Wu-tou decoction (WTD) and Baihu-Guizhi decoction (BHGZD) as described in the Synopsis of the Golden Chamber have been used extensively for the treatment of rheumatoid arthritis (RA) with apparent therapeutic efficacy. However, characteristics of pharmacological effects and their underlying molecular mechanisms have not been fully elucidated due to a lack of appropriate scientific methodology. In the current study, we performed an integrative approach applying gene expression profiling and network analysis to examine the therapeutic effects and molecular mechanisms of WTD and BHGZD based on adjuvant-induced arthritis (AIA) animal model. Results demonstrated that both WTD and BHGZD could relieve the severity of arthritis in AIA rats, while the significant differences were observed in the changes of the withdrawal response scores and latency time of AIA rats treated with WTD and BHGZD. Mechanistically, our network pharmacology-based investigation demonstrated that the major candidate targets of WTD and BHGZD were significantly associated with several inflammation-immune regulatory pathways, such as Toll-like receptor signaling pathway, T cell receptor signaling pathway, cytokine-cytokine receptor interaction, chemokine signaling pathway, B cell receptor signaling pathway, antigen processing and presentation, Fc epsilon RI signaling pathway, natural killer cell mediated cytotoxicity, as well as leukocyte transendothelial migration. In particular, the major candidate targets of WTD were also involved in the regulation of hormone and energy metabolism, which might be imbalanced during RA progression. In conclusion, the current study revealed differences and similarities regarding the effects and network regulatory mechanisms of WTD and BHGZD. These findings may present a scientific basis for elucidation of mechanisms by which WTD and BHGZD alleviates RA.

Jiawei Foshou San is a new Chinese medicine compound consisting of ligustrazine, ferulic acid and fumarate. Previously Jiawei Foshou San inhibited the growth of endometriosis with unclear mechanism, especially in metastasis and invasion. In this study, network pharmacology analysis was performed to explore potential mechanism of Jiawei Foshou San on endometriosis. Jiawei Foshou San compound targets were purchase from TCMID, TCMSP and SEA database. Endometriosis targets were collected from OMIM, DisGeNET and GEO database. Networks of Jiawei Foshou San compound-compound targets and compound target-endometriosis target were established with Cytoscape 3.5.0 software. Key targets were analyzed for pathway enrichment through DAVID database. It was found that Jiawei Foshou San regulated 66 core targets (MMP2, MMP9, TIMP1, ICAM1, VEGFA, et al.) and affected 115 pathways, such as estrogen, HIF-1, TNF and GnRH signaling pathways. MMP-TIMP were uncovered as one cluster of the core targets. Furthermore, Jiawei Foshou San significantly suppressed the growth of ectopic endometrium. Meanwhile, invasion and metastasis were restrained after treating with Jiawei Foshou San through decreasing MMP-2 and MMP-9, increasing TIMP-1. In brief, these results provide a pharmacodynamic basis for the study of Jiawei Foshou San.

This study was designed to explore the anti heart failure mechanisms of the compatibility of Gualou with Xiebai based on network pharmacology in rat model of myocardial ischemia-reperfusion injury. Using the databases of Traditional Chinese Medicine Database@Taiwan (TCM Database@Taiwan), Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform (TCMSP), Drug Repositioning and Adverse Drug Reaction Chemical-Protein Interactome (DRAR-CPI) and Universal Protein Resource (Uniprot) to screen compounds and predict the target of active components, the Database for Annotation, Visualization, and Integrated Discovery (DAVID) database, we predicted the biological pathway and signal pathway in the compatibility of Gualou with Xiebai. The effects of Gualou Xiebai dropping pills on the apoptosis of myocardial cells and the expression of protein kinase B (Akt), p-Akt and cysteine aspartate-specific proteinase (caspase-3) protein were examined in the related signal pathway phosphatidylinositol-3-kinase/protein kinase B (PI3K/Akt) of myocardial ischemia reperfusion injury in rats. Twenty two compounds, such as 10 α-cucurbita-5, 24-diene-3β-ol and macrostemonoside were found to protect rats from heart failure through multiple targets, multiple biological pathways and multiple pathways, involving biological pathways such as hormone stimulation reaction, phosphorylation, apoptosis regulation, and signaling pathways such as insulin, mitogen-activated protein kinase (MAPK), cell apoptosis and so on. After the intervention of Gualou Xiebai dropping pills, the PI3K-Akt signaling pathway was activated to promote the phosphorylation of Akt protein, reduce the expression of caspase-3 protein, inhibit apoptosis and protect the myocardium. The data verify the results of the network pharmacology, and explain the mechanisms of anti-heart failure activity of combination of Gualou with Xiebai.

