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ObjectiveBased on the quality evaluation experience of "it is better to have a fragrant and strong aroma" summarized by materia medica of past dynasties, the chemical components of Sojae Semen Nigrum(SSN) and Sojae Semen Praeparatum(SSP) were systematically compared and analyzed, and the main fermentation products in different fermentation time were quantitatively analyzed, so as to clarify the transformation law of internal components in the processing process and provide scientific basis for the modern quality control of SSP. MethodUltra performance liquid chromatography-quadrupole tandem time-of-flight mass spectrometry(UPLC-Q-TOF-MS) was used for the structural identification of the chemical constituents of SSN and SSP, and with the aid of Progenesis QI v2.3 software, the negative ion mode was employed for principal component analysis(PCA) pattern recognition, and the data were analyzed with the aid of orthogonal partial least squares-discriminant analysis(OPLS-DA) for two-dimensional data to obtain S-plot, and components with |P|>0.1 were selected as the differential constituents. The contents of isoflavonoids in SSP during fermentation was determined by UPLC, and the samples were taken every 8 h in the pre-fermentation period and every 2 d in the post-fermentation period, and the dynamic changes of isoflavonoid contents in different fermentation stages were analyzed. The contents of amino acids and nucleosides in SSP and SSN from different fermentation stages were quantitatively analyzed by phenyl isothiocyanate(PITC) pre-column derivatization and high performance liquid chromatography(HPLC) gradient elution, and the contribution of flavor substances to the "delicious" taste of SSP was discussed by taste intensity value(TAV). ResultA total of 19 kinds of differential components were screened out, mainly soybean saponins and isoflavones, and their contents decreased significantly or even disappeared after fermentation. In the pre-fermentation process of SSP, glycoside bond hydrolysis mainly occurred, and isoflavone glycosides in SSN were degraded and converted into the corresponding aglycones, the content of flavor substances such as amino acids increased gradually. In the post-fermentation process, protein degradation mainly occurred, after 8 d of post-fermentation, the content of isoflavones was basically stable, while the total content of amino acids increased by 8-40 times on average. Different amino acids form the special flavor of SSP, such as the TAV of glutamate is always ahead of other flavor substances, and sweet substances such as alanine and valine have made relatively great contributions to SSP. ConclusionBased on the law of constituent transformation, combined with the traditional evaluation index of "fragrant and strong", it is difficult to control the fermentation degree of SSP by the existing standards in the 2020 edition of Chinese Pharmacopoeia. It is suggested that description of the characteristics of SSP be refined and changed to "fragrant, delicious and slightly sweet", and at the same time, the post-fermentation index compounds such as glutamic acid, alanine and valine should be added as the quality control indicators of SSP, so as to standardize the production process and improve the quality of SSP.
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OBJECTIVE To determine the contents of N-nitroso impurities in raw materials/formulations of propranolol, metoprolol, atenolol, esmolol and bisoprolol, and clarify the attention threshold. METHODS Ultra-high performance liquid chromatography-quadrupole/electrostatic field orbitrap high-resolution mass spectrometry(UPLC-Q/Orbitrap HRMS)was adopted. An ACE Excel 3 C18-AR column was used for the separation and a mixture of 0.2% formic acid solution with 0.01 mol/L ammonium acetate and methanol was employed as the mobile phase by gradient elution, at a flow rate of 0.60 mL/min. The column temperature was set at 40 ℃ , and the sample size was 5 μL. The heated electrospray ionization source was employed in the positive full mass spectra-selected ion monitoring mode. The contents of N-nitroso impurities in raw materials/formulations of 15 batches of β-blockers from 10 manufacturers were determined by this method. Discovery Studio software was applied to predict the toxicity of the impurities and estimate the attention threshold. RESULTS Among 5 kinds of β-blockers, the linear ranges of N-nitroso propranolol, N-nitroso metoprolol, N-nitroso atenolol, N-nitroso esmolol and N-nitroso bisoprolol were 1.01-503.38, 1.02-508.38, 0.97-483.63, 1.11-554.27 and 1.05-523.92 ng/mL, respectively (r>0.999). The limits of quantitation were 1.04, 0.25, 0.05, 0.55 and 1.05 ng/mL, and the limits of detection were 0.52, 0.08, 0.02, 0.17 and 0.52 ng/mL, respectively. RSDs of precision, reproducibility, recovery, stability and durability tests were all lower than 7.5% (n=6 or n=5). Among the 15 batches of samples, except for 1 batch, N-nitroso propranolol (1.07-8.91 ng/mg), N-nitroso metoprolol (1.43-3.37 ng/mg), N-nitroso atenolol (1.33 ng/mg), N-nitroso esmolol (0.19 ng/mg) and N-nitroso bisoprolol (1.27 ng/mg) were detected in all other batches. According to predictions, the above 5 impurities had varying degrees of reproductive toxicity, mutagenicity and carcinogenicity, with attention thresholds of 1.0, 0.4, 4.3, 0.2 and 46.7 ng/mg, respectively. CONCLUSIONS The established method is simple, rapid, sensitive and specific, the estimated attention thresholds are clear, which can be used for the control of N-nitroso impurities in various β-blockers.
