to regulating metabolic pathways such as "Glycine, serine, and threonine metabolism, and "Thiamine metabolism"in spleen deficiency.
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ObjectiveUltra-high performance liquid chromatography-quadrupole-electrostatic field orbitrap high resolution mass spectrometry(UHPLC-Q-Orbitrap HRMS) was used to identify the metabolites of limonin in rats, and to explore the gender differences in the distribution of prototype components and metabolites in rats after single dose intragastric administration of limonin, as well as to speculate the metabolic pathways. MethodThe separation was performed on a Thermo Scientific Accucore™ C18 column(3 mm×100 mm, 2.6 μm) with 0.1% formic acid aqueous solution(A)-0.1% formic acid acetonitrile solution(B) as mobile phase in a gradient elution mode(0-1 min, 5%B; 1-6 min, 5%-20%B; 6-18 min, 20%-50%B; 18-23 min, 50%-80%B; 23-25 min, 80%-95%B; 25-30 min, 95%B) at a flow rate of 0.3 mL·min-1 and a column temperature of 30 ℃. MS data of biological samples were collected under the positive ion mode of electrospray ionization(ESI) and in the scanning range of m/z 100-1 500. Plasma, tissues(heart, liver, spleen, lung, kidney, stomach and small intestine), urine and fecal samples were collected and prepared after intragastric administration, and the prototype component and metabolites of limonin were identified. ResultThe prototype component of limonin were detected in the feces, stomach, small intestine of female and male rats, and in the heart, liver, spleen, lung and kidney tissues of female rats. A total of 23 metabolites related to limonin were detected in rats, of which 2, 1, 5, 4, 23 metabolites were detected in liver, stomach, small intestine, urine and feces, respectively, and the main metabolic pathways were hydrolysis, reduction, hydroxylation and methylation, etc. The distribution of some metabolites differed between male and female rats. ConclusionThe prototype component of limonin are mainly distributed in the stomach and small intestine in rats, and the distribution of prototype component and some metabolites are different by gender. Limonin is mainly excreted through feces with phase Ⅰ metabolites as the main ones. The results of this study can provide a reference for further elucidation of the effect of gender differences on the metabolism of limonin in vivo and its mechanism of action.
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ObjectiveIn this study, based on ultra-high performance liquid chromatography-mass spectrometry(UHPLC-MS/MS) and high-throughput transcriptome sequencing technology(RNA-seq), we investigated the mechanism of Yishen Huashi granules in regulating serum metabolites and renal messenger ribonucleic acid(mRNA) expression to improve diabetic kidney disease(DKD). MethodSD rats were randomly divided into normal group , model group and Yishen Huashi granules group, with 8 rats in each group. The rat model of DKD was established by intraperitoneal injection of streptozotocin. Yishen Huashi granules group was given 5.54 g·kg-1·d-1 of Yishen Huashi granules by gavage, and the normal group and the model group were given the same amount of normal saline for 6 weeks. During the experiment, the body weight and blood glucose of rats were monitored, and the rats were anesthetized 24 hours after the last administration, blood was collected from the inferior vena cava, serum was separated, and renal function, blood lipid, and inflammatory indicators were detected. Kidney tissue of rats was fixed in neutral paraformaldehyde, and stained with hematoxylin-eosin(HE), Masson and periodic acid-Schiff(PAS) to observe the renal pathological changes. UHPLC-MS/MS and RNA-seq were used to identify the changes of serum metabolism and the differences of renal mRNA expression, and real time fluorescence quantitative polymerase chain reaction(Real-time PCR) and Western blot were used to detect the differential mRNA and protein expression in renal tissue to explore the common