This paper was prepared to analyze and discuss the main content of the Botanical Drug Development Guidance for Industry by United States FDA's (the draft version of the 2015), especially focused on the guidelines for clinical research (mainly in late-stage clinical studies) recommendations and requirements sectiones. The key and difficult issues in the late clinic study were analyzed and discussed, and a series of countermeasures were proposed in this paper. At the same time, combined with the case of approved botanical drug products, analysis of the guidelines for the development of plant drug regulations, the enlightenment were presented in the last part, to guide the research and development of traditional Chinese medicine and the internationalization of Chinese medicine.

Neural stem cells (NSCs) posse the specialty of tumor tropism and be able to migrate specifically to tumor cells. NSCs are also cross the blood brain barrier. NSCs keep in touch with tumor cells preferentially under the tumor microenvironment, and surround the target cells. Based on these characteristics, NSCs can be used as a carrier for therapeutic virus, enzymes/prodrugs, genes or suicide genes, etc. which are selectively delivered to the glioma cells. NSCs may be modified by a variety of different genes to establish a reliable, safe and effective therapy for glioma.

L-Glutamate is an important amino acid in protein. It has many physiological functions, such as nutrient metabolism, energy supply, immune response, oxidative stress, and signaling pathways regulation. Recent studies have found that glutamate prevents gastrointestinal damage induced by non-steroidal anti-inflammatory drugs (NSAIDs) and promotes the healing of the lesions. It can inhibit colonization of Helicobacter pylori and cell apoptosis caused by NH₃. Hence, it has a potential value in protection of gastrointestinal from damage caused by NSAIDs and Helicobacter pylori. This article provides a review of the metabolism and physiological function of glutamate and its protective mechanisms of gastrointestinal injury caused by NSAIDs and Helicobacter pylori, which may serve as a reference in the study of glutamate in drug development.

The 26S proteasome is a 2.5 MDa complex of the protease family members and is central to a vast array of vital cellular processes including cell-cycle progression and antigen presentation. It has been proven to be a target for therapeutic agents in the treatment of cancers and autoimmune diseases. Most inhibitors are designed to target the 20S proteolytic core complex while the efforts to target the 19S regulatory particle subunits are less successful so far. This is, in part, due to the complexity of molecular architecture and poor understanding of the mechanism of this subcomplex. This review attempts to summarize the development of inhibitory molecules that target both the 20S and 19S subunits of the proteasome, especially highlight the recent progress in the proteasome structure and development of the new inhibitors.

Vascular endothelial growth factor receptor (VEGFR-2), a member of the super family of protein tyrosine kinase receptors, plays a vital role in the regulation of tumor metastasis and angiogenesis. Several VEGFR-2 inhibitors have been marketed as antitumor drugs and a range of inhibitors are undergoing clinical or preclinical studies. According to the principle of multi-targeted pharmacolgy, in the field of tumor treatment, nonselective drugs targeting on more than one kinase to inhibit different cell pathways can be more effective than drugs specific for one kinase. Multi-target treatment does not mean abandonment of selectivity, but a precise selectivity for several kinases related to tumor, which is also a big challenge in the development of small molecular antitumor drugs. This paper reviews briefly the advances in research of the VEGFR-2 inhibitors and selectivity strategy in recent years.

NMR-based metabolomics technique has been applied to botanical studies in recent years. The plant metabolites are complicated and various, metabolomics method can detect the global metabolomic profile of the plant to track valuable metabolites, and provide information for the research of plant physiology, metabolic pathways and functional genes. This paper reviews the application of NMR-based metabolomics technique in medicinal plants, including the biosynthetic mechanism and production of secondary metabolites, the improvement of yield or quality of medicinal plants, the development of effective active ingredient, the identification of medicinal plant species, and the quality control of herbal medicine. In addition, the potential development of this technique in future is discussed.

This study was designed to investigate the microRNA expression profile in human embryonic lung fibroblast 2BS cells upon salidroside (SAL) treatment, and predict the target genes of miRNAs and related pathways delaying cellular senescence. Samples were divided into three groups: young control (28 PD), old control (50 PD), and old+SAL (50 PD with SAL), RNA from three groups was used for miRNA microarray analysis. In late PD cells, 43 miRNAs were found significantly changed relatively to those in young cells, and 58 miRNAs were regulated by SAL. The miRNAs including hsa-let-7c, hsa-let-7e and hsa-mir-3620 were significantly down-regulated in late PD cells which could be reversed by SAL treatment. However, hsa-mir-411, hsa-mir-24-2-5p and hsa-mir-485-3p exhibited an opposite trend. Gene Ontology and Pathway analysis revealed that target genes were significantly enriched in 31 GO and 11 pathways. The microarray data was further validated with qRT-PCR. This research provides new clues regarding the underlying mechanisms of SAL on cellular senescence through miRNAs regulation.

