Migration Patterns and Potential Risk Assessment of Trace Elements in the Soil-Plant System in the Production Area of the Chinese Medicinal Herb Scrophularia ningpoensis Hemsl.

Scrophularia ningpoensis Hemsl. holds a prominent place among Chinese medicinal herbs. Assessing the soil-plant system of its origin is crucial for ensuring medication safety. Although some trace elements are essential for the normal functioning of living organisms, exposure to higher concentrations is harmful to humans, so in order to assess the possible health risk of trace elements in the soil-plant system of Scrophularia ningpoensis Hemsl. origin for human assessment, we used non-carcinogenic risk (HI) and carcinogenic risk (CR) for their evaluation. In this paper, the following trace elements were studied in the soil-Scrophularia ningpoensis Hemsl. system: manganese (Mn), iron (Fe), cobalt (Co), zinc (Zn), selenium (Se), molybdenum (Mo), arsenic (As) and lead (Pb). Correlation and structural equation analyses showed that the effect of soil in the root zone on the plant was much greater than the effect of soil in the non-root zone on the plant. The single-factor pollution index (Pi) showed that the soil in the production area of Scrophularia ningpoensis Hemsl. was polluted to a certain extent, notably with Pb showing the highest average Pi values of 0.94 and 0.89 in the non-root and root zones, respectively. Additionally, the Nemerow composite pollution indices (PN) for both zones indicated an alert range. Regarding health risks, exposure to soil in the non-root zone posed higher non-carcinogenic risk (HI) and carcinogenic risk (CR) compared to the root zone, although neither zone presented a significant carcinogenic risk. The potential non-carcinogenic risk (HI) and carcinogenic risk (CR) from consuming Scrophularia ningpoensis Hemsl. leaves and stems were more than ten times higher than that of roots. However, the carcinogenic risk (CR) values for both the soil and plant of interest in the soil- Scrophularia ningpoensis Hemsl. system did not exceed 10-4, and therefore no significant carcinogenic risk existed.

Metabolomics distinguishes different grades of Scrophularia ningpoensis hemsl: Towards a biomarker discovery and quality evaluation.

In managing unique complexities associated with Chinese medicinal quality assessment, metabolomics serves as an innovative tool. This study proposes an analytical approach to assess differing qualities of Scrophularia ningpoensis （S. ningpoensis）Hemsl by identifying potential biomarker metabolites and their activity with the corresponding secondary metabolites. The methodology includes four steps; first, a GC-MS based metabolomics exploration of the Scrophularia ningpoensis Hemsl. Second, a multivariate statistical analysis (PCA, PLS-DA, OPLS-DA) for quality assessment and biomarker identification. Third, the application of ROC analysis and pathway analysis based on identified biomarkers. Finally, validation of the associated active ingredients by HPLC. The analysis showed distinct metabolite profiles across varying grades of S. ningpoensis Hemsl, establishing a grading dependency relationship. Select biomarkers (gluconic Acid, d-xylulose, sucrose, etc.) demonstrated robust grading performances. Further, the Pentose Phosphate Pathway, deemed as most influential in grading, was tied to the synthesis of key constituents (iridoids, phenylpropanoids). HPLC validation tests affirm a decreasing trend in harpagoside and cinnamic acid levels between first and third-grade samples. In conclusion, this GC-MS based metabolomics combined HPLC method offers a sound approach to assess and distinguish quality variations in S. ningpoensis Hemsl samples.

The impact of non-environmental factors on the chemical variation of Radix Scrophulariae.