expression mechanism. ResultCompared with the normal group, rats in the model group showed a decrease in body weight, a significant increase in blood glucose, urinary microalbumin to urinary creatinine ratio(UACR), blood urea nitrogen(BUN), cystatin-C(Cys-C), β2-microglobulin(β2-MG), interleukin-6(IL-6), triglyceride(TG) and total cholesterol(TC), and a significant decrease in total superoxide dismutase(T-SOD)(P<0.01). After the intervention of Yishen Huashi granules, all the indexes were improved to different degrees in rats(P<0.05, P<0.01). Compared with the normal group, the model group showed renal mesangial stromal hyperplasia, fibrous tissue hyperplasia and tubular vacuolar degeneration. Compared with the model group, the renal pathology of rats in Yishen Huashi granules group was improved to a certain extent. A total of 14 target metabolites and 96 target mRNAs were identified, the target metabolites were mainly enriched in 20 metabolic pathways, including sphingolipid metabolism, glycerophospholipid metabolism, and the biosynthesis of phenylalanine, tyrosine and tryptophan. The target mRNAs were enriched to obtain a total of 21 differential mRNAs involved in the TOP20 pathways closely related to glycolipid metabolism. A total of 6 pathways, glycerophospholipid metabolism, arachidonic acid metabolism, purine metabolism, primary bile acid biosynthesis, ascorbic acid and uronic acid metabolism, and galactose metabolism, were enriched by serum differential metabolites and renal differential mRNAs, among them, there were 7 differential metabolites such as phosphatidylethanolamine(PE) and 7 differential mRNAs such as recombinant adenylate cyclase 3(ADCY3). Seven differential metabolites had high predictive accuracy as verified by receiver operating characteristic(ROC) curve, and the results of Real-time PCR and Western blot were highly consistent with the sequencing results. ConclusionYishen Huashi granules can reduce UACR, BUN and other biochemical indexes, correct the disorder of glucose and lipid metabolism, and improve renal function of DKD rats. And its mechanism may be related to the regulation of the level of PE and other blood metabolites, and expression of Phospho1 and other mRNAs in the kidney, of which six pathways, including glycerophospholipid metabolism, may play an important role.
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OBJECTIVE To identify the chemical components of Changtong oral liquid (CTOL),and to provide reference for the basic research and secondary development of its pharmacological substances. METHODS UHPLC-Orbitrap HRMS technique was adopted. CTOL sample was separated on a Hypersil Gold column with mobile phase consisted of 0.1% formic acid (containing 5 mmol/L ammonium formate)-acetonitrile (gradient elution). The eluent was detected in positive and negative ion modes using an electrospray ionization source. The data was processed by Xcalibur 4.3 and Compound Discoverer 3.3 software. The primary and secondary mass spectra data of each compound were collected. The unknown compounds were identified according to the mass spectrometry library of the instrument and the network databases mzCloud,mzVault,etc. Through matching with the pharmacology database and analysis platform of the traditional Chinese medicine system,the chemical components could be attributed to the traditional Chinese medicine. RESULTS Fifty-three chemical components were identified and analyzed from CTOL,such as 24 flavonoids,8 quinones,5 phenylpropanoids,4 sugars and glycosides,5 organic acids,3 amino acids,1 alkaloid,1 phenolic and 2 other compounds. Among them,12 components were derived from Salvia miltiorrhiza,9 from Citrus aurantium,7 from Rheum palmatum,4 from Angelica sinensis,1 from Magnolia officinalis,16 from Glycyrrhiza uralensis,and 4 from many kinds of medicinal materials. CONCLUSIONS CTOL mainly contains flavonoids,quinones and phenylpropanoid compounds,and its chemical components mainly come from G. uralensis,S. miltiorrhiza and C. aurantium.
