To explore the application of an effect-constituents index (ECI) for the quality evaluation of rhubarb, we carried out the simultaneous determination of 12 chemical components by ultra-performance liquid chromatography and used the ICR mouse constipation model to determine the diarrhea biopotency of these 12 components. With the diarrhea biopotency of sennoside A as a reference, the diarrhea biopotency weight coefficient of each chemical component was obtained. A multi-component chemical quantitative analysis combined with the biopotency weight coefficients for rhubarb was developed, named the diarrhea ECI. Animal experiment ethics requirements were approved by the Animal Experimental Ethics Committee of the 302 Hospital of the People's Liberation Army (Grant Number:IACUC-2015-012). The results showed that there were significant differences in the content of the 12 chemical components in different batches of processed products of rhubarb. Especially worthy of attention was the content of aloe-emodin-8-O-β-D-glucoside in sample Rh03, nearly 40-fold higher than that in Rh07 (4.79 vs 0.12 mg·g^-1), and the content of rhein-8-O-β-D-glucoside in sample Rh03, nearly 45 times higher than that in Rh07 (3.56 vs 0.08 mg·g^-1). The actual measured diarrhea biopotencies of the 12 chemical components ranged from 61.65 ±4.28 to 233.84 ±5.58 U·mg^-1. The calculated diarrhea effect-constituents indices of 16 rhubarb samples ranged from 1.07 (Rh15) to 19.38 (Rh03), and the actual measured diarrhea biopotencies of 16 rhubarb samples based the ICR mouse constipation model ranged from 23.84 U·g^-1 (Rh16) to 310.94 U·g^-1 (Rh05). The correlation between the diarrhea ECIs and the actual measured diarrhea biopotencies of 16 rhubarb samples was good (r=0.969 5), suggesting that the diarrhea effect-constituents indices may be the most suitable for evaluating the quality of different rhubarbs with regard to diarrhea.

We established a quality evaluation method for Shuanghuanglian preparations based on an effect-constituent index (ECI), which is guided by the clinical efficacy of Shuanghuanglian and a dose-efficacy correlation. An HPLC method was used to establish the quantitative fingerprint of Shuanghuanglian from different manufacturers and to determine the content of 10 fingerprint components, including baicalin, chlorogenic acid, forsythin, galuteolin, wogonin, forsythoside A, luteolin, caffeic acid, baicalein, and scutellarin. Using Staphylococcus aureus as biological model, the potency of Shuanghuanglian preparations was determined by antibiotic microbial assay. Using the method of PLC-DA, the efficacious antibacterial components were screened by "dose-efficacy" correlation analysis. According to the antibacterial potency and content of the antibacterial ingredients, combined with the method of the custom weight coefficient, ECI was calculated and verified. The results show that the antibacterial ECI can facilitate evaluation of the efficacy of Shuanghuanglian based on the composition of its contents, providing a new method for the quality control of traditional Chinese medicine.

A chemical fingerprint is an important mean for quality control of traditional Chinese medicine (TCM); however, there is much redundant information in a conventional fingerprint that can affect its availability and accuracy. In this work, the antibacterial biopotency of Scutellariae Radix (Huangqin, HQ) was determined according to the parallel line method of quantitative response. HPLC was adopted to detect the chemical fingerprint of HQ; Grey relational analysis (GRA) was used to identify the primary effective components. The results showed that the antibacterial biopotency of 15 batches of HQ ranged from 0 to 1 000 U·g^-1 and the average potency was 556.29 ±258.57 U·g^-1 (1 U is equivalent to the bacteriostatic activity of 2.25 μg gentamicin). There were 34 characteristic peaks in the fingerprints of the samples and their similarities were 0.255-0.991. Eight components (P33, P30/baicalein, P19/baicalin, P15, P29, P34, P31/wogonin and P28) are positively related to antibacterial biopotency and selected from the top ten components of the grey correlation sequence to define the antibacterially effective components fingerprint of HQ. This fingerprint can clearly distinguish the commodity specification and grade, and can also characterize the morphology, components and the bacteriostatic potency differences of HQ. In summary, we established an antibacterially effective components fingerprint which provides simplified information on the antibacterial activity of Scutellariae Radix and could significantly improve the efficacy, specificity, and discriminative ability of the fingerprint for HQ, and could be a useful reference for the comprehensive quality evaluation of other TCM.

