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ObjectiveIn this study, based on ultra-high performance liquid chromatography-mass spectrometry(UHPLC-MS/MS) and high-throughput transcriptome sequencing technology(RNA-seq), we investigated the mechanism of Yishen Huashi granules in regulating serum metabolites and renal messenger ribonucleic acid(mRNA) expression to improve diabetic kidney disease(DKD). MethodSD rats were randomly divided into normal group , model group and Yishen Huashi granules group, with 8 rats in each group. The rat model of DKD was established by intraperitoneal injection of streptozotocin. Yishen Huashi granules group was given 5.54 g·kg-1·d-1 of Yishen Huashi granules by gavage, and the normal group and the model group were given the same amount of normal saline for 6 weeks. During the experiment, the body weight and blood glucose of rats were monitored, and the rats were anesthetized 24 hours after the last administration, blood was collected from the inferior vena cava, serum was separated, and renal function, blood lipid, and inflammatory indicators were detected. Kidney tissue of rats was fixed in neutral paraformaldehyde, and stained with hematoxylin-eosin(HE), Masson and periodic acid-Schiff(PAS) to observe the renal pathological changes. UHPLC-MS/MS and RNA-seq were used to identify the changes of serum metabolism and the differences of renal mRNA expression, and real time fluorescence quantitative polymerase chain reaction(Real-time PCR) and Western blot were used to detect the differential mRNA and protein expression in renal tissue to explore the common expression mechanism. ResultCompared with the normal group, rats in the model group showed a decrease in body weight, a significant increase in blood glucose, urinary microalbumin to urinary creatinine ratio(UACR), blood urea nitrogen(BUN), cystatin-C(Cys-C), β2-microglobulin(β2-MG), interleukin-6(IL-6), triglyceride(TG) and total cholesterol(TC), and a significant decrease in total superoxide dismutase(T-SOD)(P<0.01). After the intervention of Yishen Huashi granules, all the indexes were improved to different degrees in rats(P<0.05, P<0.01). Compared with the normal group, the model group showed renal mesangial stromal hyperplasia, fibrous tissue hyperplasia and tubular vacuolar degeneration. Compared with the model group, the renal pathology of rats in Yishen Huashi granules group was improved to a certain extent. A total of 14 target metabolites and 96 target mRNAs were identified, the target metabolites were mainly enriched in 20 metabolic pathways, including sphingolipid metabolism, glycerophospholipid metabolism, and the biosynthesis of phenylalanine, tyrosine and tryptophan. The target mRNAs were enriched to obtain a total of 21 differential mRNAs involved in the TOP20 pathways closely related to glycolipid metabolism. A total of 6 pathways, glycerophospholipid metabolism, arachidonic acid metabolism, purine metabolism, primary bile acid biosynthesis, ascorbic acid and uronic acid metabolism, and galactose metabolism, were enriched by serum differential metabolites and renal differential mRNAs, among them, there were 7 differential metabolites such as phosphatidylethanolamine(PE) and 7 differential mRNAs such as recombinant adenylate cyclase 3(ADCY3). Seven differential metabolites had high predictive accuracy as verified by receiver operating characteristic(ROC) curve, and the results of Real-time PCR and Western blot were highly consistent with the sequencing results. ConclusionYishen Huashi granules can reduce UACR, BUN and other biochemical indexes, correct the disorder of glucose and lipid metabolism, and improve renal function of DKD rats. And its mechanism may be related to the regulation of the level of PE and other blood metabolites, and expression of Phospho1 and other mRNAs in the kidney, of which six pathways, including glycerophospholipid metabolism, may play an important role.