By using the integrated pharmacology platform and the big data of traditional Chinese medicine combined with the pharmacology thinking of "principle-recipe-composition-target-pathway-activity" in this study, we predicted the material basis and mechanisms of Bupleuri Radix and Scutellariae Radix drug pair for the treatment of diabetes. Fifty-nine active components were predicted, which included saponins, flavones, essential oil, fatty acids and so on. They acted on twenty-two direct targets and twenty-six main pathways respectively.The known disease targets of diabetes include arginine vasopressin receptor gene (AVP), retinoblastoma (RB1), receptor active modified protein (RAMP), platelet growth factor receptor (PDGFR), insulin receptor (INSR), α-glucosidase (GAA), etc. The pathways with diabetes effect involves endocrine system, circulatory system, digestive system, thyroid hormone signaling pathway, ErbB signaling pathway, PI3K-Akt signaling pathway, lipid metabolism and other related biological processes and metabolic pathways. The results of virtual screening in molecular docking technology indicate that flavonoids from Bupleuri Radix and Scutellariae Radix drug pair can easily form good docking mode and high affinity with peroxisome proliferators activated receptor γ (PPAR-γ) and glycogen synthase kinase-3β (GSK-3β), showing antidiabetic activity. The study provides information for the treatment of diabetes by Bupleuri Radix and Scutellariae Radix drug pair, and a new thought for the study of drug pair and complex prescription.

The medication rules of high frequency herb-pairs containing Codonopsis pilosula (Dangshen) were analyzed with data mining tools, and the molecular mechanisms of these herb-pairs on the gastrointestinal diseases were predicted with the network pharmacology. The R language association rules were used to mine the high frequency herb-pairs from TCM formulae containing Dangshen, and these herb-pairs would be screened out, which satisfied the following requirements with support ≥ 0.3 and confidence ≥ 0.9 at the same time. Using the Integrated Pharmacology Platform of Traditional Chinese Medicine (TCMIP) to predict the key core targets of the high frequency herb-pairs, the network of Chinese medicine-compound-target-pathway related to Dangshen were built to explore the preventing and treating molecular mechanism on gastrointestinal diseases. At last, the relation of the main active components from Dangshen and its herbal pairs with target proteins were validated by Systems Dock Web Site. The 185 formulae were selected from 543 formulae containing Dangshen, and 6 herbal pairs with Dangshen, which includes Angelica (Danggui), Licorice (Gancao), Atractylodes macrocephala (Baizhu), Poria cocos (Fuling), dried tangerine peel (Chenpi) and Astragalus membranaceus (Huangqi), were discovered with Apriori algorithm. The combination of 6 herbal pairs is similar to Bu Zhong Yi Qi Decoction; 6 herbal pairs with Dangshen were related to the target of POMC, OPRM1, CCR9 and HTR2C in TCMIP. The known targets (HTR2C, POMC, OPRM1, CCR9, OPRD1) and potential drug-targets (GNB1, GCK, SDHD, SLC25A2, DHRS4) for gastrointestinal diseases were predicted about the high frequency pairs with Dangshen. The results of GO enrichment analysis showed that the biological function was mainly located in the mitochondria and myelin sheath, and involved in the biological processes of three carboxylic acid cycle, platelet activation, and aspartic acid metabolism. KEGG pathway enrichment analysis showed that the main metabolic pathways related with Dangshen pairs involved amino acid metabolism, energy metabolism and endocrine metabolism. The prediction results showed many targets of the frequency herbal pairs with Dangshen preventing and treating gastrointestinal diseases were related with nerve cells. These herbal pairs could prevent and treat the gastrointestinal diseases through the neuroendocrine system and the brain gut axis.