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ObjectiveThrough the correlation analysis between intestinal absorption profile and inhibition of macrophage foaming, the pharmacodynamic components of Zhuriheng dripping pills(ZRH) were explored to provide a basis for establishing its quality standard. MethodIntestinal absorption fluids with 0, 5, 10, 15, 20 times clinical equivalent doses were prepared by a rat everted gut sac(EGS), and the oxidized low density lipoprotein(ox-LDL)-induced RAW264.7 macrophage foaming model was used to investigate the effect of intestinal absorption fluid with different doses on the accumulation of lipids in RAW264.7 cells by oil red O staining and cholesterol content determination, and to screen for the optimal dose. Ultra performance liquid chromatography-quadrupole-electrostatic field orbitrap high-resolution mass spectrometry(UPLC-Q-Exactive Orbitrap MS) was used to analyze and identify intestinal absorption fractions of ZRH intestinal absorption fluids, and partial least squares-discriminant analysis(PLS-DA) and orthogonal partial least squares-discriminant analysis(OPLS-DA) were performed on different doses of ZRH intestinal absorption fluids using SIMCA 13.0 with peak area as the independent variable and the pharmacodynamic indicators as the dependent variables to screen the compounds with variable importance in the projection(VIP) value>1.0 as contributing components, and Pearson correlation analysis was used to determine the spectral effect relationship, determined the compounds and positive correlation with pharmacodynamic were as active ingredients. Molecular docking was used to verify the binding energy of peroxisome proliferator-activated receptor α(PPARα), PPARγ, PPARβ, human retinoid X receptor α(RXRA) and nuclear transcription factor-κB(NF-κB) with the active ingredients in ZRH intestinal absorption fluids. Real-time fluorescence quantitative polymerase chain reaction(Real-time PCR) was performed to detect the mRNA levels of PPARγ, scavenger receptor A1(SRA1) and adenosine triphosphate-binding cassette transporter A1(ABCA1) in RAW264.7 cells, Westen blot was used to detect the expression level of PPARγ protein in RAW264.7 cells, and enzyme-linked immunosorbent assay(ELISA) was used to detect the levels of interleukin(IL)-1β and NF-κB in RAW264.7 cells. ResultAccording to the results of oil red O staining and cholesterol content determination, the ZRH intestinal absorption fluids could significantly reduce macrophage foaming, and intestinal absorption fluids with 15, 20 times clinical equivalent doses had the best effect, the 15-fold ZRH intestinal absorption fluid was finally determined as the study subject. Spectral effect relationship showed that 52 corresponding peaks in the ZRH-containing intestinal fluid were positively correlated with the efficacy, including organic acids, phenylpropanoids, iridoids, flavonoids, bile acids, coumarins and chromones. Target validation results showed that 86.9%-96.2% of the total components processed good binding activities with the key targets of PPARα, PPARγ, PPARβ, RXRA and NF-κB, and the docking energy values were all less than -6.0 kcal·mol-1(1 cal≈4.19 J). The results of validation showed that, compared with the normal group, the model group showed a significant increase in the levels of SRA1 and PPARγ mRNA expression, a significant decrease in ABCA1 mRNA expression, a significant increase in the level of PPARγ protein expression, and a significant increase in the levels of IL-1β and NF-κB(P<0.01), compared with the model group, the 15-fold intestinal absorption fluid group showed a significant decrease in the levels of SRA1 and PPARγ mRNA expression(P<0.05, P<0.01), ABCA1 mRNA expression level was significantly up-regulated, the levels of IL-1β and NF-κB were significantly reduced(P<0.01), and PPARγ protein expression level was significantly reduced(P<0.05). ConclusionThis study identifies 52 components and their metabolites in ZRH intestinal absorption fluid that are positively correlated with the inhibition of macrophage foaming, which may be related to the regulation of the PPARs pathway in cells and the reduction of the levels of inflammatory factors, and can provide a reference for the quality control and clinical application of ZRH.
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ObjectiveTo study the changing characteristics of secondary metabolic compounds accumulated in Dendrobium nobile stems at different growth years, a simulated wild stone plant, in order to provide a theoretical basis for rational planning of the harvesting period of D. nobile. MethodUltra-high performance liquid chromatography-mass spectrometry(UPLC-MS/MS) was used to detect and analyze the secondary metabolites in the stems of 1-year-old, 2-year-old, and 3-year-old D. nobile. The mass spectrometry data were processed using Analyst 1.6.3 software, and all samples were subjected to principal component analysis(PCA), cluster heat map analysis, partial least squares-discriminant analysis(PLS-DA), and differential secondary metabolites were screened based on variable importance in projection(VIP) values>1, fold change(FC)≥2 and FC≤0.5. Then differential secondary metabolites were identified based on relative molecular weight, fragmentation ions and mass spectrometry database, and enriched pathways were identified based on the Kyoto Encyclopedia of Genes and Genomes(KEGG) database. ResultA total of 1 317 secondary metabolites were identified in the stems of D. nobile at three growth stages, with flavonoids, phenolic acids, alkaloids and terpenoids accounting for 76.55% of the total. Compared with the 1-year-old stems of D. nobile, 289 differential secondary metabolites were identified in the 2-year-old stems, of which 255 were up-regulated and 34 were down-regulated, 682 differential secondary metabolites were identified in the 3-year-old stems, of which 502 were up-regulated and 180 were down-regulated. Compared to the 2-year-old stems, the 3-year-old stems had 602 differential secondary metabolites, with 405 up-regulated and 197 down-regulated. As the growth stage of D. nobile increased, the top 10 up-regulated differential metabolites mainly included flavonoids, phenolic acids, phenylpropanoids and terpenoids, such as kaempferol derivatives, asperulosidic acid, apigenin derivatives, chrysoeriol derivatives, isorhamnetin derivatives, taxifolin derivatives, quercetin derivatives. KEGG enrichment analysis showed significant enrichment of secondary metabolites in the flavonoid biosynthesis, flavone, and flavonol biosynthesis, secondary metabolite biosynthesis, and phenylpropanoid biosynthesis pathways with the increase of growth years. ConclusionWith the increase of the growth years, the levels of secondary metabolites such as flavonoids, phenolic acids, phenylpropanoids and terpenoids in the wild-grown D. nobile have been significantly enhanced. In practical production, grading based on different growth years can be carried out to improve the medicinal and economic values of D. nobile.
