Analysis of variations in the contents of steroidal saponins in Fructus Tribuli during stir-frying treatment

Just as natural saponins transform into aglycones, secondary glycosides and their derivatives using biotransformation technology, steroidal saponins may also undergo similar transformation after stir-frying. The purpose of this study was to elucidate the variations and the reasons for these variations in the contents of steroidal saponins in Fructus Tribuli (FT) during a stir-frying treatment. Stir-fried FT was processed in different time–temperature conditions. An UHPLC–MS/MS method was established and fully validated for quantitative analysis. In addition, the simulation processing products of tribuluside A, terrestroside B, terrestrosin K, terrestrosin D and 25R-tribulosin were determined by qualitative analysis using UHPLC–Q-TOF–MS. The established UHPLC–MS/MS method provides a rapid, flexible, and reliable method for the quality assessment of FT. The present study revealed that furostanol saponins with a C22-OH group could transform into corresponding furostanol saponins with a C-20–C-22 double bond (FSDB) via dehydroxylation. Additionally, FSDB could be successively converted into its secondary glycosides via a deglycosylation reaction. The transformation of spirostanol saponins into corresponding aglycones via deglycosylation led to a decrease in spirostanol saponins and an increase in aglycones. The results of this research provided scientific evidence of variation and structural transformation among steroidal saponins. These findings might be helpful for elucidating the processing mechanism of FT.     

Qualitative and Quantitative Analysis of Microbial Transformation of Steroidal Saponins in Dioscorea zingiberensis

Diosgenin is an important starting material in the steroidal hormone industry. In this paper diosgenin was obtained by biotransformation of steroidal saponins in Dioscorea zingiberensis with the fungus Aspergillus oryzae. In the pre- and post-biotransformed samples, five main steroidal saponins and the aglycone (diosgenin) were identified by evaporative light scattering detector. An LC-UV quantification method for them was established by using C18 column and a mobile phase of aqueous acetonitrile. By means of this method, a good linearity (r > 0.9995) and recovery of the analytes (97.5–101.3%) were obtained for all the compounds. During biotransformation, the sugar chains of saponins were hydrolyzed and the content of the hydrolyzed product (diosgenin) increased 16 times after 84 h fermentation.     

Quantitative analysis of triterpenoids in different parts of Aralia elata (Miq.) Seem using HPLC–ELSD and their inhibition of human umbilical vein endothelial cell ox-LDL-induced apoptosis

A simple and accurate method coupling high-performance liquid chromatography–evaporative light scattering detector was developed to simultaneously quantify the five triterpenoids in different parts of Aralia elata (Miq.) Seem (A. elata). for the first time. Samples were extracted using 70% methanol by ultrasonication. Separation of the analytes was performed on a Welchrom C₁₈ column with acetonitrile and water as the mobile phase. All calibration curves had good linearity over relatively wide range of concentrations. This method showed good average recovery and precision, also high sensitivity with limits of detection and quantification. This method was successfully applied to quantify triterpenoid saponins in 14 samples collected from different areas of China. This study demonstrate that there is significant variation in the amounts of the five triterpenoids of interest in A. elata. Furthermore, 70% methanol extracts of roots had the strongest effect on ox-low-density lipoprotein-induced human umbilical vein endothelial cell apoptosis.     

Identification of chemical constituents in Rhizoma Paridis Saponins and their oral administration in rat plasma by UPLC/Q‐TOF/MS

On‐line ultra‐performance liquid chromatography (UPLC) coupled with diode‐array detection (UPLC/DAD) and electrospray ionization quadrupole time‐of‐flight mass spectrometry (ESI‐Q‐TOF‐MS) were used for separation, identification and structural analyses of saponins in Rhizoma Paridis saponins (RPS) and rat plasma after oral administration of RPS. Thirty steroidal saponins in RPS were identified by comparing their retention time, accurate mass measurement and positive and negative mass spectrometry data with that of reference compounds. The UPLC/Q‐TOF‐MS method was proved to be rapid and efficient in that 30 steroidal saponins, including three kinds of saponins (prototype, pennogenyl and diosgenyl saponins) were tentatively characterized within 6 min. After oral administration of RPS, 21 original saponins were absorbed in RPS‐treated rat plasma. Our results indicated that UPLC/Q‐TOF‐MS is a rapid and effective tool for identification of a series of saponins at trace level. Copyright © 2010 John Wiley & Sons, Ltd.     

