ABSTRACT
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.
ABSTRACT
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.
ABSTRACT
In this study, an ultra-performance liquid chromatography-quadrupole time-of-flight high resolution mass spectrometer(UPLC-Q-TOF-HRMS) was used to investigate the effects of the active ingredients in Periploca forrestii compound on spleen metabolism in rats with collagen-induced arthritis(CIA), and its potential anti-inflammatory mechanism was analyzed by network pharmacology. After the model of CIA was successfully established, the spleen tissues of rats were taken 28 days after administration. UPLC-Q-TOF-HRMS chromatograms were collected and analyzed by principal component analysis(PCA), orthogonal partial least squares discriminant analysis(OPLS-DA), and MetPA. The results showed that as compared with the blank control group, 22 biomarkers in the spleen tissues such as inosine, citicoline, hypoxanthine, and taurine in the model group increased, while 9 biomarkers such as CDP-ethanolamine and phosphorylcholine decreased. As compared with the model group, 21 biomarkers such as inosine, citicoline, CDP-ethanolamine, and phosphorylcholine were reregulated by the active ingredients in P. forrestii. Seventeen metabolic pathways were significantly enriched, including purine metabolism, taurine and hypotaurine metabolism, glycerophospholipid metabolism, and cysteine and methionine metabolism. Network pharmacology analysis found that purine metabolism, glycerophospholipid metabolism, and cysteine and methionine metabolism played important roles in the pathological process of rheumatoid arthritis. This study suggests that active ingredients in P. forrestii compound can delay the occurrence and development of inflammatory reaction by improving the spleen metabolic disorder of rats with CIA. The P. forrestii compound has multi-target and multi-pathway anti-inflammatory mechanism. This study is expected to provide a new explanation for the mechanism of active ingredients in P. forrestii compound against rheumatoid arthritis.
Subject(s)
Rats , Animals , Periploca , Cysteine , Cytidine Diphosphate Choline , Network Pharmacology , Phosphorylcholine , Metabolomics , Arthritis, Rheumatoid/drug therapy , Biomarkers , Glycerophospholipids , Methionine , Purines , Chromatography, High Pressure LiquidABSTRACT
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.
ABSTRACT
ObjectiveTo study the metabolism of chemical components from Citri Reticulatae Pericarpium(CRP)in different parts of rats by sequential metabolism and ultra performance liquid chromatography-high resolution mass spectrometry(UPLC-HRMS). MethodSD male rats were employed as experimental subjects, and blood samples of intestinal metabolism and hepatic metabolism were prepared after administration of CRP ethanol extract by in situ intestinal perfusion, and comprehensive metabolic samples were collected after intragastric administration. UPLC-HRMS was used to analyze the samples with acetonitrile(A)-0.1% formic acid aqueous solution(B)as the mobile phase for gradient elution(0-10 min, 10%-30%A; 10-30 min, 30%-95%A; 30-31 min, 95%-10%A; 31-35 min, 10%A)at a flow rate of 0.35 mL·min-1, using a heated electrospray ionization with positive and negative ion mode scanning in the range of m/z 100-1 500. Under these conditions, the differences in the profiles of CRP ethanol extract, blank plasma and drug-containing plasma under different treatment groups were compared, and the chemical components of each sample were analyzed and identified based on the retention time, accurate relative molecular mass, primary and secondary ion fragments, and the information of reference substances. ResultA total of 44 chemical components were identified in the CRP ethanol extract, including flavone-O-glycosides, flavone-C-glycosides and polymethoxyflavonoids, etc. The results of sequential metabolism showed that 22 chemical components in CRP were detected in the intestinal metabolic sample, 18 chemical components were detected in the hepatic metabolic sample, and 9 identical chemical components(narirutin, hesperidin, meranzin, 5,7,8,3ʹ,4ʹ,5ʹ-hexamethoxy-flavone, isosinensetin, sinensetin, 3,5,6,7,8,3ʹ,4ʹ-heptamethoxyflavone, nobiletin and tangeretin)could be detected in all three metabolic samples, with a total of 22 compounds entering the blood in prototype form. ConclusionThe identified 21 components with well-defined structures entering the blood as prototypes may be potential active components of CRP, and differences in the components at different metabolic parts can provide an experimental basis for elucidating the in vivo biotransformation process of the metabolic components of CRP.