This study was designed to explore the mechanism of total flavonoids of Astragali Radix (TFA) in treating nephrotic syndrome through establishing the active components-targets network and protein-protein interaction (PPI) networks and analyzing the functions and pathways involved in the targets. The main active ingredients of TFA were obtained by ¹H NMR and LC-MS, TCMSP and TCMID database. PharmMapper, SEA, SIB, HOME-NCBI-GENE, GeneCards and OMIM were used to predict and screen the active components of TFA. The Cytoscape software was used to construct the active components-targets network and protein-protein interactions network. The relation between the main active ingredients and targets were validated by Systems Dock Web Site. The GO and KEGG pathways involved in the targets were analyzed by ClueGO software. The target organ distribution was assigned by the BioGPS database. The results showed that 29 active components and 50 targets of TFA were screened and predicted. The network results showed that the TFA were mainly involved in biological processes such as inflammatory reaction process, oxidative stress process, apoptosis and autophagy, and played a role in the regulation of AGE-RAGE, PI3K/Akt, VEGF, IL-17 and MAPK signaling pathways to treat the nephrotic syndrome. This study reflects the characteristics of multi-components, multi-targets and multi-pathways of TFA, which provides new ideas and clues for further research on the mechanism of anti-nephrotic syndrome effects of TFA.

The aim of this study was to discover the pharmacological mechanism of Compound Xueshuantong in the treatment of diabetic retinopathy using network pharmacology. TCMSP software was used to search the active ingredients of Compound Xueshuantong, and the targets of its active ingredients were obtained. The targets of diabetic retinopathy were searched by OMIM, TTD, pharmGkb, DiGSeE and GAD database. The same 37 targets were analyzed by GO and KEGG using DAVID software. The results were verified using the SystemsDock. Cytoscape 3.6.1 software was used to establish an ingredient-target-pathway network model. Network pharmacological studies suggest that Compound Xueshuantong treated diabetic retinopathy through the vascular endothelial growth factor signaling pathways, mitogen-activated protein kinase signaling pathways and Toll-like receptor signaling pathways. Compound Xueshuantong alleviated diabetic retinopathy through multi-component, multi-target, and multi-pathway. This study provides a theoretical basis for further elucidation of the pharmacological mechanism of Compound Xueshuantong in the treatment of diabetic retinopathy.

This study was designed to explore the impact of Huanglian Jiedu Decoction (HLJDT) on macrophage inflammation reaction using the network pharmacology method. Glycolysis, sphingolipid metabolism and glutamine metabolism were also investigated for "multi-component, multi-target and multi-pathway", which supports a foundation for drug innovative research. The TCMSP database was used to screen the active components of HLJDT, the target protein predicted by PharmMapper database and the DAVID database for pathways annotation and analysis. The Cytoscape 3.2.1 software was used to construct the active componenttarget-pathway network map and GENEMANIA database for protein interaction analysis. System Dock Database Site is used in verification of molecular docking. The results showed that 84 active ingredients were screened in HLJDT with a total of 111 target targets. Fourteen pathways are affected according to 13 macrophage-related inflammatory proteins, and 8 pathways including 34 target proteins from glycolysis, sphingolipid metabolism and glutamine metabolism. Inflammation-related proteins and metabolism-related proteins can interact with each other through physical correlation, protein co-expression, etc. Berberine, baicalin and geniposide combined well with 5 important targets. Huanglian Jiedu Decoction may act on the glycolysis and sphingolipid pathways to regulate macrophage inflammatory responses.

The study was designed to explore the active components and mechanism of Kai Xin San in the treatment of Alzheimer's disease (AD) based on network pharmacology. All targets related to AD were researched in the Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform (TCMSP) and Therapeutic Targets Database (TTD). The common targets obtained by two databases were determined as candidate proteins involved in AD. All active components related to Kai Xin San were researched from ADME (absorption, distribution, metabolism and excretion). PharmMapper was used to obtain the primary candidate targets of Kai Xin San. The corresponding gene name of each target protein was obtained from the UniProt database and selected human target proteins. Finally, the target proteins related to AD by Kai Xin San were acquired; Cytoscape 3.5.1 was used to construct the topology analysis for the active ingredient-AD target interaction network of Kai Xin San. According to STRING database and DAVID annotation databases, Gene Ontology enrichment analysis and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis of the targets was performed. The network pharmacology analysis results were verified by Discovery Studio molecular docking software. There were 31 components meeting the conditions of ADME and 8 targets relating to AD. Thirteen kinds of biological process, 7 related to molecular function and 11 related to cellar components, were included in 31 GO entries. There were 5 KEGG pathways, involving the calcium signaling pathway and PI3K-Akt signaling pathway. The docking results of Discovery Studio showed that active ingredients of Kai Xin San and the positive controls all have good binding activity with important targets. In conclusion, the Kai Xin San as applied for treating AD has the advantages of multi-components and targets, to investigate the active components and mechanism of Kai Xin San for treating AD based on network pharmacology to eludicate possible studies of the mechanisms of action.