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AIM:To explore the anti-ulcerative colitis mechanism of Buzhongyiqi pills based on the network pharmacology and experimental verification. METHODS: UPLC-QE-MS was used for qualitative analysis of Buzhongyiqi pills. Targets of the chemistry constituents and the disease were retrieved from GeneCards. Then the protein-protein interaction (PPI) network was constructed and core targets were screened for GO term enrichment and KEGG pathway enrichment. Ulcerative colitis mouse model was established to verify the key targets. RESULTS: A total of 41 constituents migrating of Buzhongyiqi pills were identified. A total of 123 common targets of the constituents and the disease and 24 core targets were screened out.KEGG enrichment and PPI network analysis showed that Buzhongyiqi pills may play a role in the treatment of ulcerative colitis through Akt, PI3K and other pathways. Furthermore, the results of animal experiments showed that Buzhongyiqi pills could significantly improve the depression behaviors of ulcerative colitis, reduce the levels of IL-6 and TNF-α in serum, inhibition Akt/PI3K signaling, and reduce the protein expression of PI3K. CONCLUSION: Buzhongyiqi pills may play a role in the treatment of ulcerative colitis by inhibition Akt / PI3K signaling pathway, and inhibiting PI3K and reduce the levels of IL-6 and TNF-α in the mice.
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ObjectiveTo establish a rapid and stable liquid chromatography-mass spectrometry(LC-MS) for simultaneous analysis of 17 chemical components in Gnaphalium affine aboveground parts with flowers, so as to provide experimental basis for improving the quality standard of this herb. MethodUltra performance liquid chromatography-quadrupole/electrostatic field orbitrap mass spectrometry(UPLC-Q-Exactive Orbitrap MS) was used for the quantitative analysis of 17 constituents in 15 batches of G. affine from different origins, the separation was performed on an ACQUITY UPLC® BEH C18 column(2.1 mm×100 mm, 1.7 μm) with the mobile phase of methanol(A)-0.1% formic acid aqueous solution(B) for gradient elution(0-1.0 min, 8%A; 1.0-4.0 min, 8%-26%A; 4.0-9.0 min, 26%A; 9.0-14.0 min, 26%-34%A; 14.0-14.5 min, 34%-45%A; 14.5-15.0 min, 45%-60%A; 15.0-18.0 min, 60%-90%A; 18.0-19.0 min, 90%A; 19.0-19.01 min, 90%-8%A; 19.01-20.0 min, 8%A), the flow rate was 0.3 mL·min-1, the column temperature was 40 ℃ and the injection volume was 2 μL. And the electrospray ionization was used with full scanning in both positive and negative ion modes, and the scanning range was m/z 100-1 000. ResultThe established method has been verified by the methodology and could be used for the simultaneous quantification of 17 components in G. affine. The content ranges of the 17 components(quinic acid, gallic acid, protocatechuic acid, neochlorogenic acid, chlorogenic acid, cryptochlorogenic acid, caffeic acid, 1,3-O-dicaffeoylquinic acid, isochlorogenic acid A, isoquercitrin, 1,5-O-dicaffeoylquinic acid, apigenin-7-O-glucoside, astragalin, isochlorogenic acid C, luteolin, apigenin and hispidulin) in 15 batches of G. affine samples was 39.60-179.12, 0.17-0.84, 2.41-8.38, 4.33-31.50, 13.63-180.38, 2.43-14.75, 1.16-19.68, 0.49-5.63, 55.77-445.16, 0.23-10.26, 62.04-530.10, 1.11-18.01, 11.36-90.61, 12.22-65.98, 7.22-69.84, 3.37-45.65, 0.30-2.59 μg·g-1, respectively. The content of organic acids was higher than that of flavonoids in G. affine, and the contents of 1,5-O-dicaffeoylquinic acid, isochlorogenic acid A, quinic acid and chlorogenic acid were higher. Meanwhile, the content of flavonoids in the samples from Guizhou was higher than that from Jiangsu, while the content of organic acids in the samples from Jiangsu was higher than that from Guizhou. ConclusionThe established method can be used for the rapid and accurate determination of 17 components in G. affine, which clarifies the content range of the main components in this herb, and can provide a reference for the selection of quality control markers of G. affine.
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ObjectiveTo investigate the effects of Aconiti Coreani Radix and Typhonii Rhizoma on the urinary metabolites of gerbils with stroke by non-targeted metabolomics technique, and then to clarify the mechanism of the two, as well as their similarities and differences. MethodTwenty-four gerbils were randomly divided into control group(CG), model group(MG), Aconiti Coreani Radix group(RA) and Typhonii Rhizoma group(RT). Except for the CG, ischemic stroke model was constructed using right unilateral ligation of gerbil carotid artery in the remaining groups. Except for the CG and MG, rats in the other groups received whole powder suspension(0.586 mg·g-1) was administered for 14 days. The neurological deficit in each group was scored by Longa scoring on days 0, 3, 7 and 14. After the end of administration, the serum, brain tissue and urine of gerbils in each group were collected, and the rate of cerebral infarction was detected by 2,3,5-triphenyltetrazolium chloride(TTC), and the levels of interleukin(IL)-6, tumor necrosis factor(TNF)-α, malondialdehyde(MDA), superoxide dismutase(SOD), glutathione(GSH), and nitric oxide(NO) in serum and brain tissue were determined by enzyme-linked immunosorbent assay(ELISA). The urine metabolomics of gerbils in each group was studied by ultra performance liquid chromatography-quadrupole-electrostatic field orbitrap high resolution mass spectrometry(UPLC-Q-Orbitrap-MS), and the data were processed by multivariate statistical analysis, and differential metabolites were screened based on value of variable importance in the projection(VIP) of the first principal component>1 and t-test P<0.05. Metabolic pathway analysis of the screened differential metabolites was performed using Kyoto Encyclopedia of Genes and Genomes(KEGG) database and Metaboanalyst 5.0. ResultCompared with the CG, the neurological deficit score was significantly increased in the MG(P<0.05), compared with the MG, the neurological deficit scores in the RA and RT were significantly reduced after 7 d and 14 d(P<0.05). Compared with the CG, the rate of cerebral infarction was significantly increased in the MG(P<0.05), compared with the MG, the rates of cerebral infarction in the RA and RT were significantly reduced(P<0.05). Compared with the CG, the levels of IL-6, TNF-α, and MDA in the serum and brain tissue of gerbils from the MG were significantly increased(P<0.05), and the levels of SOD, GSH and NO were significantly reduced(P<0.05). Compared with the MG, Aconiti Coreani Radix and Typhonii Rhizoma could down-regulate the levels of IL-6, TNF-α and MDA, and up-regulated the levels of SOD, GSH and NO. A total of 112 endogenous differential metabolites were screened by urine metabolomics, of which 16 and 26 metabolites were called back by Aconiti Coreani Radix and Typhonii Rhizoma, and could be used as potential biomarkers for both treatments in stroke gerbils, respectively. The results of the pathway analysis showed that both Aconiti Coreani Radix and Typhonii Rhizoma had regulatory effects on arginine and proline metabolism, pyrimidine metabolism, and aminoacyl-tRNA biosynthesis. In addition, Aconiti Coreani Radix could also regulate riboflavin metabolism, Typhonii Rhizoma could also regulate purine metabolism, glycine, serine and threonine metabolism, arachidonic acid metabolism, biosynthesis of pantothenate and coenzyme A, and β-alanine metabolism. ConclusionBoth Aconiti Coreani Radix and Typhonii Rhizoma have better therapeutic effects on stroke, with Aconiti Coreani Radix having stronger effects. From the metabolomics results, the main metabolic pathways regulated by Aconiti Coreani Radix involve amino acid metabolism, oxidative stress and so on, while Typhonii Rhizoma mainly involve amino acid metabolism, lipid metabolism, energy metabolism, etc.