Consistency in quality of traditional Chinese medicine granules is an important factor to ensure reproducible clinical efficacy. In this study rhubarb dispensing granules were utilized to construct an efficacious near-infrared spectroscopy (eNIRS) assay by combining NIRS and biopotency. A NIR method for assaying rhubarb dispensing particles was established, and information on different batches was collected. The diarrhea-inducing biopotency of rhubarb dispensing granules was determined based on a constipation model induced by diphenoxylate in mice. The animal protocol was approved by the Animal Ethic Committee of 302 Hospital of Chinese PLA People's Liberation Army (ID:IACUC-2019-0010). Ten anthraquinones were determined in rhubarb dispensing granules by UPLC. The correlation between NIR and biopotency was analyzed and five characteristic bands that correlated highly with bioactivity were identified, including 4 011-4 390, 4 859-5 461, 7 012-7 493, 10 992-11 312 and 11 871-12 489 cm^-1. There were some differences in the main bands of different chemical constituents. In summary, five active bands based on NIRS were identified and found to be able to achieve rapid on-line detection of rhubarb dispensing granule quality. This research model may also provide reference for quality control of other Chinese medicine dispensing granules.

There are many kinds of processed products of Aconiti Lateralis Radix Praeparata (ALRP), but their differences in toxicity and efficacy have not been identified. The minimum premature ventricular contraction (PVC) method was used to evaluate the biological toxicity of eight processed products. The results showed that the minimal toxic dose (MTD) of an ethanol extract of Shengfupian (SFP) was 0.16 g·kg^-1, which was much lower than that of Heishunpian (HSP), Baifupian (BFP), Baofupian (BAP), Paofuzi (PFZ) or Zhengfupian (ZFP), with MTDs ranging from 2.64 to 5.75 g·kg^-1. No cardiotoxicity was detected with Chaofupian (CFP) and Paotianxiong (PTX). A novel +dp/dt_max assay for acute heart failure in rats was developed to evaluate the cardiac activity. It was found that all eight processed products had cardiac effects, with Shengfupian showing the strongest cardiotonic effect and the ability to restore damaged cardiac function to normal within 15 minutes of injection. Heishunpian, Baifupian and the three other products displayed moderate activity, while Paofuzi and Paotianxiong were the weakest. An LC-MS/MS method was utilized to determine the content of 13 alkaloids in water extracts. The results demonstrated that hypertoxic aconitine, mesaconitine, and hypaconitine could not be detected, higenamine was only present in Shengfupian, and salsolinol was about 4-56 times higher in Shengfupian than in other products. A correlation analysis showed that salsolinol had the best correlation with the cardiotonic index, with a correlation coefficient as high as 0.817, while the three monoester alkaloids failed to correlate with the cardiotonic effect. Higenamine and salsolinol were cardiotonic, while the 11 other components had no cardiotonic activity. This study establishes methods for precise evaluation of cardiotoxicity and cardiac activity, reveals the toxicity and efficacy of common processed products, and identifies the key quality markers for cardiac activity, providing scientific support for the quality evaluation and clinical application of processed products of aconite.

The objective of this work was to develop a bioassay to quantify the antiplatelet aggregation activity of hirudo for quality evaluation and control. Antithrombin activity of hirudo extracted by high temperature decoction was determined by thrombin titration. Antiplatelet aggregation activity of hirudo was determined through pharmacodynamic experiments in vitro and in vivo using a bioassay we developed for quantifying inhibition of platelet aggregation. Methodological investigation was carried out and the titers of 12 batches of hirudo samples were determined. During the experiment, the disposal of animals is in accordance with the ethical standards of animal experiments. The results showed that the antithrombin activity of hirudo decocted at high temperature decreased significantly and almost lost its activity. Hirudo inhibited platelet aggregation and results in vivo and in vitro were consistent. These assays were employed to test 12 batches of hirudo. The results demonstrated that the biopotency of 12 batches was 113.49, 96.13, 121.22, 127.33, 83.48, 108.72, 131.41, 127.95, 76.90, 126.27, 132.89 and 573.53 U·mg^-1. The method was reliable and reproducible and can be used to assess the quality of hirudo.