Hemorrhagic transformation (HT) is a common complication of ischemic stroke, especially after thrombolytic therapy, which is associated with increased morbidity and mortality. Thrombolysis with tissue plasminogen activator (t-PA) increases the rate of HT by as much as 10-fold, and the mortality by about 60%. The patients who are eligible for t-PA treatment are still between 3.4% and 5.2% of all patients with acute ischemic stroke because of the narrow therapeutic time window. Due to the unknown mechanism and therapeutic target of HT, there are no effective drugs to decrease the incidence of HT. The main mechanism of HT is disruption of the blood-brain barrier (BBB) integrity and neurovascular homeostasis, involving a variety of molecular signaling pathways. In animal and clinical studies, combining therapeutic agents with t-PA, which may help to minimize BBB perturbations, reduces the incidence of HT and increases the safety of thrombolytic therapy. This article is prepared to review the mechanisms, targets and therapeutic drugs of t-PA induced HT in recent years to provide a reference to the basic research and drug development of HT.

Fructose 1, 6-bisphosptase (FBPase), a second rate-limiting enzyme in gluconeogenesis, has an important role in the control of gluconeogenesis, which involves in energy metabolism and glucose homeostasis. Inhibitors of FBPase exhibit an anti-diabetic activity. Some of FBPase inhibitors have entered the stage of clinical trials, which indicates that FBPase is a promising therapeutic target for the discovery and development of hypoglycemic drugs. In addition, recent studies have shown that FBPase can be used to treat other diseases such as the initiation and development of tumors in several cancer types. Here, we provide a review of the biological characteristics of FBPase and contributions of FBPase on gluconeogenesis and insulin secretion, the research and development of FBPase inhibitors and the regulatory role of FBPase in other diseases.

Gold nanoclusters (AuNCs) are gold atom aggregates less than 2 nm (excluding the ligand shell) or 150 atoms. It has been widely studied due to its small size effect, fluorescence property, and catalytic activity. In this review, research progress in the preparation of gold nanoclusters containing accurate atom numbers using biomolecules and chemically synthesized molecules as ligands have been summarized. The factors that affect the preparation of gold nanoclusters have been discussed. The applications of AuNCs having accurate atomic numbers in the fields of analyte assay, catalysis, bioimaging, and drug delivery have been introduced. This review provides references to the further researches on the preparation technology and biomedical applications of AuNCs.

Dendrobium officinale is a member of the family Orchidaceae. The dried stem of D. officinale is used as a valuable traditional Chinese medicine, known as Dendrobii Officamlis Caulis (called TiepiShihu in Chinese). According to Chinese Pharmacopoeia, Dendrobii Officamlis Caulis has effects of tonifying stomach, promoting fluid, nourishing Yin and clearing heat. At present, the planting area of D. officinale is over 100 000 Mu (over 6 670 hm²) and the annual output of its fresh stem is in excess of 10 000 tons. Good variety is the guarantee of herbal medicine's quality, while germplasm resource is the base for breeding excellent variety. In this paper, we summed the characteristics of present main varieties of D. officinale and reviewed the progress on germplasm resources and genetics and breeding of the plant, in order to provide a scientific basis for the further research.