Isolation and determination of saponin hydrolysis products from Medicago sativa using supercritical fluid extraction,solid‐phase extraction and liquid chromatography with evaporative light scattering detection

Saponins are widespread secondary metabolites with various beneficial properties: fungicidal, antibacterial, antiviral, and anticancer. Alfalfa saponin molecules contain mainly: medicagenic acid, hederagenin, bayogenin, and soyasapogenol B. Structural diversity of saponins makes their determination in Medicago sativa extracts very difficult. The most popular determination technique is high‐performance liquid chromatography applied with evaporative light scattering detection. Qualitative and quantitative analysis of sapogenins from Medicago sativa by high‐performance liquid chromatography with evaporative light scattering detection required hydrolysis and purification of extracts obtained by supercritical fluid extraction. Hydrolysis of saponins with concentrated hydrochloric acid provided high concentration of medicagenic acid. In the purification process, satisfactory results were obtained for solid‐phase extraction using octadecyl. Recoveries were from 71 to 99% with a standard deviation from 2 to 8. Hydrolysis with concentrated hydrochloric acid was the only method that allowed identification of all four analyzed sapogenins. Moreover, it is characterized by a short time of preparation, simplicity of execution, a small amount of the sample and solvents. The hydrolysis and purification methods coupled with high‐performance liquid chromatography and evaporative light scattering detection can be successfully used for qualitative and quantitative analysis of the main saponins present in Medicago sativa plant extracts obtained by supercritical fluid extraction.     

Development of an analytical method for yam saponins using HPLC with pulsed amperometric detection at different column temperatures

Yam saponins (dioscin, gracillin, protodioscin, and protogracillin) were analyzed with three different C18 columns at incremental column temperatures from 15 to 45°C to investigate the effect of temperature on the retention and resolution of yam saponins. At low temperature, yam saponins showed decreased retention times and improved resolutions in the C18 columns. In the Kinetex C18 column at 15°C, the four saponins achieved baseline separation (Rs > 1.5) within 30 min. Pulsed amperometric detection was used to identify saponins with high sensitivity. The limits of detection and quantification of saponins were 0.11–0.31 and 0.33–0.95 ng, respectively. The correlation coefficients ranged 0.9986–1.0000. Intra‐ and inter‐day precisions were <4.2% of retention times and <9.5% of the calculated contents. Average recoveries ranged from 92.18 to 105.98%. Saponin contents in Dioscorea nipponica tubers and commercial yam foods were determined without sample purification or concentration. Among the ten commercial yam foods investigated, only three showed significant saponin contents.     

Fast and direct quantification of underivatized muscone by ultra performance liquid chromatography coupled with evaporative light scattering detection

A new reversed phase ultra performance liquid chromatography coupled with evaporative light scattering detection is developed for the fast and direct quantification of underivatized muscone in precious herbal medicine musk. Separation of muscone was achieved on a Waters Acquity BEH C₁₈ (50 × 2.1 mm id, 1.7 μm) column. The runtime was as short as 5 min. The mode of evaporative light scattering detection was set at Impact On. The influence of evaporative light scattering detection condition on sensitivity was investigated. The optimized condition was: drift tube temperature at 30°C, gas flow rate 4.2 L/min. The method was validated with respect to the precision, sensitivity, accuracy, linearity, stability, and robustness were measured in this paper. The calibration curves showed good linear regression (r = 0.9914) within the test range. The recovery rate was 98.6%. The limit of detection for muscone was 2.0 ng. The validated method was rapid, simple, reproducible, and convenient for the quantification of muscone in musk and the related products.     