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ObjectiveTo qualitatively analyze the chemical constituents and their tissue distribution in Lujiao formula based on ultra performance liquid chromatography-quadrupole-electrostatic field orbitrap high resolution mass spectrometry(UPLC-Q-Orbitrap-MS). MethodThe separation 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)-methanol(B) in a gradient elution(0-2 min, 4%B; 2-6 min 4%-12%B; 6-38 min, 12%-70%B; 38-38.5 min, 70%B; 38.5-39 min, 70%-95%B; 39-43 min, 95%B; 43-43.1 min, 95%-4%B; 43.1-45 min, 4%B), the flow rate was 0.3 mL·min-1 with the column temperature of 40 ℃ and the injection volume of 5 µL. The data were acquired by an electrospray ionization(ESI) in the full scanning mode of positive and negative ions, the scanning rang was set at m/z 100-1 500, the collision energies were 10, 20, 40 eV. Retention time, precise relative molecular mass and secondary mass spectrometry fragment ions were used to identify the compounds in Lujiao formula and analyze their tissue distribution, combing with self-established database and comparing with standard substances and published literature data. ResultA total of 260 compounds, including 156 flavonoids, 43 terpenoids, 18 coumarins, 13 organic acids, 7 phenylethanoids, 7 alkaloids and 16 others, were identified or hypothesized from Lujiao formula, 68 of which were identified by comparison with standard substances. And the results of tissue distribution showed that 100, 143, 129 and 126 prototype components were detected in blood, heart, liver and kidney, respectively. ConclusionThe chemical composition of Lujiao formula and their tissue distribution were systematic analyzed, which can provide reference for the quality control, clinical application, pharmacokinetics and pharmacodynamic material basis of Lujiao formula and its medicinal materials.
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ObjectiveTo clarify the differences in the efficacy and mechanism of different processed products of Atractylodes chinensis rhizoma by the pharmacodynamics and metabolomics studies of raw, bran-fried and rice water-processed products on rats with spleen deficiency. MethodSixty male SD rats were randomly divided into blank group, model group, raw product group(3.75 g·kg-1), bran-fried product group(3.75 g·kg-1), rice water-processed product group(3.75 g·kg-1) and Shenling Baizhusan group(6.7 g·kg-1), with 10 rats in each group. The method of excessive fatigue+improper diet was used to establish a spleen deficiency model in rats. After the end of modeling, except for the blank and model groups, each dosing group was given the corresponding drug suspension, the immune organ coefficients of each group of rats were examined, the levels of interleukin-6(IL-6), tumor necrosis factor-α(TNF-α), immunoglobulin G(IgG), amylase(AMS), motilin(MTL), gastrin(GAS), Na+-K+-adenosine triphosphatase(ATPase), aquaporin 2(AQP2), AQP3 and AQP8 in rats were measured by enzyme-linked immunosorbent assay(ELISA). Ultra high performance liquid chromatography-quadrupole-time-of-flight tandem mass spectrometry(UPLC-Q-TOF-MS) combined with orthogonal partial least squares-discriminant analysis(OPLS-DA) were used to search for biomarkers in the plasma samples of spleen-deficient rats by using two criteria[P<0.05 and variable importance in the projection(VIP) value>1], and to compare the different modulatory effects of the three decoction pieces on the splenic-deficient biomarkers, and metabolic pathway analysis was conducted through the Kyoto Encyclopedia of Genes and Genomes(KEGG) database. ResultCompared with the blank group, the thymus index and spleen index of rats in the model group were significantly decreased(P<0.05), the levels of IL-6, TNF-α, IgG and AQP2 were significantly increased(P<0.05), the levels of AMS, GAS, MTL, AQP3, AQP8 and Na+-K+-ATPase were significantly decreased(P<0.05). Compared with the model group, raw products, bran-fried products and rice water-processed products all increased thymus index and spleen index(P<0.05), decreased IL-6, TNF-α, IgG and AQP2 levels(P<0.05), and increased AMS, GAS, MTL, AQP3, AQP8 and Na+-K+-ATPase levels to different degrees. A total of 176 differential metabolites were screened in the model group compared with the blank group, of which 75, 72 and 84 biomarkers were called back by the raw products, bran-fried products and rice water-processed products, respectively(P<0.05, P<0.01). Raw products of A. chinensis rhizoma mainly affected glycine, serine and threonine metabolism. Bran-fried products mainly affected alanine, aspartate and glutamate metabolism, D-arginine and D-ornithine metabolism. Rice water-processed products mainly affected glycine, serine and threonine metabolism, alanine, aspartate and glutamate metabolism, citrate cycle, thiamine metabolism, D-arginine and D-ornithine metabolism. ConclusionRaw products, bran-fried products and rice water-processed products of A. chinensis rhizoma all have good spleen strengthening effects, among which the effects of bran-fried products and rice water-processed products were stronger. Meanwhile, raw products has the strongest dryness, followed by bran-fried products, and the weakest dryness of rice water-processed products. The three decoction pieces are able to significantly modulate metabolic abnormalities in spleen-deficient rats, and the mechanism may be related to amino acid metabolism such as glycine, serine and threonine metabolism as well as alanine, aspartate and glutamate metabolism.