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ObjectiveTo investigate the changes of differential metabolites in the serum of mice at different stages of bleomycin sulfate(BLM)-induced pulmonary fibrosis modeling and administration, and the mechanism of Wenfei Huaxian granules(WHG)against idiopathic pulmonary fibrosis. MethodMice were randomly divided into control group, control group of 14 days, model group, model group of 14 days, low-dose WHG group and high-dose WHG group. BLM(0.04 U per mouse)was injected into the trachea of mice in the model group, model group of 14 days, low-dose WHG group and high-dose WHG group, and sterile normal saline was injected into the trachea of mice in the control group and control group of 14 days. Mice of low-dose WHG group and high-dose WHG group were given different doses of WHG by gavage every day after injection of BLM, and mice of control group, control group of 14 days, model group and model group of 14 days were given sterile water by gavage every day. The peripheral blood of mice in the control group of 14 days and model group of 14 days were taken to prepare serum after injection of BLM for 14 days, and the peripheral blood and other materials of mice in the other groups were taken after continuous administration for 28 days. The bronchoalveolar lavage fluid(BALF)was collected for leucocyte differential count, the pathological examination and hydroxyproline(HYP)content determination of lung tissues of mice were performed, and the small molecule metabolites in serum samples of mice in each group were determined by ultra-high performance liquid chromatography-mass spectrometry(UHPLC-MS). Principal component analysis(PCA)and orthogonal partial least squares-discriminant analysis(OPLS-DA)were conducted to screen differential metabolites and their biological functions were analyzed. ResultCompared with the control group, a large number of continuous fibrotic foci appeared in the lung tissue of mice in the model group, the alveolitis score, fibrosis degree score and HYP content increased significantly(P<0.01), and the total number of leukocytes, macrophages and lymphocytes in BALF increased significantly(P<0.05). A total of 33 differential metabolites were screened between the control group of 14 days and model group of 14 days, mainly lipid metabolites, which were mainly involved in oxidative damage and inflammatory process. A total of 34 differential metabolites, mainly amino acid metabolites, were screened between the control group and model group, mainly involving nucleic acid damage and inflammatory process. Compared with the model group, the HYP content, fibrosis score and alveolitis score in the lung tissue of mice from high-dose WHG group decreased significantly(P<0.05, P<0.01), and the total number of lymphocytes in BALF decreased significantly(P<0.05). Compared with the model group, 27, 40 differential metabolites were identified in the serum of mice from the low-dose WHG group and high-dose WHG group separately. There were totally 9 common differential metabolites between the model group and low-dose WHG group/high-dose WHG group, which mainly involved in the metabolic pathways of inflammation related lipids metabolism, arginine and tryptophan metabolism, and the change trends in low-dose WHG group and high-dose WHG group were significantly back-regulated compared with the model group. ConclusionWHG can alleviate BLM-induced pulmonary fibrosis, collagen deposition and inflammatory reaction in mice, and its anti-fibrotic effect may be related to the adjusting of inflammatory factors, nitric oxide and oxidative stress related metabolic pathways.
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Based on ultra high-performance liquid chromatography-tandem mass spectrometry (UHPLC-MS/MS), a rapid and simultaneous quantitative method for the measurement of seven components (kinsenoside; rutin; kaempferol-3-O-rutinoside; quercimeritrin; narcissin; isorhamnetin-3-O-glucoside; quercetin) of A. roxburghii was established. The separation was performed over 8.0 minutes on a Waters Acquity UPLC BEH Shield RP18 (2.1 mm × 100 mm; 1.7 μm) with a mobile phase consisting of acetonitrile (A) and 0.1% formic acid water solution (B) with gradient elution at a flow rate of 0.2 mL·min-1; the column temperature was 30 ℃ and the injection volume was 2 μL. Electrospray spray ionization source (ESI source) was used for mass spectrometry, and positive and negative ion modes were detected at the same time. The results showed good linearity (R2 ≥ 0.998 0), with good precision, repeatability and stability, and the average recovery was 97.71%-103.33%. Through cluster heat map and redundancy analysis, we found that kinsenoside was mainly distributed in stems, followed by leaves, and the lowest content in roots. The content of kinsenoside increased significantly in the stems of plants 6 months, but less change was evident in the roots and leaves. Flavonoids and flavonoid glycosides were mainly distributed in leaves. The UHPLC-MS/MS method established in this paper can be used for the quality control of A. roxburghii and provides a reference for establishing a more comprehensive quality detection method for this medicinal.