Separation and purification of steroidal saponins from Paris polyphylla by microwave‐assisted extraction coupled with countercurrent chromatography using evaporative light scattering detection

A method of microwave‐assisted extraction coupled with countercurrent chromatography using evaporative light scattering detection was successfully developed for the separation and purification of steroidal saponins from Paris polyphylla. The main extraction conditions including microwave power, liquid/solid ratio, irradiation time, and extraction temperature were optimized using an orthogonal array design method. A suitable two‐phase solvent system consisting of n‐heptane/n‐butanol/acetonitrile/water (10:19:6:20, v/v/v/v) was employed in the separation and purification of the extracts of P. polyphylla. A total of 7.1 mg polyphyllin VII, 4.3 mg gracillin, 9.2 mg dioscin, and 10.2 mg polyphyllin I were obtained from 1.5 g P. polyphylla in less than 300 min, the purities of which determined by HPLC were 96.7, 97.3, 98.7, and 98.6%, respectively. The identification and characterization of these compounds were performed by LC–ESI‐MS and ¹H NMR spectroscopy. The results demonstrated that the proposed method is feasible, economical and efficient for the extraction, separation and purification of effective compounds from natural products.     

Separation of cucurbitane triterpenoids from bitter melon drinks and determination of partition coefficients using vortex‐assisted dispersive liquid‐phase microextraction followed by UHPLC analysis

A rapid, effective method applying vortex‐assisted liquid–liquid microextraction before ultra‐high performance liquid chromatography with mass spectrometry and evaporative light scattering detection was developed for the analysis of four cucurbitane triterpenoids (momordicoside L, momordicoside K, momordicoside F₂, and 3β,7β,25‐trihydroxy cucurbita‐5,23(E )‐dien‐19‐al) in bitter melon juices. Variables affecting the extraction efficiency including different extraction solvents, volume of extraction solvent, salt amount, acid condition, vortex speed and time were optimized thoroughly. Under the optimum conditions, precision was determined by the intra‐ and inter‐day tests in a range of 1.1–5.7% and 2.9–4.0% (RSD), respectively, with recoveries between 95.7 and 106.1%. The calibration curves showed good linearity with square correlation coefficient of 0.9936–0.9991 (evaporative light scattering detection) and 0.9858–0.9989 (MS). The detection limits ranged from 0.8–1.9 ng/mL (MS) to 3–10 ng/mL (evaporative light scattering detection) for these compounds. Enrichment factors of four target compounds were between 27 and 63 times. The proposed method was also used to determine the apparent solvent/water partition coefficients of analytes within the range of 53–120. The developed method can effectively enrich and quantify cucurbitane triterpenoids from bitter melon drinks.     

Detection of trace amounts of citrinin in dried orange peel by using an optimized extraction method coupled with ultra‐performance liquid chromatography–tandem mass spectrometry

A fast and sensitive method involving ultra‐performance liquid chromatography–tandem mass spectrometry (UPLC–MS/MS) was introduced to detect citrinin in dried orange peel. A series of extraction, purification and chromatographic conditions was also systematically examined. With the proposed method, the obtained calibration graph was linear, with an R of 0.9996 within a concentration range of 0.5–10 ng/mL. The estimated limits of detection and quantification were 0.05 and 0.17 ng/mL, respectively. Under the selected conditions, the relative recoveries in different citrus products spiked with 1–10 ng/mL citrinin were 89.4–98.7% with RSDs of <2.5%. Compared with previously reported analytical methods, the newly developed UPLC–MS/MS method showed excellent sensitivity and good precision in detecting citrinin. The results indicated that it is a reliable and effective technique for the detection of trace citrinin in dried orange peel.     

Simultaneous quantification and semi‐quantification of amentoflavone and its metabolites in human intestinal bacteria by liquid chromatography Orbitrap high‐resolution mass spectrometry

A quick, easy, effective method followed by ultra‐high‐pressure liquid chromatography coupled with linear ion trap–Orbitrap tandem mass spectrometry (UHPLC‐LTQ‐Orbitrap MS) was developed for the simultaneous identification and quantification of the metabolites produced by amentoflavone (AMF) in human intestinal bacteria from human feces. The method validated for quantification of AMF concerning precision, accuracy, recovery, matrix effect, stability and limits showed acceptable results. Compared with blank human intestinal bacteria chromatography, three metabolites were identified based on high‐accuracy protonated precursors and multi‐stage mass spectrometry (MSⁿ ) using the proposed strategy. At the same time, a new method was developed for semi‐quantification of three metabolites. We describe the trend over 24 h of concentration–time curves for AMF and its metabolites. Moreover, the main metabolic pathway of AMF was clarified in human intestinal bacteria. The method was validated and successfully applied to the detection and quantification of AMF and its metabolites.     