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OBJECTIVE To establish a method for the determination of propofol concentration in human plasma and apply it in patients with lymphedema. METHODS The concentration of propofol was determined by UPLC-MS/MS after protein precipitation of plasma samples using thymol as internal standard. The sample was eluted on a Kinetex C18 column with a mobile phase consisting of acetonitrile (A)-water (B) for gradient elution at the flow rate of 200 μL/min. The sample size was 5 μL, and the column temperature was set at 40 ℃. The sample chamber temperature was 15 ℃. Using multi-reaction monitoring mode, the ion pairs for quantitative analysis were m/z 177.0→161.2 (propofol) and m/z 149.0→133.1 (internal standard), respectively. The above method was used to determine the plasma concentration of propofol in 6 patients with lymphedema. RESULTS The linear range of propofol was 50-5 000 ng/mL (r=0.995 0). RSDs of within- and between-batch precision were not more than 8.08%; no endogenous interference, carryover effect, or dilution effect was observed in blank plasma. The extraction recovery ranged from 89.80% to 93.73%, and matrix effects were within the range of 97.93%-101.73%. RSDs of the stability test were all lower than 3.27%. During intraoperative TCI 2-30 min, the plasma concentration of propofol in 6 patients was maintained in the range of 1 865.3-6 056.2 ng/mL, and the propofol was almost excreted within 4-8 h after operation. CONCLUSIONS The established UPLC-MS/MS method in this study can achieve the determination of propofol and a simple and fast sample pretreatment process without derivatization; it is proved to be suitable for the concentration monitoring of propofol in plasma samples of patients with lymphedema.
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OBJECTIVE@#To identify phytochemical constituents present in the extract of flowers of Xanthoceras sorbifolia and evaluate their anti-oxidant and anti-hyperglycemic capacities.@*METHODS@#The AlCl3 colorimetric method and Prussian Blue assay were used to determine the contents of total flavonoids and total phenolic acids in extraction layers, and the bioactive layers was screened through anti - oxidative activity in vitro. The Waters ACQUITY UPLC system and a Waters ACQUITY UPLC BEH C18 column (2.0 mm × 150 mm, 5 μm) were used to identify the ingredients. And anti-oxidative ingredients were screened by off-line UPLC-QTOF-MS/MS-free radical scavenging. The ameliorative role of it was further evaluated in a high-fat, streptozotocin-induced type 2 diabetic rat model and the study was carried out on NADPH oxidase (PDB ID: 2CDU) by molecular docking.@*RESULTS@#Combined with the results of activity screening in vitro, the anti - oxidative part was identified as the ethyl acetate layer. A total of 24 chemical constituents were identified by liquid chromatography-mass spectrometry in the ethyl acetate layer and 13 main anti-oxidative active constituents were preliminarily screened out through off-line UPLC-QTOF-MS/MS-free radical scavenging. In vivo experiments showed that flowers of X. sorbifolia could significantly reduce the blood glucose level of diabetic mice and alleviate liver cell damage. Based on the results of docking analysis related to the identified phytocompounds and oxidase which involved in type 2 diabetes, quercetin 3-O-rutinoside, kaempferol-3-O-rhamnoside, isorhamnetin-3-O-glucoside, and isoquercitrin showed a better inhibitory profile.@*CONCLUSION@#The ethyl acetate layer was rich in flavonoids and phenolic acids and had significant anti-oxidant activity, which could prevent hyperglycemia. This observed activity profile suggested X. sorbifolia flowers as a promising new source of tea to develop alternative natural anti-diabetic products with a high safety margin.
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OBJECTIVE To establish a UPLC-MS/MS method for the determination of plasma concentration of three carbapenem antibiotics, i.e. ertapenem (ETP), imipenem (IPM) and meropenem (MEM). METHODS After protein precipitation with methanol, the plasma samples were separated by ACQUITY UPLC BEH C18 column (2.1 mm×50 mm, 1.7 μm) using stable isotopes of three antibiotics (ETP-D4, IPM-D4, MEM-D6) as the internal standard. The mobile phases were 98% acetonitrile +2% water +0.1% formic acid and 98% water +2% acetonitrile +0.1% formic acid, by gradient elution. The flow rate was 0.3 mL/min and the column temperature was 40 ℃. Scanning analysis was performed in the positive ion and multiple reaction monitoring mode. RESULTS The method had good specificity, good linearity (r2≥0.993) in the range of 0.2-200, 0.1-100 and 0.1-100 μg/mL of ETP, IPM and MEM, and good intra-batch and inter-batch precision and accuracy (all RE≤5.14%, all RSD≤11.15%), the matrix effect and extraction recovery were consistent (RSD≤12.99%). CONCLUSIONS This study establishes the UPLC-MS/MS method to simultaneously quantify the plasma concentration of ETP, IPM and MEM. The method has the advantages of simple pretreatment, short detection time and small sample quantity to meet clinical requirement.