ABSTRACT
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.
Subject(s)
Chromatography, High Pressure Liquid/methods , Tandem Mass Spectrometry/methods , Chlorogenic Acid , Drugs, Chinese Herbal/chemistryABSTRACT
Abstract Adenocalymma axillarum (K.Schum.) L.G. Lohmann is a liana belonging to the family Bignoniaceae. In traditional medicine, the genus Adenocalymma is used to treat fever, skin ailments, and body, joint, and facial muscle pains, and it is also applied as cosmetic. Biological assays conducted with the A. axillarum crude leaf ethanol extract have indicated leishmanicidal activity and absence of cytotoxicity. This study aimed to analyze the A. axillarum leaf ethanol crude extract by high-performance liquid chromatography-high-resolution mass spectrometry- diode array detector (HPLC-HRMS-DAD) and to evaluate the leishmanicidal and cytotoxic activities of this crude extract, its fractions, and isolated compounds. HPLC-HRMS-DAD analysis of this extract revealed that it consisted mainly of flavonoids, with nine major compounds. Extract purification yielded 4-hydroxy-N-methylproline, 6-β-hydroxyipolamiide, quercetin-3-O-robinobioside, hyperin, isorhamnetin-3-O-robinobioside, and 3'-O-methylhyperin, which were identified by Nuclear Magnetic Resonance. The isolated compounds were inactive against Leishmania amazonensis promastigotes and human lung fibroblast cells.
Subject(s)
Mass Spectrometry/methods , Magnetic Resonance Spectroscopy/methods , Chromatography, High Pressure Liquid/methods , Plant Leaves/classification , Complex Mixtures/chemistry , Leishmania/classification , Bignoniaceae/classification , Joints/abnormalitiesABSTRACT
PEP06 is a novel endostatin-Arg-Gly-Asp-Arg-Gly-Asp(RGDRGD)30-amino-acid polypeptide featuring a terminally fused RGDRGD hexapeptide at the N terminus.The active endostatin fragment of PEPO6 directly targets tumor cells and exerts an antitumoral effect.However,little is known about the kinetics and degradation products of PEP06 in vitro or in vivo.In this study,we investigated the in vitro metabolic stability of PEP06 after it was incubated with living cells obtained from animals of different species;we further identified the degradation characteristics of its cleavage products.PEP06 underwent rapid enzymatic degradation in multiple types of living cells,and the liver,kidney,and blood play important roles in the metabolism and clearance of the peptides resulting from the molecular degradation of PEP06.We identified metabolites of PEP06 using full-scan mass spectrometry(MS)and tandem MS(MS2),wherein 43 metabolites were characterized and identified as the degradation metabolites from the parent peptide,formed by successive losses of amino acids.The metabolites were C and N terminal truncated products of PEP06.The structures of 11 metabolites(M6,M7,M16,M17,M21,M25,M33,M34,M39,M40,and M42)were further confirmed by comparing the retention times of similar full MS spectrum and MS2 spectrum information with reference standards for the synthesized metabolites.We have demonstrated the metabolic stability of PEP06 in vitro and identified a series of potentially bioactive downstream metabolites of PEP06,which can support further drug research.