This study was designed to investigate the therapeutic effect of novel compound Z-9-octadecenyl-2-propanesulfonamide (N15) on diabetes-associated cognitive decline (DACD). Type 2 diabetes (T2DM) mice models were established with multiple injection of low doses of streptozotocin (STZ) in mice on high fat diet (HFD). Vehicle and different concentrations of N15 (50 and 100 mg·kg^-1·d^-1) were administrated orally for 6 weeks. The step-down test, dark avoidance task and Morris water maze were conducted at the 6^th week. The level of glucose and lactic acid in hippocampus were determined and mRNA of growth associated protein-43 (GAP-43), synaptophysin (SYN), brain derived neurotrophic factor (BDNF) and neurotrophins-3 (NT-3) in hippocampus were analyzed by real time PCR. The beneficial effects of N15 on learning and memory were found in the test of step-down, dark avoidance and Morris water maze. N15 reduced the level of glucose and lactic acid in hippocampus of HFD+STZ-induced diabetic encephalopathy model mice. Additionally, the mRNA expression of GAP-43, SYN, BDNF and NT-3 in hippocampus of HFD+STZ-induced diabetic encephalopathy mice were significantly increased by N15 (P < 0.01). These results suggest that the novel compound N15 can ameliorate diabetes-associated cognitive decline and the potential mechanism may be associated with the expressions of increased synaptic-related factors and neurotrophic factor in the hippocampus of diabetesassociated cognitive decline in mice.

The purpose of this research is to investigate the effects and mechanisms of paeonol (PL), a phenolic compound found in many traditional Chinese formulations, on reversing drug resistance in the ovarian cancer resistant SKOV3/DDP cells. The results showed that PL had significant drug-resistant reversal effect on SKOV3/DDP cells. Flow cytometry showed that PL could inhibit P-glycoprotein (P-gp) function in a concentration-dependent manner. Fluorescent quantitative PCR and cell immunofluorescence techniques were used to detect mechanisms of action. Results revealed that both the inhibitory effect on MDR1/P-gp and metadherin (MTDH) expression and the induction effect on phosphatase and tensin homolog (PTEN), by 15, 30, and 60 μmol·L^-1 PL, were increased with increased concentrations of PL (P < 0.01, P < 0.05). The inhibitory effect on MTDH mRNA and the induction effect on PTEN mRNA, by PI3K inhibitor LY294002, were stronger or equivalent to that of the 60 μmol·L^-1 PL treated group; however, the inhibition or induction effect on MTDH or PTEN protein were only comparable to the 15 μmol·L^-1 PL treated group. The present study shows that the effect of PL on SKOV3/DDP cells may be related to the inhibition of P-gp function and expression, the inhibition of MDR1, MTDH expression, and the induction of PTEN expression, all which can provide a theoretical foundation for PL as a drug resistance reversal agent on the treatment of ovarian cancer chemotherapy resistance.

Thiochromanones and 1, 3, 4-thiadazoles as heterocyclic compounds have broad biological activities. In order to find novel compounds with antifungal activity, we synthesized a novel series of (E)-3-(((1, 3, 4-thiadiazol-2-yl) amino)methylene)-thiochroman-4-ones. Structures of these compounds were established by HR-MS, ¹H NMR, ¹³C NMR and 1D-noesy. All of the synthesized compounds were screened for antifungal activity by using an established agar double dilution method (plate method) against ten fungi species in vitro. Compound 5j showed significant inhibitory activity to Colletotrichum capsici, Rhizoctonia cerealis and Aspergillus niger compared with that of the positive control carbendazim. Compounds 5h exhibited better antifungal activity to Canidia albicans and Aspergillus funigatus than the positive control fluconazole, in which the minimum inhibition concentration can reach 8 μg·mL^-1 and 16 μg·mL^-1. Moreover, the molecular docking method was used to study the interaction mode of compound 5h and CYP51, and the results will be helpful for designing of CYP51 inhibitors in the future.

Seven cucurbitane-type triterpenoids were isolated from the ethanol extract of the tubers of Hemsleya dolichocarpa, with a combination of various chromatographic approaches, including silica gel, Sephadex LH-20, Semi-HPLC and so on. On the basis of spectroscopic data analysis, they were identified as 3β, 11α, 26, 27-tetrahydroxycucurbita-5, 24(E)-diene-3, 26-glucosides (1), scandenogenin D (2), jinfushanencin F (3), scandenoside R3 (4), scandenoside R₁ (5), scandenogenin A (6), scandenoside R₂ (7). Among them, compound 1 is a new triterpenoid, compound 2 showed remarkable activity against human cancer cell line HeLa with IC₅₀ value of 6.78 μmol·L^-1.