This study was aimed to construct a "drug-target-pathway" network of Xuebijing injection for sepsis treatment in an effort to explore the "multi-components, multi-targets, multi-pathways" mechanism based on "system-system" research mode. Active ingredients of Xuebijing injection were used to predict the potential targets according to reversed pharmacophore matching method. The pathway information was acquired from DAVID and KEGG database. The Cytoscape software was used to construct the "ingredient-target-pathway" network of Xuebijing injection for sepsis treatment. The results showed that 21 major active ingredients of Xuebijing injection regulated 550 targets (HRAS, GSK3B, BTK, AK, et al) and affected 10 inflammation and immune-related pathways, such as B cell receptor signaling pathway, VEGF signaling pathway, natural killer cell mediated cytotoxicity, Toll-like receptor signaling pathway. The sepsis therapeutic effect of Xuebijing injection reflected the action features of traditional Chinese medicine as multi-ingredients, multi-targets, multi-pathways. This research clarifies the material basis of Xuebijing injection for anti-inflammation and immunoregulation, providing a scientific basis for elucidation the mechanism of Xuebijing injection in the treatment of sepsis.

Plumbagin (Plumbago zeylanica L.) has a wide spectrum of anticancer activity with a relatively lower toxicity. The molecular mechanisms of proliferation inhibition and apoptosis induction by plumbagin on esophageal squamous carcinoma cell lines may be important for the structure modification and clinical application of plumbagin. After treatment of KYSE-30, KYSE-70 and KYSE-140 cells with 0-20 μmol·L^-1 of plumbagin for 24, 48, 72 h, CCK8 was used to examine the proliferation, Annexin V and PI immunofluorescence staining for apoptosis, real-time PCR and Western blot for FoxM1 mRNA and protein expression, dual-luciferase reporter gene assay for the transcriptional activity of FoxM1, respectively. In addition, the relationship between anti-tumor effect of plumbagin and FoxM1 was investigated in vivo. Plumbagin significantly inhibited proliferation and induced apoptosis of esophageal squamous carcinoma cell in vitro and in vivo. Moreover, plumbagin down-regulated the expression of FoxM1 through suppression of its gene transcription. Our findings suggest that plumbagin may inhibit the proliferation of esophageal squamous carcinoma cell in vivo and in vitro through down-regulating the expression of FoxM1.

The aim of this research is to investigate the inhibitory effects of calpain inhibitors (ALLN and calpain inhibitor Ⅳ) on mammary epithelial-mesenchymal transition (EMT) of MCF-10A cells induced by fibronectin (FN). After FN treatment of MCF-10A cells for 48 h, cell migration and invasion were determined by scratch repair assay and matrigel coated transwell assay, respectively. Vimentin, E-cadherin, snail and calpain-2 protein expression were measured by Western blot. The results suggest that FN induced morphological changes in MCF-10A cells, significantly increased the migration and invasion abilities of MCF-10A cells, upregulated the expression of calpain-2, vimentin and snail, and downregulated the expression of E-cadherin. All such changes by FN were reversed with ALLN and calpain inhibitor Ⅳ. In conclusion, the upregulation of calpain-2 was involved in FN-induced EMT of MCF-10A mammary epithelial cells, which may be inhibited by ALLN and calpain inhibitor Ⅳ.

Tianlongtongxin (TLTX) formula is composed of six Chinese herbs including Rhodiola rosea L., Salviae Miltiorrhizae Radix et Rhizoma, Chuanxiong Rhizoma and so on. It has been mainly used in the treatment of chest-Bi syndrome in the clinics. To investigate the material foundation and provide reference for clinical dosage regimen, the pharmacokinetics of seven components in the rat plasma were studied after oral administration of TLTX. A high sensitive method was established to determine the seven active components from TLTX in rat plasma based on the LC-MS/MS technique. The method met the requirements of preclinical pharmacokinetic study, through the investigation of linearity, specificity, recovery, accuracy, precision and stability. After administration of TLTX at 4.5 g·kg^-1 dose, all of the components were detectable in the plasma after 5 min. The concentration peaks were observed at 0.11-4.67 h respectively after administration with great difference in levels. The AUC of salidroside was significantly higher than other components, suggesting it as a main active component in TLTX formula. The observations provide scientific evidence for the rationality of salidroside as monarch drug in the formula.