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ObjectiveTo investigate the changes of differential metabolites in the serum of mice at different stages of bleomycin sulfate(BLM)-induced pulmonary fibrosis modeling and administration, and the mechanism of Wenfei Huaxian granules(WHG)against idiopathic pulmonary fibrosis. MethodMice were randomly divided into control group, control group of 14 days, model group, model group of 14 days, low-dose WHG group and high-dose WHG group. BLM(0.04 U per mouse)was injected into the trachea of mice in the model group, model group of 14 days, low-dose WHG group and high-dose WHG group, and sterile normal saline was injected into the trachea of mice in the control group and control group of 14 days. Mice of low-dose WHG group and high-dose WHG group were given different doses of WHG by gavage every day after injection of BLM, and mice of control group, control group of 14 days, model group and model group of 14 days were given sterile water by gavage every day. The peripheral blood of mice in the control group of 14 days and model group of 14 days were taken to prepare serum after injection of BLM for 14 days, and the peripheral blood and other materials of mice in the other groups were taken after continuous administration for 28 days. The bronchoalveolar lavage fluid(BALF)was collected for leucocyte differential count, the pathological examination and hydroxyproline(HYP)content determination of lung tissues of mice were performed, and the small molecule metabolites in serum samples of mice in each group were determined by ultra-high performance liquid chromatography-mass spectrometry(UHPLC-MS). Principal component analysis(PCA)and orthogonal partial least squares-discriminant analysis(OPLS-DA)were conducted to screen differential metabolites and their biological functions were analyzed. ResultCompared with the control group, a large number of continuous fibrotic foci appeared in the lung tissue of mice in the model group, the alveolitis score, fibrosis degree score and HYP content increased significantly(P<0.01), and the total number of leukocytes, macrophages and lymphocytes in BALF increased significantly(P<0.05). A total of 33 differential metabolites were screened between the control group of 14 days and model group of 14 days, mainly lipid metabolites, which were mainly involved in oxidative damage and inflammatory process. A total of 34 differential metabolites, mainly amino acid metabolites, were screened between the control group and model group, mainly involving nucleic acid damage and inflammatory process. Compared with the model group, the HYP content, fibrosis score and alveolitis score in the lung tissue of mice from high-dose WHG group decreased significantly(P<0.05, P<0.01), and the total number of lymphocytes in BALF decreased significantly(P<0.05). Compared with the model group, 27, 40 differential metabolites were identified in the serum of mice from the low-dose WHG group and high-dose WHG group separately. There were totally 9 common differential metabolites between the model group and low-dose WHG group/high-dose WHG group, which mainly involved in the metabolic pathways of inflammation related lipids metabolism, arginine and tryptophan metabolism, and the change trends in low-dose WHG group and high-dose WHG group were significantly back-regulated compared with the model group. ConclusionWHG can alleviate BLM-induced pulmonary fibrosis, collagen deposition and inflammatory reaction in mice, and its anti-fibrotic effect may be related to the adjusting of inflammatory factors, nitric oxide and oxidative stress related metabolic pathways.
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OBJECTIVES@#To find a method to distinguish exogenous gamma-hydroxybutyrate (GHB) from endogenous GHB by establishing ultra-high performance liquid chromatography-mass spectrometry (UPLC-MS) based on exosome for quantitative detection of GHB in the rat blood.@*METHODS@#Adult male SD rats were divided into 1 h, 5 h, 10 h administration group and control group. After 1 h, 5 h and 10 h of single precursor of GHB gamma-butyrolactone (GBL) intraperitoneal injection in administration groups, 5 mL blood was collected from the abdominal aorta. Meanwhile, the control group was given a same dose of normal saline, and 5 mL blood was collected at 1 h. Among the 5 mL blood, 0.5 mL was directly detected by HPLC-MS after pretreatment, and exosomes were extracted from the remaining blood by differential centrifugation and detected.@*RESULTS@#The concentration of GHB in the control group was (87.36±33.48) ng/mL, and the concentration with administration at 1 h, 5 h and 10 h was (110 400.00±1 766.35) ng/mL, (1 479.00±687.01) ng/mL and (133.60±12.17) ng/mL, respectively. The results of exosome detection showed that no peak GHB signal was detected in the control group and the 10 h administration group, and the concentrations of GHB at 1 h and 5 h administration groups were (91.47±33.44) ng/mL and (49.43±7.05) ng/mL, respectively.@*CONCLUSIONS@#GHB was detected in blood exosome by UPLC-MS, which indicated that exogenous GHB could be detected in plasma exosomes, while endogenous GHB could not be detected, suggesting that this method may be used as a basis to determine whether there is exogenous drug intake.
Subject(s)
Animals , Male , Rats , 4-Butyrolactone/chemistry , Chromatography, Liquid , Exosomes/chemistry , Hydroxybutyrates/chemistry , Rats, Sprague-Dawley , Sodium Oxybate/analysis , Tandem Mass Spectrometry/methodsABSTRACT
ObjectiveTo observe the difference in the efficacy of three kinds of traditional Chinese medicine (TCM) injections on rat model of heart failure induced by transverse aortic constriction (TAC), explore the TCM syndrome of the model based on the theory of correspondence of prescription and syndrome, and reveal the biological basis of prescription-syndrome from the perspective of metabolism. MethodRats were treated with TAC for modeling and were divided into Shenmai injection group (6.0 mL·kg-1), model group, Danhong injection group (6.0 mL·kg-1), Shenfu injection group (6.0 mL·kg-1) and trimetazidine group (10 mg·kg-1), and sham operation group was set up as control. After drug intervention for 15 days, echocardiography, serum N-terminal pro-brain natriuretic peptide (NT-proBNP) and myocardial histopathological staining were performed for each group, so as to compare the efficacy to select the effective injection. Colorimetry was used to detect the serum glucolipid metabolism after the intervention of the effective injection, and ultra high performance liquid chromatography-mass spectrometry was used to observe the metabolites and related metabolic pathways in myocardial tissue. ResultCompared with the sham operation group, the left ventricular ejection fraction (LVEF) and left ventricular fractional shortening (FS) in the model group decreased (P<0.01), while the left ventricular end-diastolic diameter (LVIDd), left ventricular internal diameter at end-systole (LVIDs) and NT-proBNP level increased (P<0.01). Compared with model group, LVEF and FS increased (P<0.01), LVIDd, LVIDs and NT-proBNP level decreased (P<0.05, P<0.01) in Danhong injection group, NT-proBNP level in Shenfu injection group decreased (P<0.05), LVIDd and NT-proBNP level increased (P<0.05, P<0.01) in Shenmai injection group, in trimetazidine group, LVEF and FS increased (P<0.01), while LVIDs and NT-proBNP level decreased (P<0.05, P<0.01). Serum glucose, low-density lipoprotein cholesterol and high-density lipoprotein cholesterol levels in Danhong injection group and trimetazidine group were adjusted by callbacks (P<0.01, P<0.05). There were the callback of 9 myocardial metabolites in Danhong injection group, including glycine, serine and threonine metabolism, glyoxylate and dicarboxylate metabolism, glycerol phospholipid metabolism. There were the callback of 10 myocardial metabolites in trimetazidine group, including glycerol phospholipid metabolism. ConclusionThe efficacy of Danhong injection on heart failure model induced by TAC is significant and superior to Shenfu injection and Shenmai injection, suggesting that the model is closely related to heart-blood stasis. The biological mechanism of Danhong injection interfering with the model involves regulating the metabolic disorder of lipid, glucose, amino acid and butyric acid.