Radix Scrophulariae is a commonly used Chinese herb derived from the dried root of Scrophularia ningpoesis Hemsl. (S. ningpoensis). It is difficult to accurately estimate the dosage of Chinese medicinal materials used in the prescription because of the chemical variation caused by various factors. To analyze the non-environmental factors affecting the chemical variation of Radix Scrophulariae, we planted nine different cultivated varieties of S. ningpoensis in the same plantation. Based on sequence-related amplified polymorphism (SRAP), simple sequence repeats (SSR) markers and high-performance liquid chromatography (HPLC) analysis, we found that the materials from the cultivated varieties could be divided into two groups, the Zhejiang group, and the southwest China group. The genetic distance based on molecular data between the two groups was above 0.3882, and the Euclidean distance based on chemical data between the two groups was above 5.312. The correlation analysis between the genetic distance matrix based on SRAP and the Euclidean distance matrix based on 18 HPLC peaks of the whole underground part revealed that the genetic differentiation and chemical variation were positively related, r = 0.7196 (p < 0.05). The genetic background, different part of the roots and the different development of the roots are the three non-environmental factors causing the chemical variation. The coefficient of variation (C.V) of chemical composition of Radix Scrophulariae with different genetic background reached to 93.62 %, the C.V of the chemical composition of Radix Scrophulariae derived from the same variety reached to 64.21 %, the C.V of the chemical composition of Radix Scrophulariae derived from the middle part of the roots of S. ningpoensis from the same variety reached to 45.55 %. The C.V of chemical composition of Radix Scrophulairae produced in the same plantation could be controlled to 38.43 % by using the same variety of roots with the approximate mass derived from the middle part of the roots under 20 g. Our findings provided insights to decrease the chemical variation of Chinese medicinal materials by controlling non-environmental factors.

A metabolism-based study of the mechanism of action of Scrophularia ningpoensis Hemsl. on nephrogenic edema.

Nephrogenic edema (NE) is a type of edema with hypoproteinemia and water and sodium retention as a result of renal injury. Traditional Chinese medicine has proved that Scrophularia ningpoensis Hemsl. has an effect on NE, but its mechanism is not clear. In this study, the main components and blood components of S. ningpoensis were identified using ultra-high-performance liquid chromatography-quadrupole-time-of-flight-mass spectrometry (UPLC-Q-TOF-MS). Pathological section and blood biochemical analysis were used to estimate the therapeutic effect of S. ningpoensis on NE. Network pharmacology was used to predict the potential pathways of S. ningpoensis. The metabolomics method was used to study the changes in small-molecule metabolites in the body. The results showed that S. ningpoensis could relieve NE by regulating relative to renal function and body edema, and its mechanism may be related to the regulation of energy metabolism, recovery of renal injury, and reduction in inflammation. The active component harpagoside may be one of the important compounds of S. ningpoensis in the treatment of NE. We confirmed that S. ningpoensis has a therapeutic effect on NE, which provides a solid scientific research basis for the clinical application of S. ningpoensis.

Molecular Insights into the Macrophage Immunomodulatory Effects of Scrophulariae Radix Polysaccharides.

Scrophulariae Radix (SR) has been widely used in Chinese herbal compound prescriptions, health care products and functional foods. The present study aimed to investigate the immunomodulatory activity of polysaccharides from SR (SRPs) in macrophages and explore the potential mechanisms. The results showed that four SRPs fractions (SRPs40, SRPs60, SRPs80 and SRPs100) had similar absorption peaks and monosaccharide compositions, but the intensities of absorption peaks and monosaccharide contents were distinguished. All SRPs fractions significantly enhanced the pinocytic activity, promoted the production of NO and TNF-α, increased the mRNA expressions of inflammatory factors (IL-1ß, IL-6, TNF-α and PTGS2) and TLR2, and elevated the phosphorylation levels of p38, ERK, JNK, p65 and IκB. Moreover, the production of NO and TNF-α stimulated by SRPs was dramatically suppressed by anti-TLR2 antibody. These results indicated that SRPs activated macrophages through MAPK and NF-κB signaling pathways via recognition of TLR2.

Chemometric-guided chemical marker selection: A case study of the heat-clearing herb Scrophularia ningpoensis.