A new phenanthropyran and a new biphenanthrene from the rhizomes of Dioscorea septemloba and their antioxidant activities

Abstract

A new phenanthropyran, dioscorone B (1), and a new phenanthrene (2), together with seven known compounds (3–9), were isolated from the 75% ethanol extract of Dioscorea septemloba rhizomes. The chemical structures of these compounds were elucidated by comprehensive spectroscopic methods including NMR, HRESIMS, IR, and UV spectra. Compounds 1–5 were first isolated from genus Dioscorea. The proton and carbon chemical shifts of compounds 1–9 were unambiguously assigned based on the 1D-NMR and 2D-NMR data. Compounds 1–5 and 8–9 were first tested for their antioxidant activities. Compounds 1 and 2 showed excellent activities with IC₅₀ values of 0.07?±?0.10?μM and 0.13?±?0.09?μM, respectively.     

Study of the ESI and APCI interfaces for the UPLC–MS/MS analysis of pesticides in traditional Chinese herbal medicine

In this work, 53 selected pesticides of different chemical groups were extracted from Chinese herbal medicines and determined by ultra-high-performance liquid chromatography (UHPLC)–tandem mass spectrometry (MS/MS) using both electrospray ionization (ESI) and atmospheric-pressure chemical ionization (APCI). Extracts were obtained using the acetonitrile-based quick, easy, cheap, effective, rugged, and safe (QuEChERS) sample preparation technique. Cleanup was performed by dispersive solid-phase extraction using primary secondary amine, graphitized carbon black, and octadecylsilane. Two atmospheric-pressure interfaces, ESI and APCI, were checked and compared. The validation study, including detection limits, linearity, and matrix effects, was conducted on fritillaria, radix ginseng, folium isatidis, semen persicae, and flos lonicerae in multiple reaction monitoring mode. These matrices represent a variety of plants used in traditional Chinese medicine. Fritillaria and radix ginseng were chosen as representatives for roots, folium isatidis was chosen as a representative for leaves, semen persicae was chosen as a representative for seeds, and flos lonicerae was chosen as a representative for flowers. The limits of detection for pesticides were lower in the UHPLC–ESI-MS/MS method than in the UHPLC–APCI-MS/MS method. Matrix effects on the two ionizations were evaluated for the five matrices. Soft signal enhancement in UHPLC–APCI-MS/MS and signal suppression in UHPLC–ESI-MS/MS were observed.

Rapid simultaneous quantification of fructooligosaccharides in Morinda officianalis by ultra‐high performance liquid chromatography

Many Chinese herbal medicines with tonifying effects contain high levels of inulin fructooligosaccharides. These herbal medicines have high development and utilization value because of their effects against dementia, depression, and oxidative stress; on improving learning and memory ability; and on enhancing immunity. In this study, a method was developed for the separation and simultaneous quantitation of fructose, glucose, sucrose, and ten inulin fructooligosaccharides by ultra‐high‐performance liquid chromatography with evaporative light scattering detection within 10 min. Separation was performed on an Amide column with gradient elution. The calibration curves for the 13 constituents showed good linearity (R² > 0.9991). The limits of detection and quantification were 10.78–33.44 and 35.94–124.81 μg/mL, respectively, and the recoveries ranged from 98.90 to 103.67%. This method was successfully used to quantify the 13 constituents in the Chinese herbal medicine Morinda officinalis. The contents of the ten inulin fructooligosaccharides ranged from 56.28 to 60.71%. This method is accurate, rapid and simple and can be used for quantitative analysis in the quality control of herbal medicines and functional foods.     

