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Pulmonary fibrosis (PF) is a major public health issue with limited treatment options. As the active ingredient of the n-butanol extract of Amygdalus mongolica (BUT), amygdalin inhibits PF. However, its mechanisms of action are unclear and need further verification. Therefore, the purpose of the present studies was to investigate the anti-fibrotic effects of BUT on PF by serum metabolomics and the transforming growth factor β (TGF-β) pathway. Sixty male Sprague-Dawley rats were randomly divided into control, untreated PF, prednisone-treated (5 mg/kg), and BUT-treated (1.75, 1.25, 0.75 g/kg) groups, and the respective drugs were administered intragastrically for 21 days. The serum metabolomics profiles were determined by ultra-performance liquid chromatography quadrupole time-of-flight mass spectrometry (UPLC-QTOF/MS) and metabolism network analysis. The expression of TGF-β1, Smad-3, Smad-7, and α-smooth muscle actin (α-SMA) was measured using a real-time polymerase chain reaction in the lung tissue. BUT significantly alleviated fibrosis by reducing the mRNA expressions of TGF-β1 (from 1.73 to 1.13), Smad-3 (from 2.01 to 1.19), and α-SMA (from 2.14 to 1.19) and increasing that of Smad7 (from 0.17 to 0.62). Twenty-eight potential biomarkers associated with PF were identified. In addition, four key biomarkers were restored to baseline levels following BUT treatment, with the lowest dose showing optimal effect. Furthermore, A. mongolica BUT was found to improve PF by the pentose phosphate pathway and by taurine, hypotaurine, and arachidonic acid metabolism. These findings revealed the mechanism of A. mongolica BUT antifibrotic effects and metabolic activity in PF rats and provided the experimental basis for its clinical application.
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@#The chemical constituents from 70% ethanol petroleum ether and n-butanol extractions of Callerya nitita Benth.var.hirsutissima.Z.Wei. were separated by preparative high-performance liquid chromatographic techniques, including repeated column chromatography over macroporous adsorption resin, silica gel, ODS, Sephadex LH-20. The structures of the compounds were identified by their physicochemical properties, spectral data, and mass spectrometry data, in comparison with literature. In our research, one triterpenoids, taraxerone (1), and twenty flavonoids, including genistein-4′-O-β-glucoside (2), 5-hydroxy-4′-methoxyisoflavone-7-O-β-D-glucopyranosyl-(1→6)-β-D-glucopyranoside (3), biochanin A 7-O-β-D-apiofuranosyl-(1→5)-β-D-apiofuranosyl- (1→6)-β-D-glucopyranoside (4), formononetin-7-O-β-D-galactopyranoside (5), 5,7-dihydroxy-3′,4′-dimethoxyisoflavone (6), biochanin A-7-O-β-D-apiofuranosyl-(1→2)-β-D-glucopyranoside (7), 5, 7-dihydroxyisoflavone-4′-O-α-L-rhamnopyranosyl-(1→2)-O-β-D-glucopyranoside (8), formononetin-7-O-D-apio-β-D-furanosyl(l→2)-β-D-glucopyranoside (9), 4′-hydroxy-3′-methoxyisoflavone-7-O-β-D-apiofuranosyl-(1→6)-β-D-glucopyranoside (10), prunetin (11), prunetin 4′-O-β-D-glucopyranoside (12), pratensein7-O-β-D-glucoside (13), 8-methoxyisoformononetin (14), genistein (15), 3′-hydroxybiochanin A (16), biochanin A (17), 5,7-dihydroxy-3′,5′-dimethoxyisoflavone (18), ononin (19), isoformononetin (20), 5,7,3′,4′-tetrahydroxyflavone (21) were isolated from the two extract parts.Compounds 1-10, 12-14, 16-18, 20 were obtained from this plant, and it is the first time to investigate the plant for the first time.