The selection of medicinal plants' chemical markers focuses on bioactivity as the primary goal, followed by the nature of secondary metabolites, their stability, and availability. However, herbal medicines are valued for their complex and holistic pharmacological effects. A correct chemical marker can be carefully selected by a systematic clarification of their chemical-biological relationships. In the current study, the multi-informative molecular networking (MIMN) approach was employed to construct the anti-inflammatory metabolomic pattern of a heat-clearing herb, Scrophularia ningpoensis Hemsl. (S. ningpoensis). The MIMN molecular families characterized by cinnamic acid glycosides showed a higher bioactivity score compared with the other two major chemical classes (iridoid glycosides and iridoid-cinnamic acid glycosides). The Global Natural Product Social Molecular Networking (GNPS) and Reaxys database were used to assist in the putative annotation of eighteen metabolites from the bioactive and non-bioactive molecular families. The anti-inflammatory validation step was based on the detection of reactive oxygen species (ROS) generation by activated human neutrophils. All compounds from the bioactive MIMN molecular families dose-dependently inhibited the total ROS generation promoted by fMLF (IC50: 0.04-0.42 µM), while the compounds from non-bioactive MIMN clusters did not show any significant anti-inflammatory effect. The ROS-dependent anti-inflammatory activity of these cinnamic acid glycosides was attributed to their oxygen radical scavenging ability. The most abundant cinnamic acid glycoside, angoroside C (IC50: 0.34 µM) was suggested to be selected as a chemical marker for S. ningpoensis. In this study, the MIMN platform was applied to assist in the chemical marker selection of S. ningpoensis. The correct selection of markers will aid in the compilation and revision of herbal monographs and pharmacopeias resulting in the precise analysis and classification of medicinal plants on a scientific basis.

Comparative proteomic analysis reveals novel insights into the continuous cropping induced response in Scrophularia ningpoensis.

BACKGROUND: Scrophularia ningpoensis is a well-known medicinal crop. Continuous cropping seriously affects the yield and quality, but little is known about the influence of continuous cropping on metabolic pathways. In this study, the difference in protein abundance between continuous cropping and non-continuous cropping of S. ningpoensis roots was studied by proteomics, and the molecular mechanism that protects S. ningpoensis against continuous cropping was explored. RESULTS: The results suggested that continuous cropping in S, ningpoensis altered the expression of proteins related to starch and sucrose metabolism, glycolysis/gluconeogenesis, pentose phosphate pathway, citric acid cycle, phenylalanine, tyrosine and tryptophan biosynthesis, phenylpropanoid biosynthesis, terpenoid backbone biosynthesis, monoterpenoid biosynthesis, sesquiterpenoid and triterpenoid biosynthesis, and steroid biosynthesis. Among these processes, the most affected were phenylpropanoid biosynthesis and starch and sucrose metabolism, which may be important for continuous cropping resistance. CONCLUSION: The effect of continuous cropping on S. ningpoensis was demonstrated at the proteome level in this work, and identified candidate proteins that may cause continuous cropping reactions. The paper provides the theoretical foundation and scientific reference for enhancing the continuous cropping resistance of S. ningpoensis. © 2022 Society of Chemical Industry.

First report of stem rot of Scrophularia ningpoensis caused by Fusarium commune in China.