An analytical method was developed for determination of ginkgolic acids in Yinxing Tongzhi Dropping Pills by ultra high performance liquid chromatography-triple quadrupole mass spectrometry. The samples were purified by mix-mode anion exchange and reversed-phase SPE. A chromatographic column, Waters Cortecs T3 (50 mm×2.1 mm, 2.7 μm), was used with acetonitrile-methanol-1% acetic acid (44:44:12) as the mobile phase. The ginkgolic acids were detected by electrospray ionization mass spectrometry in negative mode with multiple reaction monitoring (MRM) mode. Ginkgolic acid C13:0, C15:1 and C17:1 possessed good linear correlation in the mass concentration range from 0.2 to 200 μg·L^-1, 2 to 200 μg·L^-1, 4 to 200 μg·L^-1, respectively, with the correlation coefficients more than 0.999. The mean recoveries at spiked levels of 50, 250 and 600 μg·kg^-1 were in the range of 70.8%-95.1%, and the RSDs were 0.7%-8.6%. The limits of quantification were 1, 10, 20 μg·kg^-1, respectively. The method could be applied to the analysis of ginkgolic acids in complex matrix samples.

An ultra-performance liquid chromatography quadrupole time-of-flight mass spectrometry (UHPLC-Q-TOF/MS) method was established to identify the metabolites in rat plasma after oral administration of Zhikebao tablets. The high-resolution mass spectrometer was operated in positive and negative ion mode, respectively. First, full-scan was applied, which was dependent on a multiple mass defect filter (MMDF) combined with dynamic background subtraction (DBS). These were utilized to trigger the information dependent acquisition (IDA) function in the experiment. For the IDA criteria, the eight most intense candidate ions of per cycle were selected to do a product ion scan. Then Metabolite Pilot 2.0 software was utilized to load data to seek possible metabolites. The analytical models employed by Metabolite pilot 2.0 were established for representative compounds of the Papaveris Pericarpium and licorice in Zhikebao tablet. Finally, metabolites were identified according to accurate mass measurement and retention time. 38 components from the rat plasma after oral administration of the drug have been found, including 5 prototype opium alkaloids, liquiritin, glycyrrhizic acid and 31 relative metabolites. The metabolic transformation of Zhikebao tablet in rats was mainly induced by glucuronidation, sulfation, methylation, amine to carboxylic acid, hydrolysis and so on. In this paper, the metabolites of the main active components of Zhikebao tablet were tentatively identified, and the metabolic pathway was compared with that of single chemical drugs. Moreover, it laid the fundamental elucidation of further metabolism study of Zhikebao tablet or other compound traditional Chinese medicine preparations which containing Papaveris Pericarpium or licorice.

The particle diameters of active pharmaceutical ingredient (API) and excipients are important factors to the quality of preparations and have great significances in the reverse engineering to brand products and the consistent evaluation of generic drugs. In this study, a novel method was established for particle size determination to identify the selected component and eliminate other interferential particles by comparing the microscopic images before and after fusion caused by controllable heating. Stearic acid (SA) particles in irregular and spherical shape were selected as a typical excipient to demonstrate the methodology, which were identified from the mixed particles based upon its melting characteristics to detect their particle sizes as well as the size distributions. In the same approach, the morphology and particle size of fenofibrate particles as API in tablets were analyzed. The results illustrated that the particle diameters and particle size distributions of the selected components in the mixture of particles can be detected via the hot-melting characteristics under the prerequisite of proper pretreatment to separate selected components from other particles in microscopic field. In conclusion, this research provides a practical approach for the reverse engineering purpose to brand products and the consistent evaluation of generic drugs.

The objective of this study is to develop an in vitro screening method for nasal absorption of insulin. First, the adaptability of in situ rat nasal perfusion test for the study of insulin was investigated. It was found that insulin was liable to be absorbed on the silicone tube and the traditional method is not suitable. However, addition of 0.001% Labrasol into the perfusate can effectively solve this problem. A modified method suitable for in situ rat nasal perfusion of insulin was established with the addition of 0.001% Labrasol into the perfusate. Using the modified method, effect of pH and drug concentration on the absorption of insulin in the nasal cavity was further investigated. The results suggest that compared with pH 4.5 and pH 7.4, the drug absorption rate was the lowest at pH 6.0. The intranasal absorption mechanism of insulin may be passive diffusion.