Eighteen novel levofloxacin-thiadiazole HDACi conjugates were designed and synthesized from levofloxacin. The chemical structures of all conjugates were confirmed by ¹H NMR, ¹³C NMR and HR-MS spectra. The inhibitory activities of new conjugates were evaluated in an assay with a HDACs reagent kit, and their anti-tumor activities were tested in CCK-8 assay. The results showed that these new conjugates displayed potent inhibitory activity against HDACs, and the hydroxamate conjugates exhibited more potent activity than carboxylic acid and benzamide derivatives. Specifically, conjugate 5d exhibited the most potent anti-HDAC1 (IC₅₀=0.031±0.011 μmol·L^-1) and HDAC6 (IC₅₀=0.019±0.006 μmol·L^-1) activities, which was more potent than SAHA. Molecular docking studies suggest that the hydroxamate group of conjugate 5d was deeply inserted into the active site to interact with the residues in coordination with the zinc ion. Additionally, the thiadiazole group of conjugate 5d also engaged in hydrogen bonding with F679 in HDAC6, which had been linked to the selectivity of the HDAC isoforms. Moreover, these conjugates displayed significant antiproliferative effects on SW620, MGC-803, PC-3, NCIH460, MCF-7 and HepG2 cells, in particular, conjugate 5d showed the greatest potency against MGC-803 (IC₅₀=0.7±0.05 μmol·L^-1), NCIH460 (IC₅₀=2.3±0.421 μmol·L^-1), MCF-7 (IC₅₀=1.6±0.56 μmol·L^-1) and HepG2 (IC₅₀=3.9±0.26 μmol·L^-1), which was >3-fold more potent than SAHA. Additionally, all conjugates were nontoxic to health GES-1 cells, while SAHA showed some toxicity.

HSP90 is widely expressed in cells with the main function in assisting the maturation of other proteins that are called clients. Many clients play critical roles in the occurrence and development of cancer. Inhibition of HSP90 can lead to degradation of the oncogenic proteins, and result in potent anti-cancer effects. HSP90-HOP interaction is critical for the chaperone function of HSP90, thereby disruption of the HSP90-HOP interaction is a novel strategy in the inhibition of HSP90. Based on the technology of homogeneous time-resolved fluorescence (HTRF), we developed a new assay for the identification of new inhibitors of HSP90-HOP interaction. This method was evaluated in the study of the HSP90-HOP inhibition activity of the pentapeptide MEEVD from HSP90 C-terminal and its derivatives. This study can provide a basis for the screening and discovery of novel HSP90-HOP disruptors.

A new phomapyrone derivative (1), and 9 known compounds were isolated from the ethyl acetate fraction of solid fermentation of Fusarium redolens, the endophytic fungus from Edgeworthia chrysantha, by using various isolation techniques such as Sephadex LH-20, MCI GEL and Semi pre-HPLC, etc. Their structures were identified by spectroscopic analysis, including MS, UV, CD, specific rotation, IR, 1D and 2D NMR, as (+)-7S-4-deoxy-9-hydroxyphomapyrone C (1), uracil (2), uridine (3), 2'-deoxyuridine (4), adenosine (5), 2'-deoxyadenosine (6), cordysinin B (7), ergosterol (8), ergosta-5α, 8β-epidioxy-6, 22-dien-3β-ol (9), and (22E, 24S)-3α-hydroxy-24-methylcholesta-5, 8, 22-trien-7-one (10).

In this study, we developed a qualitative analytical method based on liquid chromatography coupled with quadrupole time-of-flight tandem mass spectrometry (UHPLC-Q-TOF-MS/MS) for identification of multi-constituents of raw Fructus Arctii (RFA) and processed Fructus Arctii (PFA). We established a UHPLC-UV analytical method for simultaneously determining 6 major compounds in Fructus Arctii. UHPLC-Q-TOF-MS/MS qualitative analysis was performed under negative and positive ion modes and a total of 23 chemical compounds were identified. The analysis data were subjected to a principle component analysis with a t-test. Ten peaks were found to be the main difference (P < 0.05) between RFA and PFA. HPLC-UV quantitative method result showed the contents of 6 constituents were different between RFA and PFA. The results indicated that there was less arctiin, chlorogenic acid, isochlorogenic acid A in PFA than in RFA. However, there were higher levels of arctigenin, isochlorogenic acid B, isochlorogenic acid C in the PFA than RFA, which may be the main reason for different clinical efficacy of RFA and PFA.