ABSTRACT
ObjectiveTo analyze the differential components in water extract of Chuanxiong Rhizoma before and after processing with wine, and to explore the molecular mechanism of Chuanxiong Rhizoma processed with wine in enhancing anti-cerebral ischemia injury. MethodUltra high performance liquid chromatography tandem quadrupole orbitrap high resolution mass spectrometry (UHPLC-Q-Orbitrap HRMS) was used to qualitatively analyze the main chemical components in water extract of Chuanxiong Rhizoma based on the spectral information of compound, comparison of reference substance and references. The chemical pattern recognition method was used to screen the differential components of Chuanxiong Rhizoma before and after processing. Based on these differential components, the potential targets of differential components were predicted by online databases, and the related targets of cerebral ischemia were searched. Cytoscape 3.6.0 was used to establish the network diagram of differential components-action targets-diseases of Chuanxiong Rhizoma processed with wine. The protein-protein interaction (PPI) network of intersection targets was constructed by STRING 11.5. The potential targets of differential components against cerebral ischemia were analyzed by Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis through DAVID 6.8. At the same time, the chemical compounds with high relative content and increased peak area after wine processing were docked with their corresponding targets to verify the mechanism of enhanced effect after wine processing. ResultA total of 71 chemical components were identified from Chuanxiong Rhizoma, 34 differential components and 603 potential targets were screened out. At the same time, a total of 769 disease targets and 60 intersection targets were obtained. Seven key targets were identified through PPI network analysis, including JUN, signal transducer and activator of transcription 3 (STAT3), mitogen-activated protein kinase 3 (MAPK3), interleukin-1β (IL-1β), vascular endothelial growth factor A (VEGFA), Caspase-3 (CASP3) and mtrix metalloproteinase 9 (MMP9). Tumor necrosis factor (TNF) signaling pathway was the main differential signaling pathway. The results of molecular docking showed that differential components (senkyunolide K, senkyunolide F, 3-n-butylphthalide, Z,Z′-6,8′,7,3′-diligustilide, ferulic acid and Z-ligustilide) and corresponding targets had good binding activities. ConclusionThe synergistic mechanism of Chuanxiong Rhizoma processed with wine may be related to the enhanced inhibitory effect of inflammatory reaction.
ABSTRACT
This study aimed to explore the anti-depressant components of Rehmanniae Radix and its action mechanism based on network pharmacology combined with molecular docking. The main components of Rehmanniae Radix were identified by ultra-high performance liquid chromatography-quadrupole/Orbitrap high resolution mass spectrometry(UPLC-Q-Orbitrap HRMS), and the related targets were predicted using SwissTargetPrediction. Following the collection of depression-related targets from GeneCards, OMIM and TTD, a protein-protein interaction(PPI) network was constructed using STRING. GO and KEGG pathway enrichment analysis was performed by Metascape. Cytoscape 3.7.2 was used to construct the networks of "components-targets-disease" and "components-targets-pathways", based on which the key targets and their corresponding components were obtained and then preliminarily verified by molecular docking. Rehmanniae Radix contained 85 components including iridoids, ionones, and phenylethanoid glycosides. The results of network analysis showed that the main anti-depressant components of Rehmanniae Radix were catalpol, melittoside, genameside C, gardoside, 6-O-p-coumaroyl ajugol, genipin-1-gentiobioside, jiocarotenoside A1, neo-rehmannioside, rehmannioside C, jionoside C, jionoside D, verbascoside, rehmannioside, cistanoside F, and leucosceptoside A, corresponding to the following 16 core anti-depression targets: AKT1, ALB, IL6, APP, MAPK1, CXCL8, VEGFA, TNF, HSP90 AA1, SIRT1, CNR1, CTNNB1, OPRM1, DRD2, ESR1, and SLC6 A4. As revealed by molecular docking, hydrogen bonding and hydrophobicity might be the main action forms. The key anti-depression targets of Rehmanniae Radix were concentrated in 24 signaling pathways, including neuroactive ligand-receptor interaction, neurodegenerative disease-multiple diseases pathway, phosphatidylinositol 3-kinase/protein kinase B pathway, serotonergic synapse, and Alzheimer's disease.
Subject(s)
Humans , Drugs, Chinese Herbal/pharmacology , Molecular Docking Simulation , Network Pharmacology , Neurodegenerative Diseases , Plant Extracts , RehmanniaABSTRACT
5-Fluorouracil(5-FU)is an anticancer drug extensively used for different cancers.Intracellular metabolic activation leads to several nucleoside and nucleotide metabolites essential to exert its cytotoxic activity on multiple cellular targets such as enzymes,DNA and RNA.In this paper,we describe the development of a method based on liquid chromatography coupled with high resolution mass spectrometry suitable for the simultaneous determination of the ten anabolic metabolites(nucleoside,nucleotide and sugar nucleotide)of 5-FU.The chromatographic separation was optimized on a porous graphitic carbon column allowing the analysis of the metabolites of 5-FU as well as endogenous nucleotides.The detection was performed on an Orbitrap? tandem mass spectrometer.Linearity of the method was verified in intra-cellular content and in RNA extracts.The limit of detection was equal to 12 pg injected on column for nucleoside metabolites of 5-FU and 150 pg injected on column for mono-and tri-phosphate nucleotide metabolites.Matrix effect was evaluated in cellular contents,DNA and RNA extracts for nucleoside and nucleotides metabolites.The method was successfully applied to i)measure the proportion of each anabolic metabolite of 5-FU in cellular contents,ii)follow the consequence of inhibition of enzymes on the endogenous nucleotide pools,iii)study the incorporation of metabolites of 5-FU into RNA and DNA,and iv)to determine the incorporation rate of 5-FUrd into 18 S and 28 S sub-units of rRNA.