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ObjectiveTo compare the effects of different processing methods in ancient and modern times on the chemical components of Lilii Bulbus decoction, and to provide experimental support for the origin processing, decoction piece processing and clinical application of this herb. MethodUltra high performance liquid chromatography tandem quadrupole electrostatic field orbitrap high resolution mass spectrometry(UHPLC-Q-Orbitrap HRMS) was used for structural identification of the compounds using excimer ions, secondary MS and characteristic fragment ions, and referring to relevant literature and database information. Principal component analysis(PCA) and orthogonal partial least squares discriminant analysis(OPLS-DA) were used to screen the main differential components, the differential components were quantitatively studied by high performance liquid chromatography(HPLC), in order to compare the types and contents of chemical components in the decoction of different processing products of Lilii Bulbus. ResultA total of 24 chemical components were identified from the decoction of different processed products of Lilii Bulbus, water extract and scalding liquid of fresh Lilii Bulbus, including 17 phenols, 5 saponins and 2 alkaloids. Compared with the fresh Lilii Bulbus decoction, the contents of regaloside A, p-coumaric acid, colchicine and other components in the decoction of dry Lilii Bulbus processed by scalding method decreased, the content of regaloside C in the decoction of dry Lilii Bulbus processed by steaming method decreased, and the contents of regaloside A and regaloside C in the decoction of fresh Lilii Bulbus processed by water immersion also decreased. Compared with the decoction of dry Lilii Bulbus processed by scalding method, the overall content of components in the fresh Lilii Bulbus decoction and the decoction of fresh Lilii Bulbus processed by water immersion was higher, the contents of components in the decoction of dry Lilii Bulbus processed by steaming method was higher, except for the slightly lower content of regaloside C. ConclusionDifferent processing processes have a certain effect on the types and contents of chemical components in Lilii Bulbus decoction. Scalding process is beneficial to the preservation of Lilii Bulbus, but can cause the loss of effective components. Compared with scalding method, steaming method can prevent browning of Lilii Bulbus and reduce the loss of its active ingredients. The processing method of removing foam after overnight immersion proposed by ZHANG Zhongjing may be more conducive to the treatment of Baihe disease, which can provide reference for the clinical rational application and mechanism research of different processed products of Lilii Bulbus.
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ObjectiveTo perform a predictive analysis of the quality marker(Q-Marker) for the anticoagulant activity of Kunning granules. MethodThe chemical components of Kunning granules were analyzed by ultra high performance liquid chromatography-quadrupole-time of flight tandem mass spectrometry(UHPLC-Q-TOF-MS/MS) on a Waters ACQUITY UPLC HSS T3 column(2.1 mm×100 mm, 1.8 μm) with the mobile phase of acetonitrile(A)-25 mmol∙L-1 ammonium acetate aqueous solution(B) for gradient elution (0-5 min, 5%-22%A; 5-10 min, 22%-30%A; 10-15 min, 30%-95%A; 15-20 min, 95%-5%A; 20-30 min, 5%A), flow rate of 0.2 mL∙min-1, column temperature at 30 ℃, injection volume of 1 μL, electrospray ionization(ESI), positive and negative ion detection modes. Interaction analysis between the targets of chemical components and the targets of abnormal uterine bleeding(AUB) was performed by network pharmacology, and the key components were screened through network topology analysis. The fingerprints of 10 batches of Kunning granules were established by high performance liquid chromatography(HPLC), the anticoagulant activity of the granules was determined by blood coagulation method and fibrinogen plate method, and the spectrum-effective relationship was established. The components co-occurring in the topological analysis and spectrum-effective relationship were selected as Q-Markers, and their anticoagulant activities were verified and confirmed. ResultA total of 475 chemical components were identified from Kunning Granule, of which 22 key components such as salvianolic acid B, paeoniflorin, naringin and neohesperidin, were the potential material basis for the treatment of AUB. The spectrum-effective analysis showed that peaks 7(paeoniflorin), 9(naringin), 10(neohesperidin) and 11(salvianolic acid B) were the optimal principal components, and in vitro activity test showed that these four components could better characterize their anticoagulant activity. ConclusionSalvianolic acid B, paeoniflorin, neohesperidin and naringin may be Q-Markers for the anticoagulant activity of Kunning granules.