Solid-phase extraction and ultra high-performance liquid chromatography tandem mass spectrometry analysis of the gastrointestinal absorption of emodin in different digestive segments of rats

A rapid, simple and sensitive ultra high‐performance liquid chromatography (UHPLC‐MS/MS) method was established for determining the absorption amount of emodin in the five digestive segments of rat. Plasma samples were pre‐purified by solid‐phase extraction (SPE) with Oasis MAX cartridge. Separation of emodin and 1,8‐dihydroxyanthraquinone (internal standard) was performed on an Acquity BEH UHPLC C₁₈ column (100 mm×2.1 mm, 1.7 μm) with gradient elution of methanol and 0.1% formic acid aqueous solution. The LC/MS system was operated under multiple reaction monitoring mode using electrospray ionization (ESI) in negative ion mode. The results showed that this established method was valid and sensitive for emodin within 0.04–16.4 μg/mL, with low limits of detection and quantification of 0.6 ng/mL and 2.4 ng/mL, respectively and upper limit of quantification of 220.0 ng/mL. The intra‐ and interday variations were below 4.9% of RSD. The extraction recoveries were 98.9–106.1% with RSD of 1.9–3.2%. The plasma concentration‐time relationship showed that the absorption of emodin in stomach was faster than in intestine segments. The sequence of absorption amount was: ileum>jejunum>colon≈duodenum>stomach. Most of emodin was absorbed in ileum, and the absorption amount was increased with prolonged retention of drug form in intestine, especially in ileum and jejunum. The developed UHPLC‐ESI‐MS/MS method was appropriate for determining the in vivo absorption of emodin in other herbal medicines or preparations containing this compound.     

Identification and quantification of domoic acid by UHPLC/QTOF tandem mass spectrometry,with simultaneous identification of non-target photodegradation products

Amnesic shellfish poisoning is a potentially lethal human toxic syndrome which is caused by domoic acid (DA), a neurotoxin produced by marine phytoplankton, principally from Pseudonitzschia genus. In this report, a method to identify and quantify the DA toxin, with simultaneous identification of its photodegradation products, has been developed. It uses an ultra high performance liquid chromatography coupled to a quadrupole-time-of-flight tandem mass spectrometer (UHPLC–QTOF) after solid-phase extraction (SPE). An unambiguous identification of DA was carried out by considering both the retention time of DA in UHPLC and the exact mass of protonated DA molecule ([M + H]⁺ = 312.1447 m/z) and of the most intense fragment ion (m/z 266.1391). The quantification was conducted using protonated DA molecule with protonated Glafenin as internal standard, obtaining a limits of detection of 0.75 µg L^?1. Large screening with UHPLC–QTOF could also give structural information about degradation products of DA present in samples after UV-irradiation. This method was applied for the determination of DA in complex liquid samples after SPE and is applicable for environmental monitoring of this toxic substance in the aquatic environment.     

Simultaneous quantification of both triterpenoid and steroidal saponins in various Yunnan Baiyao preparations using HPLC–UV and HPLC–MS

Yunnan Baiyao (YNBY) is one of the best known traditional Chinese medicines. Saponins are considered to be its active components. In this study, an HPLC method was first developed for the simultaneous quantitative analysis of thirteen saponins, including five triterpenoid saponins and eight steroidal saponins, in a series of YNBY preparations, i. e., powder, capsules, aerosol, toothpaste, plaster, and adhesive bandage. The pre‐treatment methods for each dosage form were investigated and optimized. The HPLC separation was performed on a Shim‐pack C₁₈ reversed‐phase column in gradient mode with UV detection at 203 nm. All calibration curves showed good linear regression (r² ? 0.9981) within the test ranges. Precisions and repeatabilities of the methods were better than 4.22 and 4.78%, respectively. Recoveries were better than 90.5%, even in the analysis of the least abundant saponins in a complex YNBY plaster. HPLC–ESI‐TOF/MS was used for definite identification of compounds in the preparations. This proposed method was successfully applied to quantify the 13 bioactive constituents in 27 commercial samples to evaluate the quality of YNBY preparations. The overall results demonstrate that this method is simple, reliable, and suitable for the quality control of YNBY. Furthermore, the retention behavior of these saponins in reversed‐phase chromatography is described.     