Chinese figwort (Scrophularia ningpoensis Hemsl.) is an important annual herb and its dried root tubers are used as a traditional Chinese herbal medicine. In May 2021, a disease with stem rot symptoms on S. ningpoensis was observed at three randomly selected fields (~0.67 ha per field) in Nanchuan district (28.93°N, 107.27°E) of Chongqing, China. Disease incidence was estimated between 10% and 17% based on calculating the proportion of symptomatic plants. Initially, watery dark brown spots appeared on the epidermis of the stem. Then the spots expanded into spindle or strip shape, and the center of lesions were sunken, constricted and rotted finally (Figure 1A and Figure 1B). Leaves turned yellow and the plants wilted (Figure 1C). The infected parts of the stem broke easily and became brittle. The number of daughter buds used for reproduction was reduced by more than 24% and the production of root tubers decreased by more than 3%. Twelve stems with typical rot symptoms were sampled from the three fields for further investigation. Infested tissue fragments (4×4 mm) were surface sterilized with 75% ethanol for 30s and 2% sodium hypochlorite for 2 minutes in turn, finally, were rinsed 4 times with sterilized water. The disinfected tissue were air-dried and transferred onto potato dextrose agar (PDA) in the dark for 6 days at 25℃. The resulting fungal colonies were isolated by the single-spore isolation technique (Fang. 1998). Six different fungal colonies were isolated (X1-X6) and Koch's postulates were conducted to verify the pathogenicity of individual isolates. The stem surfaces of 8 months old plants were sterilized with 75% ethanol for 30 s, rinsed three times with sterilized water, and stabbed with a sterilized needle. Conidial from the fungal colonies grown on PDA plate were harvested by filtration through five layers of sterilized absorbent gauze. Conidial concentration was then adjusted to 106 conidia per mL. 10 µL of conidial suspension was sprayed on stems injured with a sterile syringe. For each isolate, 6 plants were inoculated. Stems inoculated with sterilized water were used as a blank control. All plants were all put in a growth chamber at 28℃ with 75 to 80% relative humidity under a 12 h photoperiod for 15 days. The pathogenicity test was repeated once. After 13 days, the stems inoculated with X3 showed the same rot symptoms as we observed in the fields (Figure 1D) whereas the control stems remained symptomless (Figure 1E). The fungus re-isolated from the plants showing 100% symptoms had a similar morphology than X3 as described below. At the same time, the stems inoculated with X1, X2, X4, X5 and X6 showed no sign of rot. After culturing on PDA for 9 days under 25℃ in dark, isolate X3 grew all over the dish with white or pale pink pigmentation in the center (Figure 1F). Macroconidia were produced on synthetic low nutrient agar (SNA) plates, which showed sickle or spindle, 3 septate, straight to slightly curved with a foot-shaped basal cell, ranging from 17.595~44.88 × 2.04~3.315 µm (n=30). Microconidia were oval, elliptical or reniform, 0 to 1 septate, 3.06~12.75 ×1.785~2.805 µm (n=30) in size (Figure 1G). Phialides of conidiophores were cylindrical, short and monophialides or polyphialides (Figure 1H). Chlamydospores were found terminal or cluster with round or oblong (Figure 1I). These morphological characteristics described as Fusarium commone (Skovgaard et al. 2003). For molecular identification, the ribosomal internal transcribed spacer (ITS), translation elongation factor 1-alpha (EF-1α), RNA polymerase II subunit 1 (RPB1), the largest subunit of RNA polymerase Ⅱ gene sequences (RPB2) and the mitochondrial small subunit rDNA (mtSSU) genes were amplified with primers V9G /ITS4 (Hoog et al. 1998; White et al. 1990), EF1-668F /EF1-1251R (Alves et al. 2008), Fa/G2R (O'Donnell et al. 2010), 5f2/7cr (Liu et al. 1999; O'Donnell et al. 2010) and NMS1/NMS2 (Li et al. 1994). The sequences of isolate X3 were deposited in GenBank (MZ571935 (ITS), MZ576201 (EF-1α), MZ882396 (RPB1), MZ882397 (RPB2) and MZ867716 (mtSSU)). All sequences were revealed more than 99.8% sequence identity with reported sequences of Fusarium commune (GenBank accession No: KY630717, JF740838, KU171680, KU171700 and MK439851). Based on the optimal nucleotide replacement model SYM of multi-gene series sequence matrix, the system development tree was constructed. Results showed the strain X3 and those of F. commune (Isolates numbers were NRRL 28387, MRC 2566, MRC 2564 and CZ3-5-6) were clustered into the same evolutionary branch with a post-mortem probability of 0.996 (Figure 2). According to the morphology, molecular identification and phylogenetic analysis based on the concatenated of EF-1α and RPB2 genes sequences, the isolated X3 was identified as F. commune. The ITS sequences of X1, X2, X4, X5 and X6 showed homology exceeding 97.1% to Fusarium tricinctum (MH931273), Plectosphaerella cucumerina (MH858371), Sordariomycetes sp. (JX179237), Whalleya microplace (EF026129) and Pestalotiopsis maculiformans (EU552147), respectively, suggested the five strains to be these species possibly. GeneBank accession number of X1, X2, X4, X5 and X6 was OM074010, OM074011, OM074013, OM074015 and OM074018, respectively. To our best knowledge, this is the first report of F. commune infecting S. ningpoensis in China. Stem rot caused by F. commune is a severe threat to Chinese figwort cultivation, and identification of this pathogen is important for effective disease management and control.

Aqueous extract of Scrophularia ningpoensis improves insulin sensitivity through AMPK-mediated inhibition of the NLRP3 inflammasome.