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<b>Objective::To study the chemical constituents from <italic>n</italic>-butanol extract of <italic>Akebia trifoliata</italic> caulis. <b>Method::The 100 kg caulis of <italic>A</italic>. <italic>trifoliata</italic> was extracted with 75% ethanol (EtOH) for three times by heating reflux. These 3 extracts were decompressed and concentrated, and then dissolved in water. The solvent was successively extracted with dichloromethane, ethyl acetate and <italic>n</italic>-butanol. The chemical constituents from the <italic>n</italic>-butanol fraction were isolated by macroporous, silica gel, sephadex LH-20 and ODS columns, and semi-preparative high performance liquid chromatography, and their chemical structures were determined through MS, NMR analysis (<sup>1</sup>H and <sup>13</sup>C-NMR) and spectroscopic data from literatures. <b>Result::Totally 14 compounds were isolated and identified as mutongsaponin B(<bold>1</bold>), mutongsaponin C(<bold>2</bold>), saponin PH(<bold>3</bold>), begoniifolide A(<bold>4</bold>), 2<italic>α</italic>, 3<italic>β</italic>, 23-trihydroxy-30-noroleana-12, 19-dien-28-oicacid-<italic>O</italic>-<italic>β</italic>-<italic>D</italic>-xylopyranosyl-(1→3)-<italic>α</italic>-<italic>L</italic>-rhamnopyranosyl-(1→4)-<italic>β</italic>-<italic>D</italic>-glucopyranosyl-(1→6)-<italic>β</italic>-<italic>D</italic>-glucopyranosyl ester(<bold>5</bold>), akemisaponins D(<bold>6</bold>), akemisaponins E(<bold>7</bold>), asiaticoside(<bold>8</bold>), saponin PJ1(<bold>9</bold>), scheffoleoside A(<bold>10</bold>), symplocosneolignan A(<bold>11</bold>), kalopanax-saponins D(<bold>12</bold>), leonticin E(<bold>13</bold>), ciwujianoside A<sub>1</sub>(<bold>14</bold>). <b>Conclusion::Compounds <bold>1-4</bold>, <bold>11</bold>, <bold>13, 14</bold> were isolated from this plant for the first time. The discovery of these compounds further enriched the chemical constituents of <italic>A</italic>. <italic>trifoliata</italic>, and provided experimental and scientific basis for the comprehensive development and utilization of <italic>A</italic>. <italic>trifoliata</italic>.
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OBJECTIVE: To separate and purify Alhagi sparsifolia n-butanol extract monomeric compounds, and to investigate its effects on the proliferation and metastasis of human cervical cancer HeLa cells. METHODS: The n-butanol extract was separated and purified by silica gel column, Sephadex LH-20 gel column and prep-HPLC. The structures of compounds were analyzed and identified according to physicochemical properties and spectrum (mass spectrum, hydrogen spectrum, carbon spectrum) data. Using human cervical cancer HeLa cells as objects, 5-FU as positive control, MTT assay was used to detect the inhibitory rate of HeLa cells pretreated with different doses of compounds (6.25, 12.5, 25, 50, 100, 200 μg/mL); IC50 was calculated to screen active monomers. Scratch test was used to investigate the effects of above active monomers (all 50 μg/mL) on the migration ability of HeLa cells. Kim’s formula was used to evaluate the effects of 5-FU separately combined with above active monomers [(3.125+6.25),(6.25+12.5),(12.5+25),(25+50)μg/mL]. RESULTS: Six compounds were isolated from the n-butanol extract part of A. sparsifolia and identified as butin (Ⅰ), 3′,4′,7-trihydroxyisoflavone (Ⅱ), p-methoxyphenylacetic acid (Ⅲ), 4-hydroxyacetophenone (Ⅳ), aurantiamide acetate (Ⅴ), protocatechualdehydea (Ⅵ). Compared with blank control group, 5-FU and each compound (5-FU:6.25-200 μg/mL, compound Ⅰ: 12.5-200 μg/mL; compound Ⅱ: 25, 50, 200 μg/mL; compound Ⅲ: 6.25, 100, 200 μg/mL; compound Ⅳ: 50, 100, 200 μg/mL; compound Ⅴ: 12.5, 25, 200 μg/mL; compound Ⅵ: 6.25-200 μg/mL) could significantly increase the cell inhibition rate. IC50 of compound Ⅰ, Ⅴ, Ⅵ were decreased significantly (P<0.05 or P<0.01), and those of compound Ⅰ and Ⅵ were lower relatively. The migration distance of cells in 5-FU and compound Ⅰ and Ⅵgroups were decreased significantly, compared with blank control group (P<0.05 or P<0.01). 5-FU separately combined with compound Ⅰ and Ⅵ showed additive and enhanced inhibitory effects on the proliferation of HeLa cells (synergistic index>0.9). CONCLUSIONS: Compounds Ⅰ-Ⅵ are isolated from Alhagi for the first time. Butin and protocatechualdehydea are active monomers of its n-butanol extract part. Above two monomers can inhibit the proliferation and migration of human cervical cancer Hela cells, with strong inhibitory effect in vitro, and stronger inhibitory effect combined with 5-FU than any compound alone.