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Ultra-high performance liquid chromatography-quadrupole-Exactive Orbitrap high resolution mass spectrometry(UHPLC-Q-Exactive Orbitrap HRMS) was employed to systematically analyze the chemical constituents in Lysionoti Herba, and high perfor-mance liquid chromatography-ultraviolet(HPLC-UV) to determine the content of main compounds. A Synergi~(TM) Hydro-RP 100 Å colu-mn(2 mm×100 mm, 2.5 μm) was used for gradient elution with acetonitrile-0.1% aqueous formic acid as the mobile phase at a flow rate of 0.2 mL·min~(-1) and a column temperature of 40 ℃. MS and MS/MS were conducted with electrospray ionization(ESI) in both positive and negative modes. The chemical components in Lysionoti Herba were identified by comparison with the retention time and mass spectra of reference compounds and the relevant mass spectral data reported in MS databases and relevant literature. Furthermore, the content of five constituents(neochlorogenic acid, chlorogenic acid, forsythoside B, acteoside, and nevadensin) in different Lysiono-ti Herba samples was simultaneously determined by HPLC-UV at the wavelength of 330 nm. A total of 84 compounds were identified in Lysionoti Herba, including 27 flavonoids, 20 phenylethanoid glycosides, 5 amino acids, 18 organic acids, 1 alkaloid, 6 nucleosides, and 7 others. The content of neochlorogenic acid, chlorogenic acid, forsythoside B, acteoside, and nevadensin showed good linear relationship(r>0.999) with the peak area within certain concentration ranges, which were 3.22-102.90, 12.84-410.82, 31.63-1 012.01, 25.00-800.11, and 4.08-130.51 μg·mL~(-1), respectively. The instrument precision, method repeatability, and solution stability all met requirement, and the average recovery rate was 97.31%-100.2%, with RSD ranging from 0.95% to 2.4%. The content of the five components varied among different Lysionoti Herba samples collected from different regions of Guizhou, and the average content of forsythoside B was the highest. The established qualitative method can rapidly and efficiently identify the chemical components of Lysionoti Herba, and the developed HPLC-UV method can simultaneously determine the content of five components in a simple, ra-pid, and accurate manner, providing a scientific basis for the quality evaluation of Lysionoti Herba.
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Chromatography, High Pressure Liquid/methods , Tandem Mass Spectrometry/methods , Chlorogenic Acid , Drugs, Chinese Herbal/chemistryABSTRACT
This study was designed to comprehensively characterize and identify the chemical components in traditional Chinese medicine Psoraleae Fructus by establishing an ultra-high performance liquid chromatography/quadrupole time-of-flight mass spectrometry(UHPLC-Q-TOF-MS) method in combination with in-house library. The chromatographic separation conditions(stationary phase, column temperature, mobile phase, and elution gradient) and key MS monitoring parameters(capillary voltage, nozzle voltage, and fragmentor) were sequentially optimized via single-factor experiments. A BEH C_(18) column(2.1 mm×100 mm, 1.7 μm) was finally adopted, with the mobile phase consisting of 0.1% formic acid in water(A) and acetonitrile(B) at the flow rate of 0.4 mL·min~(-1) and column temperature of 30 ℃. Auto MS/MS was utilized for data acquisition in both positive and negative ion modes. By comparison with reference compounds, analysis of the MS~2 fragments, in-house library retrieval and literature research, 83 compounds were identified or tentatively characterized from Psoraleae Fructus, including 58 flavonoids, 11 coumarins, 4 terpenoid phenols, and 10 others. Sixteen of them were identified by comparison with reference compounds, and ten compounds may have not been reported from Psoraleae Fructus. This study achieved a rapid qualitative analysis on the chemical components in Psoraleae Fructus, which provided useful reference for elucidating its material basis and promoting the quality control.
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Chromatography, High Pressure Liquid , Medicine, Chinese Traditional , Tandem Mass Spectrometry , Cell Cycle , CoumarinsABSTRACT
To study the quality control of three traditional Chinese medicines derived from Gleditsia sinensis [Gleditsiae Sinensis Fructus(GSF), Gleditsiae Fructus Abnormalis(GFA), and Gleditsiae Spina(GS)], this paper established a multiple reaction monitoring(MRM) approach based on ultra-high performance liquid chromatography-triple quadrupole-linear ion-trap mass spectrometry(UHPLC-Q-Trap-MS). Using an ACQUITY UPLC BEH C_(18) column(2.1 mm × 100 mm, 1.7 μm), gradient elution was performed at 40 ℃ with water containing 0.1% formic acid-acetonitrile as the mobile phase running at 0.3 mL·min~(-1), and the separation and content determination of ten chemical constituents(e.g., saikachinoside A, locustoside A, orientin, taxifolin, vitexin, isoquercitrin, luteolin, quercitrin, quercetin, and apigenin) in GSF, GFA, and GS were enabled within 31 min. The established method could quickly and efficiently determine the content of ten chemical constituents in GSF, GFA, and GS. All constituents showed good linearity(r>0.995), and the average recovery rate was 94.09%-110.9%. The results showed that, the content of two alkaloids in GSF(2.03-834.75 μg·g~(-1)) was higher than that in GFA(0.03-10.41 μg·g~(-1)) and GS(0.04-13.66 μg·g~(-1)), while the content of eight flavonoids in GS(0.54-2.38 mg·g~(-1)) was higher than that in GSF(0.08-0.29 mg·g~(-1)) and GFA(0.15-0.32 mg·g~(-1)). These results provide references for the quality control of G. sinensis-derived TCMs.