BACKGROUND: Scrophularia ningpoensis Hemsl. is a commonly used medicinal plant in China for the treatment of diabetes mellitus (DM), but its mechanism of action remains poorly described. Type 2 diabetes mellitus (T2DM) accounts for > 90% of all DM cases and is characterized by insulin resistance. PURPOSE: The aim of this study was to investigate whether the insulin sensitivity can be improved by treatment with aqueous extract of S. ningpoensis (AESN) and further explore its mechanism(s) of activity. METHODS: Primary mouse hepatocytes and human HepG2 hepatocytes were used to investigate the effects of AESN on cell viability, AMP-activated protein kinase (AMPK) activation and glucose output under normal culture conditions. To mimic hyperglycemia and insulin resistance in vitro, hepatocytes were exposed to high glucose (HG), and the influences of AESN on AMPK phosphorylation, NLRP3 inflammation activation, insulin signaling, lipid accumulation and glucose output were investigated. Increasing doses of AESN (50, 100 and 200 mg/kg/day) were administered by gavage to db/db mice for 8 weeks, and then biochemical analysis and histopathological examinations were performed. RESULTS: AESN significantly activated AMPK and inhibited glucose output in hepatocytes, but did not impact cell viability under normal culture conditions. Moreover, in HG-treated hepatocytes, AESN protected against aberrant AMPK activity, NLRP3 inflammasome activation, insulin signaling, and lipid accumulation. AMPK inhibition abolished the regulatory effects of AESN on the NLRP3 inflammasome, insulin signaling, lipid accumulation, and glucose output of hepatocytes following HG exposure. Furthermore, AESN administration reduced blood glucose and serum insulin levels, improved lipid profiles and insulin resistance, and corrected the aberrant AMPK activity and NLRP3 inflammasome activation in liver tissues. CONCLUSION: AESN improves insulin sensitivity via AMPK-mediated NLRP3 inflammasome inhibition.

Scrophulariae Radix: An Overview of Its Biological Activities and Nutraceutical and Pharmaceutical Applications.

Scrophulariae Radix (SR) has an important role as a medicinal plant, the roots of which are recorded used to cure fever, swelling, constipation, pharyngitis, laryngitis, neuritis, sore throat, rheumatism, and arthritis in Asia for more than two thousand years. In this paper, the studies published on Scrophularia buergeriana (SB) and Scrophularia ningpoensis (SN) in the latest 20 years were reviewed, and the biological activities of SB and SN were evaluated based on in vitro and in vivo studies. SB presented anti-inflammatory activities, immune-enhancing effects, bone disorder prevention activity, neuroprotective effect, anti-amnesic effect, and anti-allergic effect; SN showed a neuroprotective effect, anti-apoptotic effect, anti-amnesic effect, and anti-depressant effect; and SR exhibited an immune-enhancing effect and cardioprotective effects through in vitro and in vivo experiments. SB and SN are both known to exert neuroprotective and anti-amensice effects. This review investigated their applicability in the nutraceutical, functional foods, and pharmaceutical industries. Further studies, such as toxicological studies and clinical trials, on the efficacy and safety of SR, including SB and SN, need to be conducted.

Scrophularia ningpoensis Hemsl: a review of its phytochemistry, pharmacology, quality control and pharmacokinetics.

OBJECTIVES: Scrophularia ningpoensis Hemsl (SNH) is a commonly used medicinal plant in East Asia. Scrophulariae Radix (SR) is the dried roots of SNH, and is one of the most commonly used medicinal parts of SNH, and is an essential traditional medicine and widely used in East Asia for more than 2000 years. SR is used for clearing away heat and cooling blood, nourishing Yin and reducing fire, detoxicating and resolving a mass. The purpose of this paper is to systematically review the phytochemistry, pharmacology, quality control and pharmacokinetics of SNH based on the surveyed and summarized literature. KEY FINDINGS: Up to now, iridoids, phenolic glycosides, phenolic acids, alkaloids, flavonoids, triterpenes and other compounds have been isolated and identified from SNH. The extract and chemical components of SNH exerts multiple pharmacological effects, such as hepatoprotective effect, anti-inflammatory effect, neuroprotective effect, anti-ventricular remodeling effect and other activities. Various methods have been developed for the quality control of SNH, mainly for SR. Some bioactive compounds in SNH exhibited different pharmacokinetic behaviours and individual metabolic transformation profiles. SUMMARY: This review will contribute to understanding the correlation between the pharmacological activities and the traditional usage of SNH, and useful to rational use and drug development in the future.