ABSTRACT
Qing-Fei-Pai-Du decoction (QFPDD) is a Chinese medicine compound formula recommended for combating corona virus disease 2019 (COVID-19) by National Health Commission of the People's Republic of China. The latest clinical study showed that early treatment with QFPDD was associated with favorable outcomes for patient recovery, viral shedding, hospital stay, and course of the disease. However, the effective constituents of QFPDD remain unclear. In this study, an UHPLC-Q-Orbitrap HRMS based method was developed to identify the chemical constituents in QFPDD and the absorbed prototypes as well as the metabolites in mice serum and tissues following oral administration of QFPDD. A total of 405 chemicals, including 40 kinds of alkaloids, 162 kinds of flavonoids, 44 kinds of organic acids, 71 kinds of triterpene saponins and 88 kinds of other compounds in the water extract of QFPDD were tentatively identified via comparison with the retention times and MS/MS spectra of the standards or refereed by literature. With the help of the standards and in vitro metabolites, 195 chemical components (including 104 prototypes and 91 metabolites) were identified in mice serum after oral administration of QFPDD. In addition, 165, 177, 112, 120, 44, 53 constituents were identified in the lung, liver, heart, kidney, brain, and spleen of QFPDD-treated mice, respectively. These findings provided key information and guidance for further investigation on the pharmacologically active substances and clinical applications of QFPDD.
Subject(s)
Animals , Mice , Administration, Oral , Alkaloids/analysis , COVID-19 , Chromatography, High Pressure Liquid , Drugs, Chinese Herbal/pharmacokinetics , Flavonoids/analysis , SARS-CoV-2 , Saponins/analysis , Triterpenes/analysisABSTRACT
Objective:To analyze and identify the flavonoids of Citri Reticulatae Pericarpium with different aging time by an ultra-performance liquid chromatography-quadrupole-electrostatic field orbitrap high resolution mass spectrometry (UPLC-Q-Orbitrap HRMS). Method:Compounds were separated on Agilent Extend-C<sub>18</sub> column (3.0 mm×100 mm, 1.8 μm), mobile phase was 0.1% acetic acid aqueous solution (A)-0.1% acetic acid methanol solution (B) for gradient elution (0-25 min, 5%-95%B; 25-30 min, 95%B; 30-30.1 min, 95%-5%B; 30.1-35 min, 5%B), the flow rate was 0.4 mL·min<sup>-1</sup>, and the column temperature was set at 30 ℃. High resolution mass spectrometry was performed with electrospray ionization (ESI), and scanned in positive and negative ion modes by means of full scan/data dependent secondary scan (Full MS/dd-MS<sup>2</sup>). The multistage ion fragment information combined with mzCloud network database, local high resolution mass spectrometry database of traditional Chinese medicine components (OTCML), literature information and relevant reference materials were used for accurate qualitative analysis. Result:Totally 43 flavonoids in Citri Reticulatae Pericarpium were identified, including 24 flavones, 5 flavonols, 13 dihydroflavones and 1 chalcone. The flavonoids in samples with different aging time were basically consistent in material types, but the peak area was different. According to the comparison of relative content in the peak area, it was found that the relative contents of 30 flavonoids showed an overall increasing trend with the increase of aging time. Among them, the relative contents of 24 flavonoids (such as hesperidin, diosmin, 6-demethoxytangeretin, nobiletin and tangeretin) increased significantly. There was no significant change in the relative contents of the other 13 flavonoids (such as naringenin and neohesperidin). Conclusion:An efficient method is established in this paper to identify flavonoids in Citri Reticulatae Pericarpium with different aging time and their relative content changes rapidly and accurately. The findings provide a methodological reference for the study on pharmacodynamic material base and quality control of Citri Reticulatae Pericarpium, and it provides experimental basis that drugs processed long time ago have better effect of Citri Reticulatae Pericarpium.