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ObjectiveTo establish a qualitative and quantitative analysis method for chemical constituents in Liu Junzitang(LJZT), and to clarify its material basis. MethodThe chemical constituents in LJZT were analyzed by ultra performance liquid chromatography-quadrupole-time-of-flight mass spectrometry(UPLC-Q-TOF-MS/MS), and the resulting compounds were identified by using databases, such as MassBank, PubChem, ChemSpider, Traditional Chinese Medicine Systems Pharmacology Database and Analytical Platform(TCMSP), and by combining with relevant literature. UPLC was used to establish a quantitative method for analysis of 9 compounds in LJZT, including liquiritin, hesperidin, lobetyolin, liquiritigenin, glycyrrhizic acid, nobiletin, tangeretin, atractylenolide Ⅱ and Ⅰ. ResultBy combining the relevant literature, database and MS information, a total of 79 compounds were identified from LJZT, including 31 flavonoids, 15 terpenoids, 14 nitrogen-containing compounds, 6 phenylpropanoids, 6 organic acids and 7 other compounds. The established quantitative analytical method for the nine representative components showed good linearity within their respective linear ranges, and the precision, stability, reproducibility and recovery were in accordance with the requirements. The quantitative results showed that the contents of liquiritin, hesperidin, lobetyolin, liquiritigenin, glycyrrhizic acid, nobiletin, tangeretin, atractylenolide Ⅱ and Ⅰ in LJZT were 0.376 5, 2.602 1, 0.082 6, 0.128 1, 1.778 6, 0.015 7, 0.006 7, 0.030 4, 0.003 2 mg·g-1, respectively. ConclusionThe established method can quickly, sensitively and accurately analyze the chemical constituents in LJZT, clarify that the material basis of LJZT is mainly flavonoids, terpenoids and nitrogen-containing compounds, and simultaneously determine the contents of the 9 components, which can lay a foundation for the research on quality control, mechanism and clinical application of LJZT.
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ObjectiveBased on ultra performance liquid chromatography-quadrupole-time-of-flight tandem mass spectrometry(UPLC-Q-TOF-MS), to evaluate the establishment of a mouse model of liver Yin deficiency by thyroid tablet suspension combined with 10% carbon tetrachloride(CCl4) from the perspective of non-targeted metabolomics, in order to lay the foundation for the establishment of a traditional Chinese medicine(TCM) syndrome model. MethodA total of 24 mice were randomly divided into blank group and model group. The model group was given thyroid tablet suspension(0.003 2 g·kg-1) by gavage for 14 consecutive days, and 10% CCl4(5 mL·kg-1) was intraperitoneally injected once a week to establish a liver Yin deficiency model, while the blank group was injected with an equal amount of olive oil intraperitoneally and gavaged with an equal amount of distilled water, and was fed with normal feed. After the modeling was completed, 6 mice in each group were randomly selected, the levels of alanine aminotransferase(ALT), aspartate aminotransferase(AST), cyclic adenosine monophosphate(cAMP), cyclic guanosine monophosphate(cGMP), interleukin(IL)-6, IL-10, tumor necrosis factor-α(TNF-α)were measured in the mice serum, and malondialdehyde(MDA), superoxide dismutase(SOD), total protein(TP), hydroxyproline(HYP) and other indicators were measured in the mice liver. Liver tissue sections were taken for hematoxylin-eosin(HE) staining and observing pathological changes. The remaining 6 mice in each group were subjected to UPLC-Q-TOF-MS combined with principal component analysis(PCA) and orthogonal partial least squares-discriminant analysis(OPLS-DA) were used to screen differential metabolites in the liver Yin deficiency mouse model, Kyoto Encyclopedia of Genes and Genomes(KEGG) database was used to analyze the corresponding metabolic pathways of differential metabolites. ResultCompared with the blank group, mice in the model group showed liver Yin deficiency manifestations such as reduced body weight, fatigue and sleepiness, disheveled and lusterless hair, irritability. The levels of ALT, cAMP/cGMP, IL-6, AST, MDA, cAMP, TNF-α significantly increased(P<0.05, P<0.01), while the levels of SOD, IL-10 and cGMP significantly decreased(P<0.05, P<0.01), and the changes of HYP and TP were not statistically significant. Hepatic steatosis and distortion of the radial arrangement of the liver plate cells were seen in the section images of the model group, endogenous substances were clearly separated, and 252 differential metabolites were identified in the serum samples, which were mainly involved in the metabolic pathways of purine metabolism, steroid hormone biosynthesis and pyrimidine metabolism. A total of 229 differential metabolites were identified in the liver samples, mainly involving nucleotide metabolism, purine metabolism, steroid hormone biosynthesis, pyrimidine metabolism, antifolate resistance, insulin resistance, primary bile acid biosynthesis, prostate cancer, sulfur relay system, arachidonic acid metabolism and other metabolic pathways. ConclusionThe successful establishment of liver Yin deficiency model in mice by CCl4 combined with thyroid hormone is evaluated through the investigation of serum and liver metabolomics, combined with biochemical indicators, which provides a biological basis and experimental foundation for the Yin deficiency syndrome model of TCM.
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OBJECTIVE To analyze the metabolites of Zhideke granules and speculate its metabolic pathway in rats in vivo. METHODS Male SD rats were randomly divided into blank group and administration group (Zhideke granules, 9.45 g/kg); they were given ultrapure water or relevant medicine, twice a day, every 6-8 h, for 3 consecutive days. Serum, urine and feces samples of rats were collected, and their metabolites were identified by UPLC-Q-Exactive-MS technique after intragastric administration of Zhideke granules; their metabolic pathways were speculated. RESULTS After intragastric administration of Zhideke granules, 16 prototype components (i.g. irisflorentin, baicalin, chlorogenic acid) and 11 metabolites (i.g. hydration products of kaempferol or luteolin, methylation products of chlorogenic acid, and hydroxylation products of baicalin) were identified in serum, urine and feces of rats. Among them, 8 prototype components and 4 metabolites were identified in serum samples; 10 prototype components and 7 metabolites were identified in urine samples; 8 prototype components and 5 metabolites were identified in the fecal samples. CONCLUSIONS The metabolites of Zhideke granules in rats mainly include baicalin, irisflorentin,chlorogenic acid, and the main metabolic pathways included methylation, hydroxylation, glucuronidation.