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It is important to study the stability of plant extracts used as active ingredients in phytotherapic medicine, as degradation of the active principles directly affects the efficacy and safety of these products. Therefore, a stability study of the hydroalcoholic extract of the species: Mikania glomerata and Mikania laevigata was conducted in order to determine the speed of degradation and shelf life of these extracts, which are incorporated in cough syrup in Brazil. Leaves of both species were dried in an oven or by lyophilization (freeze-dried). Hydroalcoholic extracts underwent both accelerated stability study of six months and long-term stability study for 12 months. Samples were stored at different temperatures and every three months were analysed by ultra-high performance liquid chromatography-mass spectrometry (UHPLC-MS) to monitor their chemical profile, quantifying coumarin and chlorogenic acid. For all conditions of the study, a reduction of the content of the chemical marker of this species, coumarin, greater than 5% was observed, so a shelf life of two years cannot be assigned to the hydroalcoholic extracts of these species as observed in commercial extracts.
Subject(s)
Plant Extracts/analysis , Efficacy , Asteraceae/classification , Mikania/classification , Mass Spectrometry/methods , Chlorogenic Acid/adverse effects , Chromatography, High Pressure Liquid/methods , Cough , Coumarins/classificationABSTRACT
An ultra-high performance liquid chromatography-mass spectrometry ( UPLC-MS/MS) method was developed for the determination of 8 kinds of cephalosporins, cefoperazone, cefquinome, cefalonium, cefazolin, cefapirin, Ceftiofur, cefpirome and cefalexin, in edible parts of aquatic products. The samples were extracted with acetonitrile-water and cleaned up by multi-walled carbon nanotubes ( MwCNTs) SPE cartridge. All the target compounds were separated on an Acquity Xselect CSH C18 column with gradient elution by using acetonitrile and 0. 1% formic acid aqueous as eluent, and detected by UPLC-MS/MS under ESI+ ionization and MRM mode. Under optimized conditions, this method had a good linearity (R2≥0. 995) and the limits of quantification were in the range of 2-10 μg/kg ( S/N=10 ) . The recoveries of the method for the target compounds spiked at three different levels were 67. 3%-94. 2% with the relative standard deviations (RSDs) of 3. 3%-14%. The method had the characteristics of low cost, high accuracy and good precision, and could meet the requirements of cephalosporins determination.
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A rapid analytical method was developed for the determination of N-methylcarbamoyl adduct in Hemoglobin of workers exposed to N,N-dimethylformamide by ultra high performance liquid chromatography-mass spectrometry ( UPLC/MS/MS). About 0. 1 g of hemoglobin sample, 40 μmol/L of 3-methyl-5-isopropylhydantoin (MIH) as the internal standard and 4. 75 mL of HCl-acetic acid (2∶1, V/V) were added in the centrifuge tube, and mixed for 3 min. Then the tube was heated in boiling water bath for 1h. After cooling down, 200 μL of the mixture and 600 μL of formic acid-acetonitrile (1%) were added into 96-well extract plate. The vacuum pump pressure was controlled to make the sample collection elute within 2-4 min.The purified collection was transferred into the sample vial, and 3-methyl-5-isopropylhydantoin ( MVH ) as degration product of N-methylcarbamoyl adduct was quantified by UPLC/MS/MS in multiple reaction monitoring ( MRM ) by internal standard method. A good linear relationship was obtained in the MVH concentration range of 0 . 01-1 . 0 μmol/L with the correlation coefficient of 0 . 999 . The recovery of added MVH in the blank sample was 97 . 3% and the relative standard deviation was 1 . 7%. The limit of detection (LOD) was 0. 01 μmol/g. This method was proved to be fast and efficient.