ABSTRACT
Objective:An ultra-high performance liquid chromatography coupled with quadrupole-orbitrap high resolution mass spectrometry (UPLC-Q-Orbitrap HRMS) was developed to analyze and identify the chemical constituents in <italic>Coptis chinensis</italic> inflorescence. Method:The chromatographic separation was performed on ACQUITY UPLC BEH C<sub>18</sub> 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 (0-15 min, 10%-22%B; 15-20 min, 22%B; 20-25 min, 22%-44%B; 25-35 min, 44%-50%B; 35-40 min, 50%-60%B; 40-55 min, 60%-85%B), the flow rate was 0.15 mL·min<sup>-1</sup>, the injection volume was 3 μL and the column temperature was 30 ℃. HRMS was equipped with electrospray ionization (ESI) and scanned in positive and negative ion modes by means of full scan/data dependent secondary scan (Full MS/dd-MS<sup>2</sup>). Compound Discoverer 3.0 software combined with mzCloud, mzVault, ChemSpider databases and HRMS database of components in traditional Chinese medicine were used to analyze and identify the collected data by HRMS, based on accurate relative molecular mass, retention time and characteristic ion fragmentation of the compounds, as well as literature information and relevant reference materials. Result:A total of 51 chemical constituents were identified in <italic>C</italic>.<italic> chinensis</italic> inflorescence, including 16 alkaloids, 14 flavonoids, 7 phenylpropanoids, 7 organic acids and 7 others. Among them, 10 components [berberine, palmatine, coptidine, rutin, quercetin, isoquercitrin, chlorogenic acid, cryptochlorogenic acid,<italic> D</italic>-(-) quinic acid and <italic>D</italic>-proline] were unambiguously identified by comparing with reference standards. Conclusion:The established UPLC-Q-Orbitrap HRMS can be used to accurately analyze and identify chemical constituents of <italic>C. chinensis</italic> inflorescence. A total of 41 chemical constituents are reported from <italic>C. chinensis</italic> inflorescence for the first time and 6 alkaloids are found from the <italic>C. chinensis</italic> for the first time. These findings can provide methodological reference and experimental basis for the basic research of quality evaluation and efficacy materials of <italic>C. chinensis</italic> inflorescence, and lay a foundation for its further development and utilization.
ABSTRACT
Objective To study the metabolic transformation pathways of 4F-MDMB-BUTINACA in vivo by establishing zebrafish models. Methods Six adult zebrafish were randomly divided into blank control group and experimental group, with three fish in each group. After the zebrafish in the experimental group were exposed to 1 μg/mL 4F-MDMB-BUTINACA for 24 h, they were transferred to clean water and cleaned three times, then pretreated for instrumental analysis. The zebrafish in blank control group were not exposed to 4F-MDMB-BUTINACA. Mass spectrometry and structural analysis of 4F-MDMB-BUTINACA and its metabolites were conducted by liquid chromatography-high resolution mass spectrometry and Mass Frontier software. Results A total of twenty-six metabolites of 4F-MDMB-BUTINACA were identified in zebrafish, including eighteen phase Ⅰ metabolites and eight phase Ⅱ metabolites. The main metabolic pathways of phase Ⅰ metabolites of 4F-MDMB-BUTINACA in zebrafish were ester hydrolysis, N-dealkylation, oxidative defluorination and hydroxylation, while the main metabolic pathway of phase Ⅱ metabolites was glucuronidation. Conclusion Metabolite Md24 (ester hydrolysis) and Md25 (ester hydrolysis combined with dehydrogenation) would be recommended to be potentially good biomarkers for abuse of 4F-MDMB-BUTINACA.