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Based on UPLC-Q-orbitrap-MS and biological network analysis tools, the mechanism of Xihuang Pill in improving hyperplasia of mammary glands was systematically analyzed. The rat model of hyperplasia of mammary glands was established by intramuscular injection of estradiol benzoate and progesterone. LC-MS tissue metabolomics was used to explore the key metabolites and metabolic pathways of Xihuang Pill in improving hyperplasia of mammary glands in rat. The network analysis of the key metabolites regulated by Xihuang Pill was carried out by integrating biological network analysis tools, focusing on the key metabolic pathways, and exploring the potential targets of Xihuang Pill to improve hyperplasia of mammary glands. Compared with the control group, there were significant differences in the content of 49 differential metabolites in the tissues of the model group (P < 0.05). Xihuang Pills could significantly call back 17 metabolites such as L-alanine, threonine, indole-3-carboxylic aldehyde, lysine, arginine, alanylleucine, glycyltyrosine, γ-glutamyl leucine, vitamin B3, serine leucine, threonine leucine, isoleucine glutamic acid, γ-glutamyl tyrosine, decanoyl-L-carnitine, uric acid, leucylleucine, S-adenosyl-methionine. Further network analysis and literature research on the key metabolites regulated by Xihuang Pills showed that the AGE-RAGE signaling pathway may be one of the important pathways for Xihuang Pills to improve hyperplasia of mammary glands. STAT3, MAPK1, EGFR, CASP3, CASP8, PRKCA and JUN in the AGE-RAGE signaling pathway may be potential targets for Xihuang Pills to improve hyperplasia of mammary glands. The animal experiment operations involved in this paper follow the provisions of the Animal Ethics Committee of Gansu University of Traditional Chinese Medicine and pass the ethical review of animal experiments (approval number: 2022-705).
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ObjectiveMetabolomics was used to reveal the mechanism of Aconiti Lateralis Radix Praeparata(ALRP) in attenuating toxicity by processing from the aspects of amino acid metabolism, oxidative stress and energy metabolism by analyzing multiple metabolic pathways. MethodTwenty-four rats were randomly divided into control group, raw group and processed group, 8 rats in each group. The raw and processed group were given with 0.64 g·kg-1 of raw ALRP and processed ALRP respectively every day, the control group was given with an equal amount of normal saline once a day. After continuous administration for 7 days, the urine, serum and heart tissue of rats were collected. Pathological examination of the heart was carried out using hematoxylin-eosin(HE) staining, and the activities of lactate dehydrogenase(LDH) and creatine kinase-MB(CK-MB) in serum and cardiac tissues were detected by microplate assay and immunoinhibition assay. The effects of ALRP on rat heart before and after processing were compared and analyzed. Ultra performance liquid chromatography-quadrupole-time-of-flight mass spectrometry(UPLC-Q-TOF-MS) was used to perform urine metabolomics analysis, and multivariate statistical analysis was used to screen for differential metabolites related to ALRP in attenuating toxicity by processing, and pathway enrichment analysis was carried out to explore the processing mechanism. ResultHE staining showed that no obvious pathological changes were observed in the heart tissue of the control group, while obvious infiltration of inflammatory cells such as plasma cells and granulocytes was observed in the heart tissue of the raw group, indicating that the raw ALRP had strong cardiotoxicity. There was no significant difference in HE staining of heart tissue between the processed group and the control group, indicating that the toxicity of ALRP was significantly reduced after processing. Compared with the control group, the activities of LDH and CK-MB were significantly increased in serum and heart tissue of the raw group, and those were significantly decreased in serum and heart tissue of the processed group, suggesting that the myocardial toxicity of processed ALRP was reduced. A total of 108 endogenous differential metabolites associated with the raw ALRP were screened using multivariate statistical analysis in positive and negative modes, of which 51 differential metabolites were back-regulated by the processed ALRP. Biological analysis of the key regulatory pathways and associated network changes showed that the pathways related to toxicity of ALRP mainly included tryptophan metabolism, arginine and proline metabolism, phenylalanine metabolism, aminoacyl-tRNA biosynthesis, alanine, aspartate and glutamate metabolism, etc. The metabolic pathways related to the attenuation of processed ALRP mainly included aminoacyl-tRNA biosynthesis, tryptophan metabolism, phenylalanine, tyrosine and tryptophan biosynthesis, phenylalanine metabolism and caffeine metabolism. ConclusionThe processing technology of ALRP in Guilingji can significantly attenuate the cardiotoxicity of raw products, the mechanism mainly involves amino acid metabolism, oxidative stress and energy metabolism, which can provide experimental bases for the research related to the mechanism of toxicity reduction of ALRP by processing and its clinical safety applications.
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ObjectiveTo investigate the material basis of homologous and heterogeneous effect of Aurantii Fructus Immaturus(AFI) and Aurantii Fructus(AF) based on the total statistical moment analysis and molecular connectivity index(MCI). MethodRelevant literature at home and abroad and Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform(TCMSP) were consulted to establish the chemical composition database of AFI and AF, and set up their fingerprints by ultra-high performance liquid chromatography(UPLC), and the total statistical moments and similarity parameters of the fingerprint were calculated. According to MCI, all components of AFI and AF were divided into different component groups, the average values of 0-8th order(0χ-8χ) MCI of the common component groups of AFI and AF were calculated. ResultThe values of total zero-order moment(AUCT) of AFI and AF were (10.57±2.45)×106, (5.09±0.89)×106 μV·s, the values of total first-order moment(MCRTT) were (11.57±1.58), (12.10±1.29) min, the values of total second-order moments(VCRTT) were(24.49±2.30), (26.49±2.54) min2, respectively. It showed that qualitative and quantitative parameters of AFI and AF were significantly different. The components with high similarity such as neohesperidin, hesperidin and narirutin were screened as the common potential pharmacodynamic components of AFI and AF. The non-common components of AFI, such as alysifolinone and imperatorin, and the non-common components of AF, such as neoeriocitrin and isosakuranin, with high similarity were screened out as potential heterogeneous components of AFI and AF. The composition groups of AFI and AF were classified into six categories, and the similarities between the composition groups of AFI and AF and the total constituents were 0.872-0.979 and 0.918-0.997, the average values of 0χ-8χ MCI of alkaloids in AFI and AF were 3.65 and 3.14, the average values of 0χ-8χ MCI of flavonoids were 8.47 and 8.47, the average values of 0χ-8χ MCI of volatile oils were 2.71 and 3.48, respectively. It showed that there were some differences in MCI of chemical constituents(groups) between AFI and AF. ConclusionThe chemical constituents(groups) of AFI and AF not only differ in content and species, but also in structural characteristics and structure-activity relationship, which can provide a basis for further explaining the scientific connotation of homologous and heterogeneous effect of AFI and AF.