Pharmacology, phytochemistry, and traditional uses of Scrophularia ningpoensis Hemsl.

ETHNOPHARMACOLOGICAL RELEVANCE: Scrophularia ningpoensis Hemsl. (known as Xuanshen) has been used in China for centuries as a traditional medicinal plant to treat numerous diseases including inflammation, hypertension, cancer, and diabetes. AIM OF REVIEW: In this review, we provide an update on the botany, pharmacology, phytochemistry, pharmacokinetics, traditional uses, and safety of S. ningpoensis to highlight future research needs and potential uses of this plant. MATERIALS AND METHODS: All information on S. ningpoensis was obtained from scientific databases including ScienceDirect, Springer, PubMed, Sci Finder, China Knowledge Resource Integrated Database from the China National Knowledge Infrastructure (CNKI), Google Scholar, and Baidu Scholar. Additional information was collected from Chinese herbal medicine books, Ph.D. dissertations, and M.Sc. Theses. Plant taxonomy was verified by "The Plant List" database (http://www.theplantlist.org). RESULTS: S. ningpoensis displays fever reducing, detoxifying, and nourishing 'Yin' effects in traditional Chinese medicine (TCM). More than 162 compounds have been identified and isolated from S. ningpoensis, including iridoids and iridoid glycosides, phenylpropanoid glycosides, organic acids, volatile oils, terpenoids, saccharides, flavonoids, sterols, and saponins. These compounds possess a diverse variety of pharmacological properties that affect the cardiovascular, hepatic, and nervous systems, and protect the body against inflammation, oxidation, and carcinogenesis. CONCLUSIONS: Modern pharmacological studies have confirmed that S. ningpoensis is a valuable Chinese medicinal herb with many pharmacological uses in the treatment of cardiovascular, diabetic, and liver diseases. Most of the S. ningpoensis activity may be attributed to iridoid glycosides and phenylpropanoid glycosides; however, detailed information on the molecular mechanisms, metabolic activity, toxicology, and structure-function relationships of active components is limited. Further comprehensive research to evaluate the medicinal properties of S. ningpoensis is needed.

Determination of harpagide and harpagoside contents in Scrophularia ningpoensis from 15 origins / 药学实践杂志

Objective To establish an HPLC method for the simultaneous determination of harpagide and harpagoside content in Scrophularia ningpoensis (SN). Methods An Eclipse C18 column was used for determination of methanol extract of S. ningpoensis with a HPLC-PDA method and mobile phase of acetonitrile-0.03% phosphate solution in a gradient elution manner. The flow rate of mobile phase was 1.0 ml/min, and the detection wavelengths were 210 nm and 280 nm. Results Harpagide and harpagoside contents in SN showed good linear relationships within 0.1020-0.5100 mg/ml (r=0.9999) and 0.0340-0.1700 mg/ml (r=0.9999). Their average recovery rates were 97.44% and 97.08%.The RSDs were 0.93% and 1.24%.. There were significant differences in the contents of harpagide and harpagoside in SN from 15 origins (P<0.01). The content of harpagoside in Sichuan Long-dong, Zhejiang Lin-an, Zhejiang Pan-an and Henan Nan-feng is higher. Conclusion This method is stable, accurate and reproducible and can be used for the quality control of SN.

Characterization of the complete chloroplast genome of a well-known Chinese medicinal herb, Scrophularia ningpoensis.

Scrophularia ningpoensis has been used as a famous traditional medicinal herb in Asian countries to treat jaundice, dysentery, and the pain of rheumatism. In this paper, the complete chloroplast (cp) genome sequence of S. ningpoensis was reported and characterized. The cp genome is 153,175 bp in length, composed of a pair of 25,490 bp inverted repeat (IR) regions separated by a large single copy (LSC) region of 84,257 bp and a small single copy (SSC) region of 17,938 bp. There were 130 predicted genes (85 protein-coding genes, 37 tRNA genes, and 8 rRNA genes) in the genome, and the overall GC content of the genome is 38%. Phylogenetic analysis based on the cp genome data showed that S. ningpoensis was sister to S. buergeriana.