Subject(s)
Animals , Cannabinoids , Chromatography, Liquid , Illicit Drugs , Microsomes, Liver/chemistry , ZebrafishABSTRACT
Objective To study the changes of metabolites in serum and tissues (kidney, liver and heart) of mice died of acute tetracaine poisoning by metabolomics, to search for potential biomarkers and related metabolic pathways, and to provide new ideas for the identification of cause of death and research on toxicological mechanism of acute tetracaine poisoning. Methods Forty ICR mice were randomly divided into control group and acute tetracaine poisoning death group. The model of death from acute poisoning was established by intraperitoneal injection of tetracaine, and the metabolic profile of serum and tissues of mice was obtained by ultra-high performance liquid chromatography-electrostatic field orbitrap high resolution mass spectrometry (UPLC-Orbitrap HRMS). Multivariate statistical principal component analysis (PCA) and orthogonal partial least square-discriminant analysis (OPLS-DA) were used, combined with t-test and fold change to identify the differential metabolites associated with death from acute tetracaine poisoning. Results Compared with the control group, the metabolic profiles of serum and tissues in the mice from acute tetracaine poisoning death group were significantly different. Eleven differential metabolites were identified in serum, including xanthine, spermine, 3-hydroxybutylamine, etc.; twenty-five differential metabolites were identified in liver, including adenylate, adenosine, citric acid, etc.; twelve differential metabolites were identified in heart, including hypoxanthine, guanine, guanosine, etc; four differential metabolites were identified in kidney, including taurochenodeoxycholic acid, 11, 12-epoxyeicosatrienoic acid, dimethylethanolamine and indole. Acute tetracaine poisoning mainly affected purine metabolism, tricarboxylic acid cycle, as well as metabolism of alanine, aspartic acid and glutamic acid. Conclusion The differential metabolites in serum and tissues of mice died of acute tetracaine poisoning are expected to be candidate biomarkers for this cause of death. The results can provide research basis for the mechanism and identification of acute tetracaine poisoning.
Subject(s)
Animals , Mice , Biomarkers/metabolism , Chromatography, High Pressure Liquid , Mass Spectrometry , Metabolome , Metabolomics , Mice, Inbred ICR , TetracaineABSTRACT
The study aimed to investigate the phytochemical profiles, in vitro antioxidant activity, and in silico molecular dockingantidiabetic activity of the aqueous root extracts of Ruellia tuberosa L. The phytochemical qualitative tests revealedthe positive detections of tannins, flavonoids, ascorbic acid, and phenolic compounds. Using Liquid chromatographyhigh-resolution mass spectrometry (LC-HRMS) analysis, 12 compounds were tentatively identified in the extracts.The major compounds were tentatively identified as betaine, daidzein, hispidulin, α-linoleic acid, and 4-coumaric acid.The aqueous root extracts have high antioxidant activity with the IC50 value of 15.2 mg/ml against DPPH free radicals.The major putatively identified compounds were docked to human pancreatic α-amylase protein, to investigate theirinhibitory activities to this enzyme. The interaction between betaine, daidzein, and hispidulin in docking with humanpancreatic a-amylase showed different binding sites to the protein. In addition, the types of bonds involved weremostly hydrogen and hydrophobic bonds which show the interactions between three ligands and α-amylase. Energygenerated from docking between betaine, daidzein, and hispidulin with α-amylase was −137.6, −245.8, and −236.7cal/mol, respectively. This study concludes that the aqueous root extracts of R. tuberosa L. have prospective as aninhibitor for a-amylase protein and to be used as antidiabetic agent. Further, in vitro and in vivo studies are needed toconfirm this work.