Topically applied traditional Chinese medicines (TCM) generally show low transdermal rates and doses, leading to weak therapeutic efficacy. Here, cataplasm of white mustard seed varnish was prepared. The effects of iontophoresis and sonophoresis on the transdermal delivery of this TCM and its anti-asthma effect were evaluated. Active components of white mustard seed, rhizoma corydalis and Radix Kansui were obtained after alcohol extraction, respectively. The volatile oil in Asarum Heterotropoides were obtained with volatile oil extraction equipment. The drug loading ratio of cataplasms was 17% (w/w). Franz cell diffusion method was used to evaluate the accumulated permeation amount and the steady-state transdermal absorption rate of sodium thiocyanate. The improvement of sonophoresis on transdermal absorption was higher than that of iontophoresis.Asthma model of guinea pigs were established. Cataplasms of white mustard seed varnish were applied on the back of guinea pigs. Iontophoresis and sonophoresis obviously promoted the transdermal absorption and enhanced anti-asthma efficacy of white mustard seed varnish cataplasms. Pathological analysis showed that iontophoresis and sonophoresis significantly alleviated inflammation. Compared with the model group, IL-4 and IgE levels in the cataplasm group, cataplasm/iontophoresis group, cataplasm/sonophoresis group decreased obviously, although the IFN-γ levels markedly increased. Moreover, the therapeutic efficacy of cataplasm/sonophoresis group was the best in all the groups, even leading to levels similar to that of healthy animals. Iontophoresis and sonophoresis are effective methods to promote transdermal absorption of cataplasms. Moreover, the effect of sonophoresis is higher than that of iontophoresis. Physical penetration improvement techniques provide a novel insight for the wide application of transdermal TCM.

UDP-glycosyltransferase PgUGT74AE2 from Panax ginseng can transfer a glucose moiety to the free C-3 hydroxyl of protopanaxadiol (PPD) to produce ginsenoside Rh2. However, no report demonstrates that PgUGT74AE2 can transfer a glucose moiety to the free C-3 hydroxyl of protopanaxatriol (PPT) to produce a PPT-type ginsenoside. In this study, the expression plasmid pET-32a-PgUGT74AE2 was constructed for expression of the recombinant protein and transferred into Escherichia coli Transetta (DE3) to generate the recombinant strain Transetta-PgUGT74AE2. The recombinant enzyme PgUGT74AE2 was expressed by induction of isopropyl-β-D-thiogalactoside (IPTG). An in vitro enzymatic reaction system was established with the recombinant enzyme PgUGT74AE2 and the substrate PPT. PgUGT74AE2 catalyzed the glycosylation of the free C-3 hydroxyl of PPT to produce 3-O-β-D-glucopyranosyl-dammar-24-ene-3β, 6α, 12β, 20S-tetraol, a new PPT-type ginsenoside. This study provides an efficient approach for the biosynthesis of a new PPT-type ginsenoside through in vitro enzymatic reaction, which may pave a way to produce promising lead in drug discovery.

Farnesyl pyrophosphate synthase of Alisma orientale (Sam.) Juzep. (AoFPPS) is considered as one of the important rate-limiting enzymes in the biosynthetic pathway of protostane triterpenes. In order to investigate the expression and function of AoFPPS, the gene (accession No. HQ724508) was cloned into a bacterial expression vector pCzn1, then the combined plasmid pCzn1-AoFPPS was transformed into Escherichia coli BL21, and a fusion protein was obtained after induction. The fusion protein was purified by Ni resin, and the function was verified through in vitro enzymatic reaction. High performance liquid chromatography (HPLC) analysis revealed that the products were able to catalyze the synthesis of farnesyl pyrophosphate (FPP). High purity recombinant protein was used to immunize New Zealand rabbits to generate a polyclonal antibody. The titer of the antibody was determined by enzyme linked immunosorbent assay (ELISA), and Western blot results demonstrated that the antibody could specifically recognize the AoFPPS protein in A. orientale (Sam.) Juzep. So, the method of rapid immunoassay to detect AoFPPS was established. This study lays the foundation for further study of the AoFPPS gene expression, regulation and mechanism of action in A. orientale (Sam.) Juzep., and it also provides a scientific basis on improving the quality of Alismatis Rhizoma using the plant genetic engineering.