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ObjectiveTo analyze the antidepressant quality markers(Q-Marker) of Bupleuri Radix(BP) before and after vinegar-processing by ultra-performance liquid chromatography-quadrupole-time-of-flight mass spectrometry(UPLC-Q-TOF-MS), multivariate statistical analysis and network pharmacology. MethodUPLC-Q-TOF-MS was used to analyze the chemical basis of raw and vinegar-processed products of BP, and principal component analysis(PCA) orthogonal partial least squares-discriminant analysis(OPLS-DA) were used to identify the differential components in BP that changed significantly before and after vinegar-processing, which were regarded as candidate quality markers(Q-Marker). Then the disease-drug-component-target network related to antidepressant effect of BP was constructed by network pharmacology, and the antidepressant Q-Marker of raw and vinegar-processed products of BP was determined. Rats were randomly divided into blank group, model group, fluoxetine group(2.67 mg·kg-1) and total saponin group(0.72 mg·kg-1), except the blank group, rats in the other groups were subjected to chronic unpredictable mild stress(CUMS). Three weeks after the start of modeling, rats in each administration group were given the corresponding dose of drugs once a day for 4 weeks, and rats in the blank and model groups were given normal saline with dose of 10 mL·kg-1. At 1 day before modeling, 21 days and 28 days after administration, body mass weighing, sucrose preference test and open field test were performed on each group . After 28 days of administration, real-time fluorescence quantitative polymerase chain reaction(Real-time PCR) was used to detect the mRNA expression levels of phosphatidylinositol 3-kinase(PI3K), protein kinase B(Akt), mammalian target of rapamycin(mTOR), glycogen synthase kinase-3β(GSK-3β), forkhead box transcription factor O3a(FoxO3a) and β-catenin in hippocampal tissues of rats in each group, while protein expression levels of PI3K, Akt, mTOR and FoxO3a in hippocampal tissues of rats in each group were detected by Western blot. ResultThere were 19 components in BP showed significant changes before and after vinegar-processing, and 9 components such as saikosaponin A, saikosaponin B1, saikosaponin B2, saikosaponin C and saikosaponin D were identified as potential Q-Marker through S-plot differential marker screening. Combined with the disease-drug-component-target network, saikosaponin A, saikosaponin B1, saikosaponin B2 and saikosaponin D were identified as antidepressant Q-Marker of raw and vinegar-processed products of BP. According to the results of pharmacodynamic tests, after 28 d of administration, compared with the blank group, the body mass, sucrose preference index and open field total score of rats in model group, fluoxetine group and total saponin group decreased significantly(P<0.01). Compared with the model group, the body mass, sucrose preference index and open field total score in total saponin group increased significantly(P<0.01). Compared with the blank group, mRNA expression levels of PI3K, Akt, mTOR and β-catenin in hippocampus of rats in the model group decreased significantly(P<0.05), while mRNA expression levels of GSK-3β and FoxO3a increased significantly(P<0.05). Compared with the model group, mRNA expression levels of PI3K, Akt, mTOR and β-catenin in hippocampus of rats in the total saponin group were increased significantly(P<0.05), while mRNA expression levels of GSK-3β and FoxO3a decreased significantly(P<0.05). Compared with the blank group, the protein expression levels of Akt and mTOR in hippocampus of the model group decreased significantly(P<0.01), while the protein expression levels of PI3K and FoxO3a increased significantly(P<0.01). Compared with the model group, the expression level of Akt in hippocampus of the total saponin group increased significantly(P<0.01), the mTOR expression level was increased but not statistically significant, while the protein expression levels of PI3K and FoxO3a decreased significantly(P<0.01). ConclusionThe chemical constituents of BP changed greatly after vinegar-processing, and the antidepressant Q-Marker of raw and vinegar-processed products of BP was determined by chemical basis, pharmacodynamics, network pharmacology and signaling pathway, which provided a reference for further research on quality control, pharmacodynamic substance basis and processing mechanism of BP.
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ObjectiveTo identify the prototypical components and metabolites absorbed into blood and cerebrospinal fluid of Schisandrae Chinensis Fructus(SCF) based on sequential metabolism combined with liquid chromatography-mass spectrometry. MethodBlood and cerebrospinal fluid samples of integrated metabolism, intestinal metabolism and hepatic metabolism were collected from male SD rats after gavage and in situ intestinal perfusion administration, and ultra-performance liquid chromatography-quadrupole/electrostatic field orbitrap high-resolution mass spectrometry(UPLC Q-Exactive Orbitrap MS) was used to analyze and compare the differences in the spectra of SCF extract, blank plasma, administered plasma, blank cerebrospinal fluid and administered cerebrospinal fluid with ACQUITY UPLC BEH Shield RP18 column(2.1 mm×100 mm, 1.7 µm), the mobile phase was acetonitrile(A)-0.1% formic acid aqueous solution(B) for gradient elution(0-7 min, 95%B; 7-12 min, 95%-35%B; 12-17 min, 35%-15%B; 17-20 min, 15%-12%B; 20-22 min, 12%-5%B; 22-23 min, 5%B; 23-25 min, 5%-95%B; 25-28 min, 95%B). And heated electrospray ionization(HESI) was used with positive and negative ion modes, the scanning range was m/z 100-1 500. The prototypical constituents and their metabolites absorbed into blood and cerebrospinal fluid of SCF were identified according to the retention time, characteristic fragments, molecular formulae and the information of reference substances. ResultA total of 42 chemical components were identified in the extract of SCF, including lignans, flavonoids, amino acids, tannins, and others, of which lignans were the main ones. A total of 27 prototypical components and 14 metabolites were identified in plasma samples from different sites. A total of 15 prototypical components and 9 metabolites were identified in cerebrospinal fluid. The main metabolic reactions involved in the formation of metabolites were mainly demethylation, methylation, demethoxylation and hydroxylation. ConclusionThrough the systematic identification of the prototypical components and metabolites of SCF in rats, it provides data support for further better exploring the material basis of SCF in the treatment of central nervous system diseases.