ABSTRACT
In this study, the chemical profiling of Jingyin Granules and the tissue distribution of nine major constituents in this Chinese medicine were performed after oral administration of Jingyin Granules to rats, by using UHPLC-Q-Exactive Orbitrap HR-MS. An Acquity UPLC BEH C_(18) chromatographic column(2.1 mm×100 mm, 1.7 μm) was used as solid phase, while the mobile phase was methanol and 0.1% formic acid water for gradient elution. The major constituents in this Chinese medicine were quickly and accurately identified, via comparison with the retention times and MS/MS spectra of the standards. A total of 106 chemicals were identified from Jingyin Granules, including 24 kinds of organic acids, 47 kinds of flavonoids, 10 kinds of iridoids, and 21 kinds of saponins and 4 kinds of other compounds. After oral administered Jingyin Granules to rats, 48, 30, 25, 23, 45, 34, 39, 26, 19 prototype compounds were identified in serum, heart, liver, spleen, lung, kidney, brain, fat, and testicles, respectively. Meanwhile, an LC-MS based analytical method was established for simultaneous determination of chlorogenic acid, swertiamarin, caffeic acid, sweroside, liquiritin, prim-O-glucosylcimifugin, arctiin, 5-O-methylvisammioside and arctigenin in biological samples. The tissue distribution(serum, liver and lung) of these nine aim constituents in rats after oral administration of Jingyin Granules were investigated. It was found that these nine constituents could be quickly absorbed into circulation system and then distributed to liver and lung tissues. Except arctigenin, the exposure of other eight aim constituents to serum and lung was peaked at 1 h. At 1 h, the exposure of these components to lung tissue were ranked as follows: swertiamarin [(75 191.0±3 483.21) ng·g~(-1)]>arctiin [(2 716.5±36.06) ng·g~(-1)]>5-O-methylvisammioside [(585.1±0.71) ng·g~(-1)]>arctigenin [(437.45±3.18) ng·g~(-1)]>chlorogenic acid [(308.1±5.66) ng·g~(-1)]>prim-O-glucosylcimifugin [(211.35±2.19) ng·g~(-1)]>sweroside [(184.3±9.05) ng·g~(-1)]>caffeic acid [(175.95±2.05) ng·g~(-1)]>liquiritin [(174.78±153.34) ng·g~(-1)]. In summary, an UHPLC-Q-Exactive Orbitrap HR-MS method has been established for rapid and accurate identification of the constituents in Jingyin Granules, while the tissue distribution of nine major absorpted constituents were investigated in rats following oral administration of Jingyin Granules. These findings provided key information and guidance for further studies on pharmacodynamic substances and clinical applications of Jingyin Granules.
Subject(s)
Animals , Rats , Chromatography, High Pressure Liquid , Chromatography, Liquid , Drugs, Chinese Herbal , Tandem Mass Spectrometry , Tissue DistributionABSTRACT
A tadalafil analogue was detected during routine screenings from two "fatigue reliever, immunity enhancer" dietary supplements by using UHPLC/Q-TOF HRMS. The MS2 spectrum of this compound was almost identical to that of 2-hydroxypropylnortadalafil. However, the retention time of this analogue was different from that of the 2-hydroxypropylnortadalafil isomers. The analogue was purified by using preparative HPLC and the structure was elucidated by mass spectrometric and NMR spectroscopic experiments. The spectral data suggested that the analogue bore a 3-hydroxypropyl group instead of the N-methyl group in tadalafil. The structure was further confirmed by comparison of the 1H NMR spectra data with those of the reference standard, and thus named as 3-hydroxypropylnortadalafil. The structure is first reported in China.
ABSTRACT
Objective: To systematically study the main chemical components of Fufang Shangtong Capsule and explore the main mechanism of its effect, and provide some reference for the research of its pharmacodynamic substance. Methods: In this study, UHPLC-Q-Orbitrap HRMS was used to comprehensively analyze the main chemical components of Fufang Shangtong Capsule. The chromatographic column was Waters Acquity UPLC® BEH C18 chromatographic column (50 mm ×2.1 mm, 1.7 μm) and the mobile phase was acetonitrile (A)-0.1% formic acid water (B). According to the MS/MS spectrometry information of compounds, and the comparison with standards or references, the chemical information of drugs can be quickly and accurately identified. On this basis, the network pharmacology method was used to analyze the chemical composition target of the drug, enrich its function, preliminarily select the main effective substances of the drug, and simultaneously explore its mechanism of action. Results: A total of 36 chemicals were identified in this study from Fufang Shangtong Capsule. The target function of enrichment analysis showed that the drug mainly played its therapeutic effect on regulating vascular endothelial, vascular smooth muscle pain, affecting platelet function, promoting energy supply, reducing inflammation and relieving pain, so as to exert its efficacy in promoting blood circulation and removing stasis, invigorating qi and relieving pain. Conclusion: In this study, UHPLC-Q-Orbitrap HRMS combined with network pharmacology was used, wich provided scientific theoretical basis and important reference for the identification of effective ingredients, screening of quality markers and the study of potential mechanism of action of Fufang Shangtong Capsule.