swertiamarin and loganic-acid

Topics: Gene Expression Profiling; Gentiana; Humans; Iridoids; Molecular Sequence Annotation

Swertia nervosa (Wall. ex G. Don) C. B. Clarke, a promising traditional herbal medicine for the treatment of liver disorders, is endangered due to its extensive collection and unsustainable harvesting practices.. The aim of this study is to discuss the diversity of metabolites (loganic acid, sweroside, swertiamarin, and gentiopicroside) at different growth stages and organs of Swertia nervosa using the ultra-high-performance LC (UPLC)/UV coupled with chemometric method.. UPLC data, UV data, and data fusion were treated separately to find more useful information by partial least-squares discriminant analysis (PLS-DA). Hierarchical cluster analysis (HCA), an unsupervised method, was then employed for validating the results from PLS-DA.. Three strategies displayed different chemical information associated with the sample discrimination. UV information mainly contributed to the classification of different organs; UPLC information was prominently responsible for both organs and growth periods; the data fusion did not perform with apparent superiority compared with single data analysis, although it provided useful information to differentiate leaves that could not be recognized by UPLC. The quantification result showed that the content of swertiamarin was the highest compared with the other three metabolites, especially in leaves at the rooted stage (19.57 ± 5.34 mg/g). Therefore, we speculated that interactive transformations occurred among these four metabolites, facilitated by root formation.. This work will contribute to exploitation of bioactive compounds of S. nervosa, as well as its large-scale propagation.. The roots formation may influence the distribution and accumulation of metabolites.

Topics: Chromatography, High Pressure Liquid; Iridoid Glucosides; Iridoids; Pyrones; Swertia

To study the effect of phosphorus( P) and potassium( K) fertilization on four iridoids in axial and lateral root of Gentiana crassicaulis.. Field experiment was conducted based on phosphorus and potassium,and the content of four iridoids was analyzed in the axial and lateral root of Gentiana crassicaulis.. Despite of different proportion of phosphorus and potassium,the content of four iridoids in axial root was always higher than that in the lateral root, and under normal fertilizer condition, the content of axial and lateral root was 12. 36% and 9. 84%, respectively. On the condition of phosphorus and potassium fertilization, the content of gentiopicroside and loganic acid were higher than that of the swertiamarin and sweroside both in the axial and lateral root. And the difference of the two parts could be increased by high potassium with appropriate phosphorus application.. The four iridoids were more likely to accumulate in the axial root of Gentiana crassicaulis, and phosphorus and potassium fertilization, only affected the different degrees on the content of ingredients among two parts. Thus, more attention should be paid to the use of phosphorus and potassium fertilization, and the difference of the active ingredient content in the axial and lateral root of Gentiana crassicaulis.

Topics: Fertilizers; Gentiana; Iridoid Glucosides; Iridoids; Phosphorus; Pyrones

Gentiana crassicaulis Duthie ex Burk. and Gentiana macrophylla Pall. are two main sources of Radix Gentianae Macrophyllae (Qinjiao) available in markets, which has a wide range of anti-inflammatory effects and has been extensively used for fighting rheumatoid arthritis. However, they vary in terms of chemical compositions, pharmacological activities, and biomass. In this study, a combined chemical and genetic (HPLC and DNA barcoding) approach was used to compare these two plants. Four predominant bioactive compounds, namely, gentiopicroside, loganic acid, swertiamarin, and sweroside, were used to assess the chemical variations. Based on chemical variations, 15 samples were clustered into two groups through PCA analyses. DNA barcoding utilizing the variable nuclear ITS2 regions were sequenced, aligned, and compared. Together with 61 sequences collected from GenBank, 76 batches of Qinjiao were clustered in two groups according to species origin. The genetic relationships indicated by the ITS2-based NJ tree were consistent with the chemical variations. Thus, the chemical profiles determined by HPLC and DNA profiles obtained from ITS2 region could be applied for the quality control of Qinjiao.

Topics: Chromatography, High Pressure Liquid; DNA Barcoding, Taxonomic; Gentiana; Iridoid Glucosides; Iridoids; Pyrones

The root of Gentiana lutea L., famous for its bitter properties, is often used in alcoholic bitter beverages, food products and traditional medicine to stimulate the appetite and improve digestion. This study presents a new, fast, and accurate HPLC method using HPLC/ESI-MS and HPLC/DAD for simultaneous analysis of iridoids (loganic acid), secoiridoids (gentiopicroside, sweroside, swertiamarin, amarogentin) and xanthones (isogentisin) in different populations of G.lutea L., cultivated in the Monti Sibillini National Park, obtained wild there, or purchased commercially. Comparison of HPLC/ESI-MS and HPLC/DAD indicated that HPLC/ESI-MS is more sensitive, reliable and selective. Analysis of twenty samples showed that gentiopicroside is the most dominant compound (1.85-3.97%), followed by loganic acid (0.11-1.30%), isogentisin (0.03-0.48%), sweroside (0.05-0.35%), swertiamarin (0.08-0.30%), and amarogentin (0.01-0.07%). The results confirmed the high quality of the G.lutea cultivated in the Monti Sibillini National Park.