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Flavonoids/analysis , Alkaloids , Chromatography, High Pressure Liquid/methods , Mass Spectrometry , Drugs, Chinese HerbalABSTRACT
Sanhan Huashi formula(SHF) is the intermediate of a newly approved traditional Chinese medicine(TCM) Sanhan Huashi Granules for the treatment of COVID-19 infection. The chemical composition of SHF is complex since it contains 20 single herbal medicines. In this study, UHPLC-Orbitrap Exploris 240 was used to identify the chemical components in SHF and in rat plasma, lung and feces after oral administration of SHF, and heat map was plotted for characterizing the distribution of the chemical components. Chromatographic separation was conducted on a Waters ACQUITY UPLC BEH C_(18)(2.1 mm×100 mm, 1.7 μm) using 0.1% formic acid(A)-acetonitrile(B) as mobile phases in a gradient elution. Electrospray ionization(ESI) source was used to acquire data in positive and negative mode. By reference to quasi-molecular ions and MS/MS fragment ions and in combination with MS spectra of reference substances and compound information in literature reports, 80 components were identified in SHF, including 14 flavonoids, 13 coumarins, 5 lignans, 12 amino-compounds, 6 terpenes and 30 other compounds; 40 chemical components were identified in rat plasma, 27 in lung and 56 in feces. Component identification and characterization of SHF in vitro and in vivo lay foundations for disclosure of its pharmacodynamic substances and elucidation of the scientific connotation.
Subject(s)
Rats , Animals , Tandem Mass Spectrometry , Chromatography, High Pressure Liquid/methods , Drugs, Chinese Herbal/chemistry , COVID-19 , LignansABSTRACT
The whole herb of Solanum nigrum L. can be used as the herbal drug. In this study, UHPLC-Q Exactive high resolution mass combined with GNPS molecular network was used for the rapid characterization of the components in the leaves of S. nigrum L. A total of 157 compounds were identified, including 30 steroid alkaloids, 61 steroid saponins, 35 flavonoids, and 31 other compounds (amino acids and organic acids), by comparison with the data reported in the literature, and mass fragmentation characteristics analysis, as well as the correlation of known and unknown nodes in the GNPS molecular network. Compared with the fruits and stems, the leaves of S. nigrum L was rich in a variety of steroidal saponins, steroidal alkaloids, and flavonoids, and the results lay the foundation for the precise resources utilization of S. nigrum L.
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A quantitative analysis method for six principal active constituents (acubin, geniposidic acid, chlorogenic acid, pinoresinol di-O-glucopyranoside, geniposide, and pinoresinol 4-O-glucopyranoside) of crude Eucommiae Cortex (EC) and its salt-processed product extracts was developed to investigate and compare their pharmacokinetic behaviors in adenine-induced renal fibrotic rats in vivo. UHPLC-QqQ-MS/MS technology was employed. Scan was conducted in negative ion mode and quantitative determination was carried out by MRM paired ion. The established method was fully validated by specificity, linearity, precision, accuracy, stability, recovery, and matrix effect, and the results of methodological investigation met the requirements of biological sample analysis. Then, a quick, sensitive, and accurate method was successfully established, which could simultaneously measure the contents of six active constituents of crude and salt-processed EC extracts in rat plasma. After a single administration to renal fibrotic rats of crude EC and its salt-processed product extracts, the plasma concentration of each constituent at different time points was measured, the pharmacokinetic parameters were calculated and the concentration time curves were structured. The experiment was approved by the experimental animal ethics committee from Nanjing University of Chinese Medicine (No. 202103A008). The results showed that compared to the crude Eucommiae Cortex group, the tmax of aucubin, pinoresinol di-O-glucopyranoside, geniposide, and pinoresinol 4-O-glucopyranoside in the salt-processed Eucommiae Cortex group rat plasma were significantly lower than those in the crude group (P < 0.05, P < 0.01); the Cmax and AUC0-48 h of chlorogenic acid, the Cmax, AUC0-48 h and AUC0-∞ of pinoresinol di-O-glucopyranoside, and the Cmax of geniposide and pinoresinol 4-O-glucopyranoside were significantly higher than those in the crude group (P < 0.05, P < 0.01). Our investigation found that compared to crude Eucommiae Cortex, a variety of active ingredients could play a role of quick effect with higher peak blood concentration and bioavailability after oral administration of salt-processed Eucommiae Cortex, which were consistent with the traditional Chinese medicine theory of "salt-processing enhancing drug into kidney meridian", providing an experimental basis for the selection of quality control indexes and the in-depth study of processing mechanisms and metabolic rules in vivo of Eucommiae Cortex and its salt-processed product.