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To investigate the mechanism of n-butanol extract of Pulsatilla decoction (BAEB) against murine ulcerative colitis (UC) model induced by DSS combined with Candida albicans (CA) colonization, mice were randomly divided into normal control group, DSS group, DSS+CA group, BAEB high, medium and low dose group, and positive drug Mesalazine group. The general condition of mice was observed, fungal loads of murine intestinal contents were detected by plate method, colonic pathological change of mice was examined by HE staining. ASCA in serum and IL-6, IL-8, IL-1β, HBD-2, HBD-3 in colonic mucosa were detected by ELISA. The results showed that, compared with DSS group, the general condition and ASCA in serum had no obvious change for DSS+CA group, but the fungal loads in intestinal contents, the colonic pathological damage, and the levels of IL-6, IL-8, IL-1β, HBD-2, HBD-3 in colonic mucosa were greater than that of DSS group. High dose of BAEB group and Mesalazine group could improve the colonic pathology, decrease IL-6, IL-8, IL-1β, HBD-2, HBD-3 expression level. In conclusion, BAEB could effectively improve the UC symptoms in mice induced by DSS combined with CA colonization, and inhibit the inflammatory factors such as IL-6, imply that BAEB is of important value for the treatment of intestinal fungal-related colitis.
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OBJECTIVE: To study the chemical constituents of Yao medicine, Zhongliuteng, the stems of Pileostegia tomentella. METHODS: The chemical constituents were isolated and purified by silica gel chromatography repeatedly, and their structures were identified by spectral analysis and chemical METHODS. RESULTS: Thirteen compounds were isolated from the stems of P. tomentella and the structures were identified as 1-O-(β-D-glucosyl)-2-[2-methoxy-4-(ω-hydroxypropyl) phenoxy]propan-3-ol(1), (+)-lyoniresinol-3a-O-β-D-glucopyranoside (2), syringin (3), coniferin (4), dihydroconiferin (5), but-3-enyl-β-D-glucoside (6), 4-(2, 3-dihydroxypropyl)-2, 6-dimethoxy phenyl β-D-glucopyranoside (7), nikoenoside (8), protocatechuic acid ethyl ester (9), 8-methoxy coumarin-7-O-β-D-glucopyranoside (10), 6-O-R-L-rhamnopyranosyl-β-D-glucopyranoside methyl salicylate (11), nicotinamide (12), and 3, 5-di-O-caffeoyl quinicacid methyl ester (13). CONCLUSION: All compounds were obtained from the genus for the first time.
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In order to study the chemical constituents of n-butanol fraction of ethanol extract from Chinese agarwood induced by artificial holing, various chromatographic techniques were carried out to isolate compounds, and the structures of compounds were determined through a combined analysis of physicochemical properties and spectroscopic evidence. Seven compounds were obtained and identified as selina-3,11-dien-9,15-diol (1), aquilarone D (2), 5α,6β,7α,8β-tetrahydroxy-2-[2-(2-hydroxyphenyl)ethyl]-5,6,7,8-tetrahydrochromone (3), 6,7-dimethoxy-2-[2-(4-methoxyphenyl)ethyl]chromone (4), syringin (5), methyl (Z)-p-coumarate (6), and 4'-methoxycinnamic acid (7), among which compound 1 was a new compound and compounds 5-7 were isolated from agarwood for the first time. The bioactivity assay results concluded that compounds 6 and 7 showed certain nematicidal activity against Panagrellus redivivus, and compounds 4, 6 and 7 exhibited cytotoxicity against BEL-7402, SGC-7901 and A549 carcinoma cell lines.
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UPLC-QTOF-MS/MS was used to identify metabolites in rat blood, urine and feces after the administration of n-butanol extract derived from steamed notoginseng. The metabolic process of saponins came from steamed notoginseng was analyzed. The metabolites were processed by PeakView software, and identified according to the structural characteristics of prototype compounds and the accurate qualitative and quantitative changes of common metabolic pathways. Four saponins metabolites were identified based on MS/MS information of metabolites, namely ginsenoside Rh₄, Rk₃, Rk₁, Rg₅,and their 15 metabolites were verified. The metabolic pathways of the four ginsenosides in n-butanol extract included glucuronidation, desugar, sulfation, dehydromethylation, and branch loss. The metabolites of main active saponin components derived from steamed Panax notoginseng were analyzed from the perspective of qualitative analysis. And the material basis for the efficacy of steamed notoginseng was further clarified.