Quantitative determination and evaluation of Paris polyphylla var. yunnanensis with different harvesting times using UPLC‐UV‐MS and FT‐IR spectroscopy in combination with partial least squares discriminant analysis

A rapid method was developed and validated by ultra‐performance liquid chromatography–triple quadrupole mass spectroscopy with ultraviolet detection (UPLC‐UV‐MS) for simultaneous determination of paris saponin I, paris saponin II, paris saponin VI and paris saponin VII. Partial least squares discriminant analysis (PLS‐DA) based on UPLC and Fourier transform infrared (FT‐IR) spectroscopy was employed to evaluate Paris polyphylla var. yunnanensis (PPY) at different harvesting times. Quantitative determination implied that the various contents of bioactive compounds with different harvesting times may lead to different pharmacological effects; the average content of total saponins for PPY harvested at 8 years was higher than that from other samples. The PLS‐DA of FT‐IR spectra had a better performance than that of UPLC for discrimination of PPY from different harvesting times.     

Visual authentication of steroidal saponins in Allium macrostemon Bge. and Allium chinense G. Don using MALDI-TOF imaging mass spectrometry and their structure activity relationship

Allium macrostemon Bge. (AMB) and Allium chinense G. Don (ACGD), both named Allii Macrostemonis Bulbus or Xiebai in Chinese, belong to the same genus. They are both used as edible vegetables and medicinal herbs for the treatment of atherosclerosis. So far, comparative analysis of the spatial metabolomes and platelet aggregation function of steroidal saponins has rarely been performed. In this study, high mass resolution matrix-assisted laser desorption/ionization time-of-flight imaging mass spectrometry (MALDI-TOF MSI) were performed on the fresh bulbs of these two herbs for the spatial distribution of steroidal saponins, and ultra-high-performance liquid chromatography tandem triple quadrupole mass spectrometry (UHPLC/TQD-MS) was used to quantify their content levels. Platelet inhibitory activity induced by arachidonic acid, adenosine diphosphate and collagen were fully investigated. A total of 53 differential variables with compounds were identified or tentatively characterized between AMB and ACGD samples by UHPLC/TQD-MS. Furthermore, these steroidal saponins were almost distributed in tunic and outer scale regions of AMB, while they were rich in tunic and whole leaf scale, and rarely in developing flower bud of ACGD bulbs. Quantitative results demonstrated several saponins were the unique components for AMB (macrostemonoside I, timosaponin B-II, macrostemonoside F, etc.) and ACGD (chinenoside I, chinenoside II, chinenoside IV, etc.). Moreover, spirostanol saponins exhibited stronger inhibitory platelet activity than furostanol saponins, and the structure activity relationship was further summarized. In conclusion, high-mass resolution MALDI full-scan MSI provides abundant spatial distribution information of steroidal saponins in AMB and ACGD. And we finished the discussion of their activity characteristics. These findings would benefit the understanding of safety and effectiveness for their edible and medicinal use.     

RP‐HPLC determination of phenylalkanoids and monoterpenoids in Rhodiola rosea and identification by LC‐ESI‐TOF

An HPLC method permitting the simultaneous determination of fourteen analytes (phenylalkanoids and monoterpenoids) from the roots of Rhodiola rosea was developed. A separation was achieved within 35 min using C₁₈ column material and a water–acetonitrile mobile phase, both containing a 0.05% phosphoric acid gradient system and a temperature of 53°C. The method was validated for linearity, repeatability, limits of detection and limits of quantification. The limits of detection and limits of quantification of 14 phenylalkanoids and monoterpenoids were found to be 0.20–1.0 and 0.5–3.5 µg/mL, respectively. The wavelengths used for quantification of phenylalkanoids and monoterpenoids with a diode array detector were 205, 220 and 251 nm. The method was used to analyze the roots of two species of Rhodiola and commercial extracts of R. rosea and provides preliminary evidence of phytochemical differences between North American and Eurasian populations of R. rosea. LC–mass spectrometry coupled with electrospray ionization (ESI) interface method is described for the identification of phenylalkanoids and monoterpenoids in various Rhodiola samples. This method involved the use of the [M + H]⁺, [M + NH₄]⁺ and [M + Na]⁺ ions in the positive ion mode with extractive ion monitoring (EIM). Copyright © 2009 John Wiley & Sons, Ltd.