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Bupleuri Radix is commonly used in the traditional Chinese medicine, and saikosaponins are the important active ingredients. In this study, we first established a relative quantitative method for 25 saikosaponins using ultra high performance liquid chromatography-triple quadrupole mass spectrometry (UHPLC-QTrap-MS) in the scheduled multiple reaction monitoring (sMRM) mode. The established method showed good intra-day and intra-day precision, linearity, repeatability and stability. Then the method was applied to compare 37 batches of Bupleuri Radix from different planting areas. The results showed that there was no significant difference in the saikosaponins composition of Bupleuri Radix from different planting areas in Shanxi Province, which indicating that Bupleuri Radix is well adapted to the environment, so it is suitable for widely planting. However, Bupleuri Radix harvested at spring and autumn were differed from those harvested at summer, which indicated that the traditional harvesting experience was reasonable. Correlation analysis showed that saikosaponins a and d were positively correlated with some saponins, and 4 saponins (such as clinoposaponin XII) showed bigger content variation were identified by coefficient of variation analysis. The LC-MS based pseudotargeted metabonomic method established in this study can be applied to the comprehensive detection of saikosaponins, which providing new method for the quality evaluation of Bupleuri Radix.
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OBJECTIVE To study the mechanism of Compound zaoren granule in improving insomnia. METHODS Forty-nine mice were divided into blank group, model group, positive control group 1 (Estazolam tablets 0.5 mg/kg),control group 2 (Shumian capsule 0.6 g/kg), Compound zaoren granule low-dose, medium-dose and high-dose groups (2.5, 5, 10 g/kg), with 7 mice in each group. The insomnia model was established by chronic unpredictable mild stress combined with 4-chloro-DL- phenylacetic acid. The behavioral changes of mice were investigated through open field test and pentobarbital sodium synergistic hypnosis experiment, as well as the pathomorphology of mice hypothalamus tissue was observed by HE staining. The metabonomics analysis and multivariate statistical analysis of serum in mice were performed by UHPLC-Q-TOF-MS/MS, and the differential metabolites were screened out; the metabolic pathway analysis was conducted based on MetaboAnalyst 5.0 database. RESULTS Compared with blank group, the total travelling distance, the number of entering the central region and the moving distance in the central region of the model group were significantly reduced (P<0.05), the proportion of total rest time was significantly increased (P<0.05), the sleep duration of mice was significantly shortened (P<0.05), and hypothalamic nerve cells damaged and severely vacuolated. Compared with model group, the total travelling distance of Compound zaoren granule low-dose and medium-dose groups were increased significantly and the proportions of total rest time of those groups were decreased significantly (P<0.05), and the sleep duration of mice in Compound zaoren granule high-dose group was prolonged significantly (P<0.05); the hypothalamic nerve cells of mice in each administration group recovered to varying degrees, and the hypothalamus histiocytes of mice in the Compound zaoren granules high-dose group were closer to those in the blank group. A total of 18 differential metabolites (such as phenylalanine, taurine, norvaline, methionine) and 4 important amino acid metabolic pathways (L-phenylalanine, tyrosine and tryptophan biosynthesis; taurine and hypotaurine metabolism; L-phenylalanine metabolism; cysteine and methionine metabolism) were identified through metabolomics analysis. CONCLUSIONS Compound zaoren granules can normalize the disordered metabolism in vivo by regulating differential metabolites such as phenylalanine, taurine, and four amino acid metabolic pathways, so as to improve insomnia.