Topics: Alcoholic Beverages; Chromatography, High Pressure Liquid; Gentiana; Iridoid Glucosides; Iridoids; Mass Spectrometry; Plant Roots; Pyrones; Taste; Xanthones

Gentiana straminea is the famous Tibetan folk medicine thought to cure various diseases. Historically, the Qinghai-Tibetan region has been considered as the geo-authentic production area of "Mahua Jiao," where large quantities of the medicine are grown. However, there is still little known about the phytochemical constituent spatial variation of this species. In order to find the differences between the main phytochemical constituents of G. straminea and to provide comprehensive information for quality evaluation, four main bioactive compounds (loganic acid, swertiamarin, gentiopicroside and sweroside) were analysed in 26 populations grown in areas with elevations ranging from 2320 to 4720 m across the Qinghai-Tibetan Plateau. The results showed that the four phytochemical constitutes' concentrations varied greatly in the spatial profiling of the Qinghai-Tibetan region. Throughout the range of distribution of this species, no altitudinal, latitudinal or longitudinal trends have proven to be significant in any of the four constitutes' concentrations or their summation. Furthermore, hierarchical clustering analysis and statistical tests showed that four populations (Liu0609-18, Liu0609-15, Liu2006-13-9 and Liu0609-22) had total constitute contents that were higher than other populations. The spatial profiling of the four phytochemical constituents suggests that the geo-authentic producing area of this species exists at a few regions within the Qinghai province, which could be attributed to specific environmental or genetic factors.

Topics: Chromatography, High Pressure Liquid; Cluster Analysis; Ethnobotany; Gentiana; Iridoid Glucosides; Iridoids; Phytotherapy; Plant Extracts; Plant Roots; Plants, Medicinal; Pyrones; Tibet

Swertia mussotii Franch. and Swertia chirayita Buch.-Ham. have been commonly used under the same name "Zangyinchen" for the treatment of liver and gallbladder diseases in traditional Tibetan medicine. Detailed characterization and comparison of the complete set of metabolites of these two species are critical for their objective identification and quality control. In this study, a rapid, simple and comprehensive (1)H NMR-based metabolomics method was first developed to differentiate the two species. A broad range of metabolites, including iridoid glycosides, xanthones, triterpenoids, flavonoids, carbohydrates, and amino acids, were identified. Statistical analysis showed evident differences between the two species, and the major markers responsible for the differences were screened. In addition, quantitative (1)H NMR method (qHNMR) was used for the target analysis of the discriminating metabolites. The results showed that S. mussotii had significantly higher contents of gentiopicrin, isoorientin, glucose, loganic acid, and choline, whereas S. chirayita exhibited higher levels of swertiamarin, oleanolic acid, valine, and fatty acids. These findings indicate that (1)H NMR-based metabolomics is a reliable and effective method for the metabolic profiling and discrimination of the two Swertia species, and can be used to verify the genuine origin of Zangyinchen.

Topics: Choline; Fatty Acids; Flavonoids; Glucose; Iridoid Glucosides; Iridoid Glycosides; Iridoids; Luteolin; Magnetic Resonance Spectroscopy; Medicine, Tibetan Traditional; Metabolome; Metabolomics; Oleanolic Acid; Pyrones; Swertia; Terpenes; Valine; Xanthones

A rapid method combining microwave-assisted extraction (MAE) and high-speed counter-current chromatography (HSCCC) was applied for preparative separation of six bioactive compounds including loganic acid (I), isoorientin-4'-O-glucoside (II), 6'-O-β-d-glucopyranosyl gentiopicroside (III), swertiamarin (IV), gentiopicroside (V), sweroside (VI) from traditional Tibetan medicine Gentiana crassicaulis Duthie ex Burk. MAE parameters were predicted by central composite design response surface methodology. That is, 5.0 g dried roots of G. crassicaulis were extracted with 50 mL 57.5% aqueous ethanol under 630 W for 3.39 min. The extract (gentian total glycosides) was separated by HSCCC with n-butanol/ethyl acetate/methanol/1% acetic acid water (7.5:0.5:0.5:3.5, v/v/v/v) using upper phase mobile in tail-to-head elution mode. 16.3, 8.8, 12., 25.1, 40.7, and 21.8 mg of compounds I-VI were obtained with high purities in one run from 500 mg of original sample. The purities and identities of separated components were confirmed using HPLC with photo diode array detection and quadrupole TOF-MS and NMR spectroscopy. The study reveals that response surface methodology is convenient and highly predictive for optimizing extraction process, MAE coupled with HSCCC could be an expeditious method for extraction and separation of phytochemicals from ethnomedicine.

Topics: Countercurrent Distribution; Gentiana; Glucosides; Glycosides; Iridoid Glucosides; Iridoids; Luteolin; Microwaves; Pyrones

This study presents a new and validated HPLC method for the simultaneous determination of bioactive compounds in Centaurium erythraea, Frasera caroliniensis and Gentiana lutea. The iridoid loganic acid, four secoiridoids and 29 xanthones were separated on a RP-18 column, using aqueous o-phosphoric acid (0.085%, v/v) and acetonitrile as mobile phase. Phytochemical investigation of C. erythraea herb and F. caroliniensis roots resulted into isolation of 25 xanthones and three secoiridoids the structure of which was elucidated by spectroscopic means (NMR, MS and UV). 1,3,8-Trihydroxy-5,6-dimethoxyxanthone, isolated from C. erythraea, turned out to be a novel xanthone. The stability of the analytes was tested by subjecting samples to light, moisture and different temperatures. After six months of storage, decomposition of gentiopicroside and sweroside was observed. The swertiamarin content was nearly unchanged when stored at room temperature or in the refrigerator, but high temperature conditions reduced the content to 85%. In contrast, xanthones were stable under long-term, refrigerated and accelerated conditions. The established chromatographic method has been successfully applied for the quantification of the bioactive compounds in the three plants. The presence and distribution of polyoxygenated xanthones within the three members of the Gentianaceae family and their significance as analytical markers are discussed.

Topics: Centaurium; Chromatography, High Pressure Liquid; Chromatography, Liquid; Gentiana; Gentianaceae; Humans; Iridoid Glucosides; Iridoids; Mass Spectrometry; Phytotherapy; Plant Extracts; Plant Roots; Pyrones; Reproducibility of Results; Xanthones