Dynamic analysis of secondary metabolites in various parts of Scrophularia ningpoensis by liquid chromatography tandem mass spectrometry.

The roots of Scrophularia ningpoensis are used as traditional medicines for thousands of years in China, nevertheless the stems and leaves were discarded as non-medicinal parts. Modern research have indicated the chemical constituents in the stems and leaves are similar to the identified in the roots, and the therapeutic effects of stems and leaves are superior to roots for some disease. In the study, the chemical constituents in roots, stems and leaves of S. ningpoensis were analyzed qualitatively by HPLC-Q-TOF-MS/MS. 40 compounds including 17 iridoid glycosides, 15 phenylpropanoids and 8 flavonoids were identified. Meantime, the dynamic accumulations of six index constituents in various parts were measured by HPLC-DAD. The results indicated the S. ningpoensis stems contained high content of aucubin (30.09 mg/g) and harpagide (28.4 mg/g) in August, and the leaves contained high content of harpagoside (12.02 mg/g) in July. The study provides the basis for the full development and utilization of the resource of stems and leaves from S. ningpoensis.

Chemical Constituents from the Roots of Scrophularia ningpoensis Hemsl and Their Anti-inflammatory Activities / 中国药学杂志

OBJECTIVE: To study the chemical constituents in the roots of Scrophularia ningpoensis Hemsl. METHODSE: Compounds were isolated by chromatographic techniques and their structures were elucidated by spectral methods. The anti-inflammatory activities of all isolated compounds were evaluated by lipopolysaccharides (LPS)-stimulated BV2 cells model. RESULTS: Eighteen compounds were isolated and identified as 2'''-acetyl angroside C (1), saccatoside (2), 6-O-α-L-(2″-O-feruloyl)rhamnopyranosylcatalpol (3), scrophularioside (4), harprocumbide A (5), 6″-O-β-D-glucopyranosylharpagoside (6), harpagoside (7), 8-O-(p-coumaroyl)-harpagide (8), 8-O-feruloylharpagide (9), 6-O-α-D-galactopyranosylharpagoside (10), 6'-O-cinnamoylharpagide (11), angoroside B (12), angoroside C (13), scrophuloside B1 (14), 2-(3-hydroxy-4-methoxyphenyl)ethyl-O-α-L-arabinopyranosyl-(1→6)-O-α-L-rhamnopyranosyl-(1→3)]-β-D-glucopyranoside (15), darendoside B (16), 6-O-caffeoyl-β-D-fructofuranosyl-(2→1)-α-D-glucopyranoside (17), and sibirioside A (18). CONCLUSION: Compound 1 is new compound, and compounds 2-4, 12, 14, and 17 are isolated from this plant for the first time. Compounds 1, 12, and 13 show significant inhibition against nitric oxide production in LPS-stimulated BV2 cells model.

Chemical characterization of polysaccharides isolated from scrophularia ningpoensis and its protective effect on the cerebral ischemia/reperfusin injury in rat model.

This study was designed to investigate the chemical characterization of scrophularia ningpoensis polysaccharides (SNP) and its protective activity on the cerebral ischemia/reperfusin injury (CIRI) rats. SNP was successfully isolated and fractionated by anion exchange chromatography and gel filtration into different factions, namely SNP1, SNP2, SNP3, SNP2-A and SNP2-B. SNP2-A is consisted of mannose (Man), rhamnose (Rha), glucuronic Acid (Glu A), galacturonic Acid (Gal A), glucose (Glu), galactose (Gal), xylose (Xyl) and arabinose (Ara). The nervous defect symptoms, the brain infarct volume and brain water content of rats with CIRI were improved by pretreatment with SNP2-A. In addition, SNP2-A could increase SOD activities, but could reduce MDA, NO, NOS, IL-1ß and TNF-α levels in brain tissues of rats with CIRI. Additionally, the reductive ERK protein expression and the elevated JNK and p38 protein expression stimulated by CIRI were all ameliorated by pre-treatment of SNP2-A. The results indicate that the protective effect may be related to the improvement of SNP2-A on the antioxidant capacity of brain tissue, the inhibition of inflammatory cytokines overproduction and the amelioration of MAPK pathway such as JNK, p38 and ERK proteins. These data provided an information for mechanistic studies for polysaccharide neuroprotective effects in CIRI.