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ObjectiveTo establish the specific chromatogram and thin layer chromatography(TLC) of Qingxin Lianziyin(QXLZY) benchmark samples, in order to clarify the key quality attributes and provide a reference for the quality evaluation of QXLZY. MethodHigh performance liquid chromatography(HPLC) specific chromatogram of QXLZY benchmark samples was developed by using a YMC Hydrosphere C18 column(4.6 mm×250 mm, 5 μm) with the mobile phase of acetonitrile(A)-0.2% formic acid aqueous solution(B) for gradient elution(0-10 min, 5%-20%A; 10-20 min, 20%A; 20-25 min, 20%-24%A; 25-40 min, 24%-30%A; 40-55 min, 30%-50%A; 55-65 min, 50%-100%A; 65-75 min, 100%A; 75-75.1 min, 100%-5%A; 75.1-90 min, 5%A), and the detection wavelength was 360 nm. Ultra-high performance liquid chromatography-linear ion trap/orbitrap mass spectrometry(UHPLC-LTQ-Orbitrap MS) with electrospray ionization(ESI) was used to identify the components of QXLZY benchmark samples by accurate relative molecular weight and multilevel MS fragment ion information, the detection conditions were positive and negative ion modes and data dependency scanning mode. TLC identification methods for Ophiopogonis Radix, Lycii Cortex, Nelumbinis Semen, Poria, Astragali Radix and Ginseng Radix et Rhizoma in QXLZY were established. ResultA total of 15 characteristic peaks were identified from Glycyrrhizae Radix et Rhizoma, Plantaginis Semen and Scutellariae Radix, and the relative standard deviations of the retention times of 15 characteristic peaks in 15 batches of QXLZY benchmark samples were≤3% with peak 8(baicalin) as the reference peak. A total of 100 compounds, including flavonoids, organic acids, saponins, amino acids and others, were identified in the benchmark samples by UHPLC-LTQ-Orbitrap MS. The established TLC had good separation and was suitable for the identification of Ophiopogonis Radix, Lycii Cortex, Nelumbinis Semen, Poria, Astragali Radix and Ginseng Radix et Rhizoma in QXLZY. ConclusionThe material basis of QXLZY benchmark samples is basically determined by MS designation and source attribution. The established specific chromatogram and TLC of QXLZY are simple, stable and reproducible, which can provide a reference for the development and quality control of QXLZY.
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This study aims to explore the anti-depression mechanism of Zuojin Pills based on the plasma constituents, network pharmacology, and experimental verification. UHPLC-TOF-MS was used for qualitative analysis of Zuojin Pills-containing serum. Targets of the plasma constituents and the disease were retrieved from PharmMapper and GeneCards. Then the protein-protein interaction(PPI) network was constructed and core targets were screened for GO term enrichment and KEGG pathway enrichment. Cytoscape 3.7.2 was employed construct the "compound-target-pathway" network and the targets and signaling pathways of Zuojin Pills against depression were predicted. CUMS-induced depression mouse model was established to verify the key targets. The results showed that a total of 21 constituents migrating to blood of Zuojin Pills were identified, which were mainly alkaloids. A total of 155 common targets of the constituents and the disease and 67 core targets were screened out. KEGG enrichment and PPI network analysis showed that Zuojin Pills may play a role in the treatment of depression through AMPK/SIRT1, NLRP3, insulin and other targets and pathways. Furthermore, the results of animal experiments showed that Zuojin Pills could significantly improve the depression behaviors of depression, reduce the levels of IL-1β, IL-6 and TNF-α in hippocampus and serum, activate AMPK/SIRT1 signaling, and reduce the protein expression of NLRP3. In conclusion, Zuojin Pills may play a role in the treatment of depression by activating AMPK/SIRT1 signaling pathway, and inhibiting NLRP3 activation and neuroinflammation in the hippocampus of mice.