Parthenolide is a sesquiterpene lactone derived from the plant feverfew (Tanacetum parthenium) that possesses multiple anti-inflammatory and anti-cancer properties. A specific, sensitive, accurate and precise LC-MS/MS method was developed and validated in the quantitative analysis of parthenolide in rat plasma. A liquid-liquid extraction method was used to separate the analyte and the internal standard (IS, costunolide) from plasma. A water-methanol mobile phase system was utilized in the gradient chromatographic separation. The calibration curve with good linearity (r² > 0.99) was established between 2 and 128 ng·mL^-1 with accuracy and precision within acceptable limits at different QC levels. High extraction recovery was achieved for both parthenolide (89.55%-95.79%) and IS (96.87%). Based on this LC-MS/MS method, the plasma stability and pharmacokinetics of parthenolide were assessed in rats. Parthenolide was proved to be very unstable in rat plasma, and was distributed and eliminated quickly in vivo, with a half-life less than 90 min. A high dose of parthenolide (80 mg·kg^-1) resulted in a very low initial concentration (138.86±21.07 ng·mL^-1). The systemic exposure of parthenolide (area under the curve) increased disproportionally from 40 mg·kg^-1 dose group to 80 mg·kg^-1 dose group. The present study may provide helpful information for the development of parthenolide as a drug candidate.

Due to the difference in structure and chemical properties of amino acids, it is difficult to determine amino acids with different properties by GC-MS. A method was established for the simultaneous determination of 20 amino acids by using ethyl chloroformate (ECF) as the derivatization reagent and adjusting pH 9-10 in the second derivatization in this study. The results showed that 20 amino acids were well separated and the compounds in the 2-20 μg·mL^-1 concentrations were detected with a good linear response correlation coefficient r² greater than 0.99. The results of precision and system adaptability show that RSD < 10%, the average recovery of samples in the 78.3%-109.9%. The results showed that the method was simple and easy to use, and the derivatization method could be carried out in aqueous solution. The derivatization product was stable with wide linear range, thus this method could be used for the determination of a variety of biological samples such as Astragalus mongolicus, mouse urine sample and mouse serum sample.

A rapid fluorescence polarization immunoassay (FPIA) has been developed for the determi-nation of aflatoxins in samples of naturally-contaminated herbal teas. The tracers were synthesized by chemical method and determined by thin layer chromatography (TLC) and mass spectroscopy (MS). Fluorescence polarization was evaluated by the detection of polarized light. The results showed that the limit of detection (LOD) of FPIA for aflatoxins was 20 ng·mL^-1, the IC₅₀ was 371.80 ng·mL^-1, and the linear range of the developed FPIA was 92.76-252.32 ng·mL^-1. Compared with conventional HPLC methods, the FPIA developed in this study has the advantages of short analysis time and low cost. This method may be suitable for high-throughput screening of aflatoxins in herbal teas.

The purpose of this study was to investigate the thermodynamics of naringenin (NAR)-isonicotinamide (INT) cocrystal (stoichiometric ratio, 1:2) formed in different solvents. The dissolution behavior of cocrystal was explored in the water. Solubility of NAR-INT cocrystals under various temperatures were measured, followed by fitting the complexation model to calculate the thermodynamic parameters solubility products (K_sp), complexation constants (K₁₂) and Gibbs energy change (ΔG) of cocrystal during formation progress. Ternary phase diagrams (TPDs) of the NAR-INT-solvent systems under various temperatures were plotted. Based on the non-linear simulation, 1:2 complexation model was well fitted to the NAR-INT cocrystal formation in ethanol, isopropanol and ethyl acetate, while no complexation model was more suitable for that in methanol. The cocrystallization reaction was exothermic and spontaneous (ΔG < 0, ΔH < 0, ΔS < 0). K_sp increased while K₁₂ decreased when increasing temperature, suggesting that the two components could cocrystallize more easily at the lower temperature. In comparison to TPDs in other solvents, the area of homogeneous liquid phase in ethyl acetate was the smallest, indicating the easiest formation of NAR-INT cocrystal in ethyl acetate. The current study provides a theoretical foundation for preparation and optimization of scale-up NAR-INT cocrystals.