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Aim To compare the inhibition of lipid peroxidation of ethyl acetate extract( EAE) and n-buta-nol( BE) extract from Coreopsis tinctoria Nutt. in vitro. To investigate the parameters such as body weight, bio-chemical indexes in plasma, and viscera indexes on type 2 diabetes mice by intraperitoneal injection of streptozotocin ( STZ ) . Methods The extracts were prepared by response surface methodology. The ex-tracts were suspended in distilled water and defatted with petroleum ether. The aqueous layer was succes-sively extracted with ethyl acetate and n-butanol. The inhibition of lipid peroxidation activity was determined by thiobarbituric acid method. The effects of extract BE on diabetic mice were observed at the dosage of 0. 2,0. 4,0. 8 g·kg-1 ( ig) for 4 weeks. The parame-ters were observed such as weight of body changes, or-gan coefficients of liver, pancreas and kidney, bio-chemical indexes in plasma and viscera pathological sections. Results In the linoleic acid reaction system, the SC50 value of the EAE and BE was ( 443. 96 ± 11. 24) mg·L-1, (840. 29 ± 16. 38) mg·L-1, re-spectively, and that in rat liver homogenate was (23. 59 ± 3. 67 ) mg · L-1 , ( 60. 37 ± 4. 27 ) mg · L-1 , respectively. Compared with diabetic model group, BE could significantly improve the trend of weight loss, and increase viscera indexes. The patho-logical sections showed that BE had the recovery and improvement effects on the damage of liver, pancreas and kidney. Conclusions The extracts of C. tinctoria have a certain anti-lipid peroxidation activity in vitro. And BE has a certain capacity to improve and repair damaged organs for DM mice.
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Objective: To investigate the chemical constituents in the n-butanol extract of pine needles of Cedrus deodara. Methods: Chemical constituents were separated and purified by silica gel and Sephadex LH-20 chromatography column. The structures were elucidated on the basis of physicochemical properties and spectral data (1H-NMR, 13C-NMR, and DEPT). Results: The compounds were identified as 1-(4'-hydroxy-3'-methoxyphenyl)-2-[4″-(3-hydroxypropyl)-2″-methoxyphenoxy]-1, 3-propanediol (1), (7S, 8R)-9, 9'-dihydroxy-3, 3'-dimethoxy-7, 8-dihydro-benzofuran-1'-propanol base neolignan-4-O-β-D-glucoside (2), (7R, 8R)-3', 9, 9'- trihydroxy-3-methoxy-7, 8-dihydro-benzofuran-1'-propanol base neolignans-9-O-α-L-rhamnoside (3), (6R, 9R)-6-hydroxy-3-oxo-α- ionol-9-O-β-D-glucopyranoside (4), (6R, 9R)-3-oxo-α-ionol-9-O-β-D-glucopyranoside (5), shikimic acid butyl ester (6), quinic acid butyl ester (7), (6S, 9R)-6-hydroxy-3-oxo-α-ionol-9-O-β-D-glucopyranoside (8), 5-p-trans-coumaroylguinic acid (9), and (E)-1-O-p- coumaroyl-α-D-glucopyranoside (10). Conclusion: Compounds 1-7 are isolated from C. Trew for the first time.
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Objective To study in vitro the inhibitory effects and mechanisms of N-butanol extract of Potentilla anserine L.(NP)against hypoxia-induced nitric oxide(NO)in hippocampus neuron of rats. Methods The models of hippocampus neurons hypoxia injury of Sprague-Dawley(SD)neonatal rats were cultured in vitro. The cultured hippocampus neurons were divided randomly into blank control group, hypoxia injury model group, nimodipine group(2 μmol/L)and NP high(250.0 mg/L),middle(62.5 mg/L),low(15.6 mg/L)dose groups. The activities of hippocampus neurons were examined by methyl thiazolyl tetrazolium(MTT)assay,and meanwhile their contents of nitrogen monoxidum(NO)were detected. Half quantity reverse transcription-polymerase chain reaction(RT-PCR)and Western blotting were used to detect neuronal nitric oxide synthetase(nNOS)mRNA and protein expression levels respectively in each group,immunocytochemistry stain was used to detect protein positive rate. Results Compared with blank control group,the activity of neuron〔absorbance(A)value〕was significantly decreased(0.0826±0.0095 vs. 0.3315±0.0105),content of NO(μmol/g:0.0509±0.0027 vs. 0.0291±0.0032), the expression levels of nNOS mRNA (0.1463±0.0081 vs. 0.0801±0.0058), the positive rate of nNOS〔(74.4238±3.9423)%vs.(28.3714±4.1361)%〕,the expression levels of nNOS protein(A value:1.9130±0.0471 vs. 0.5068±0.0368)were all significantly increased in the hypoxia injury model group(all P0.05). Conclusions NP can ameliorate the injury of rat hippocampus neurons induced by hypoxia in vitro. The possible mechanisms might be related to the effective inhibition of the synthesis of nNOS and NO excessive generation.
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Objective:To study the effects of n-Butanol Extract (BEX)of Xanthoceras Sorbifolia Bunge on rat model with adjuvant arthritis(AA) in rats and its mechanism .Methods: Rat model of adjuvant arthritis(AA) was induced by FCA. Hind paw swelling was observed to evaluate the effect of BEX and phagocytic function of monocyte-macrophage system, antibody level and delayed hypersensitivity were examined to explore its mechanism. Results: BEX can inhibit the primary and secondary hind paw edema and improve the general symptoms (P