[Isolation and identification of endophytic fungi producing harpagoside and harpagide from Scrophularia ningpoensis].

The endophytic fungi from root,main stem,branch and leaf of Scrophularia ningpoensis were isolated from Zhejiang,whether these strains could yield harpagide or harpagoside were tested by HPLC and LC-MS. According to the morphological characteristic and the similarity of the nucleotide sequence of internal transcribed spacer( ITS) between r DNAs,the strains producing harpagide or harpagoside were identified. The results showed that 210 strains were isolated from the samples,which were classified into 9 orders,13 families and 17 genera by morphological study. Harpagide was detected in endogenous fungi ZJ17 and harpagoside was detected in endogenous fungi ZJ25 by HPLC coupled with LC-MS. ZJ17 was identified as Alternaria alternate and ZJ25 was identified as A.gaisen by its morphology and authenticated by ITS( ITS4 and ITS5 regions and the intervening 5. 8 S rDNA region).

[Preparation and quality standard of standard decoction of Scrophulariae Radix pieces].

The standard decoction of Chinese herbal decoction pieces is a standard reference substance to measure whether different dosage forms of Chinese medicine are basically consistent with those of clinical decoction,and provides new ideas and methods for effectively solving the problems of uneven quality in Chinese medicine dispensing granules. In this study,a systematic method for evaluating the quality of Scrophulariae Radix decoction was established from the perspective of " standard decoction",providing reference for the quality control of the Scrophulariae Radix dispensing granules. 15 batches of Scrophulariae Radix decoction pieces from different origins were collected,and 15 batches of standard decoctions were prepared according to the standardized process with water as solvent.Harpagide and harpagoside were used as quantitative detection indicators to determine the content,calculate the transfer rates and determine the extraction rate. The high performance liquid chromatography( HPLC) was used to establish a standard decoction fingerprint analysis method. The results showed that the transfer rates of harpagide and harpagoside in 15 batches of Scrophulariae Radix pieces standard decoction were( 70. 84±13. 39) % and( 48. 56±6. 40) % respectively; the extraction rate was( 57. 47±5. 89) %. Nine peaks were identified in the HPLC fingerprint,and the similarity was higher than 0. 97 between the fingerprints of 15 batches of standard decoction and the control fingerprint. In this study,the preparation process of standard decoction of Scrophulariae Radix pieces conformed to the traditional decoction preparation method. The sources of the samples were representative,and the established fingerprint method was stable and feasible,which can provide reference for the preparation and quality control of Scrophulariae Radix dispensing granules.

Infrared-assisted extraction followed by high performance liquid chromatography to determine angoroside C, cinnamic acid, and harpagoside content in Scrophularia ningpoensis.

BACKGROUND: Angoroside C, cinnamic acid, and harpagoside are bioactive constituents in Scrophularia ningpoensis. Currently, an infrared-assisted extraction (IRAE) method coupled with high-performance liquid chromatography with ultraviolet detection (HPLC-UV) for the analysis of bioactive constituents in this plant is lacking. METHODS: A method based on HPLC following IRAE has been developed for quantifying angoroside C, cinnamic acid, and harpagoside in Scrophularia ningpoensis. Four main factors, namely, extraction solvent, solid/liquid ratio, illumination time, and distance between the infrared lamp and the round-bottom flask, were optimized for extraction. Furthermore, conventional ultrasonic extraction (USE) and microwave-assisted extraction (MAE) were also investigated to validate the developed method. RESULTS: The optimal extraction conditions were as follows: ethanol concentration, 37.5%; solid/liquid ratio, 1:25; illumination time, 10 min; and distance between infrared lamp and round-bottom flask, 3 cm. The results of method validation demonstrated that the developed method meets the requirement of analysis. CONCLUSION: The results show that the IRAE-HPLC is a simple, accurate, and green analytical preparatory method for the potential extraction and quantification of angoroside C, cinnamic acid, and harpagoside in Scrophularia ningpoensis.