In this study, we aim to develop a pH-sensitive transmembrane peptide TH (AGYLLGHINLHH LAHL (Aib) HHIL-Cys) modified liposome loaded with immunoadjuvant α-galactosylceramides (αGC-TH-Lip) and then investigate its effect on the immune function in tumor-bearing mice and its immune mechanism of action. The liposomes were prepared by membrane dispersion-probe ultrasound method and the size and zeta potential of αGC-TH-Lip were also characterized. The uptake of TH modified liposomes (TH-Lip) and polyethylene glycols modified liposomes (PEG-Lip) in DC2.4 cells in vitro were analyzed and the activation of natural killer T (NKT), natural killer (NK) and macrophages in tumor-bearing mice were also measured after systemic administrations of samples. Besides, the degree of maturation of dendritic cell (DC), the number of cytotoxic T lymphocyte (CTL) and the differentiation of helper T cell (Th) were determined. The results showed the particle size of αGC-TH-Lip was about 117.9 nm and the zeta potential was about-8.37 mV under the neutral condition (pH 7.4) and the αGC-TH-Lip had high serum stability in 50% fetal bovine serum. The uptake of TH-Lip in DC2.4 cells in vitro was 1.48 times higher than that of PEG-Lip. After systemic administrations of the samples, the numbers of NKT cells, NK cells and macrophages in tumor-bearing mice were (0.43±0.048)%, (12.80±0.50)% and (3.13±0.26)%, respectively, and the number of mature DCs and CTLs reached (2.30±0.22)% and (32.30±0.80)% separately, which was significantly different from the con-trol group. Finally, we discovered the αGC-TH-Lip had the strongest induction effect on the differentiation of Th1 cells, while barely promote the differentiation of Th2 cells. All the above results demonstrated that the αGC-TH-Lip can improve the immune the activity of mice, enhance the effect of α-galactosylceramide and promote the differentiation of lymphocytes toward the direction of cellular immunity, which consequently achieve a better anti-cancer immune activity.

Polar auxin transport gene PIN (PIN-FORMED) determines the concentration gradient of auxin and plays an important role in development and secondary metabolism of plants. This study was designed to analyze the bioinformatics and expression of the PIN genes in Panax ginseng to explore a novel way of breeding ginseng varieties. Heatmap and cluster analysis of PIN2, PIN3, PIN6 was performed in four-year-old Jilin ginseng. Sequence homology alignment, RT-PCR amplification, sequencing and bioinformatics analysis were used to identify three PIN family genes PgPIN2, PgPIN3 and PgPIN6 in P. ginseng. PIN expression in ginseng adventitious root and culture seedling was analyzed with qRT-PCR technique. Results suggested that in ginseng adventitious root tip, PgPIN3 and PgPIN6 exhibited a high level of expression; in ginseng culture seedling root, PgPIN2 showed a high level of expression; in four-year-old Jilin ginseng at the fruit ripening stage, PgPIN2 and PgPIN6 were highly expressed in root and rhizome, while PgPIN3 had a high level in ginseng leaf, fruit and root. Tissue specific expression profile showed that PgPIN2 and PgPIN6 probably were involved in the development and tropism growth in ginseng roots, while PIN3 might be in relation to the growth and development of the aerial part of plants.

Persicae semen has been used for years as a traditional Chinese medicine to treat diseases. Because of their similar morphologies, Persicae semen was commonly inadvertently mixed with Armeniacae semen amarum (a toxic herbal seed). Development of a reliable method for discriminating Persicae semen from its adulterant is necessary to reduce confusion for the drug safety in clinical practices. This study evaluates the efficiency of high-resolution melting (HRM) combined with internal transcribed spacer 2 (ITS2) to analyze Persicae semen. Our findings show that HRM allows not only the identification of adulteration but also the quantification of the most common admixture. HRM sensitivity in adulterant detection was assessed through the analysis of mixing samples with different proportions of Prunus persica and Prunus armeniaca control. The results are presented as a linear regression with r of 0.96 and imply the capability of the method to detect adulteration. In particular, HRM detected seeds of Prunus persica in Prunus armeniaca at concentrations as low as 1%, and commercial products labeled as 'Persicae semen' were purchased from markets and could rapid authenticated by HRM analyses. This study is significant in the verification of the authenticity in the quality control of herbal medicine. In the near future, it is promising to be the main trend for identifying traditional Chinese medicinal materials.