A bioassay method for inhibiting platelet aggregation in vitro was established to quantify the pharmacological effects of Compound Danshen Tablets and support its quality control. The inhibition of platelet aggregation in rabbit plasma in vitro by Compound Danshen Tablets was used as the experimental system. The titer was calculated by using the method of dose-response parallel lines. As a result, a bioassay for the inhibition of platelet aggregation in vitro by Compound Danshen Tablets was established. Linearity was good in the concentration range of 0.128 g·mL^-1 to 0.205 g·mL^-1, and the titer of standard Compound Danshen tablets was 7 659 U·g^-1 according to the titer definition. This in vitro assay was simple, reliable, reproducible and convenient. The activity of Compound Danshen Tablets in inhibiting platelet aggregation was quantified by potency assay and the quality of different batches was evaluated. The method can be applied for the quality control of Compound Danshen Tablets.

Injectable traditional Chinese medicine often contains multiple components including undefined toxic substances, can have high variability between batches, with undefined mechanisms of action. It is urgent to improve the quality and consistency and reduce the toxicity risk of traditional Chinese medicine. The Microtox technology is a simple, rapid method for the detection of toxic substances in the environment that uses non-pathogenic luminescent bacteria as an indicator, and the change in luminosity as an index. Using this bioassay we have systematically applied Microtox technology for the detection of microtoxicity in injectable traditional Chinese medicine. As a new method of bioactivity characterization, Microtox technology is expected to be used in the detection of quality fluctuations and toxicity risks at an early stage in the preparation of injectable traditional Chinese medicines and to improve the quality of injectable traditional Chinese medicine.

Xiaojin pills, the first choice for clinical treatment of breast hyperplasia, were selected to explore the suitability of a bioactivity assay with chemical fingerprinting for the development of an overall quality evaluation assay. The liposoluble and water-soluble fraction fingerprints of Xiaojin pills were established. The ability to inhibit platelet aggregation and the rate of inhibition of cyclooxygenase-2 (COX-2) for 16 batches of Xiaojin pills from several manufacturers was analyzed; the chemical fingerprints of these samples were correlated with the bioactivity and chemical analysis. The animal protocol was approved by the Committee on the Ethics of Animal Experiments of Affiliated Hospital of Chengdu University of Traditional Chinese Medicine Approval, ID:2018BL-002. Results showed that the antiplatelet aggregation activity of 16 batches was 0.712-1.278 U·mg^-1, with a relative standard deviation (RSD) of 15.4%. COX-2 inhibition was 52.07%-68.95% and the RSD was 8.91%. The results showed that there was little difference in the biological effects of these samples. However, the chemical fingerprint consistency of these 16 batches of Xiaojin pills was poor, and the similarity of nearly half of the samples was less than 0.9. The total peak area of Xiaojin pills was 32.74%-165.37% across samples, showing very poor chemical consistency. In order to explore the reasons for the poor chemical consistency despite good consistency in the biological assays, the fingerprint chromatogram was analyzed by multivariate statistical analysis. The main chromatographic peaks were identified. The results showed that the similarity of Xiaojin pills was mainly determined by the prominent chromatographic peaks 17, 18, 20, 23 and 27 in the liposoluble fingerprints, which were identified from Liquidambaris resina and Angelica sinensis Radix. However, Liquidambaris resina and Angelicae sinensis Radix had almost no anti-platelet aggregation activity or COX-2 inhibitory effect at the normal prescription ratio. As a result, the ability to utilize chemical fingerprints to evaluate the quality consistency of Xiaojin pills is limited. The selection of biological evaluation methods that reflect clinical efficacy could make up for the shortcomings of chemical evaluation methods for quality assessment, and provide new ideas and methods for the overall quality evaluation of complex Chinese patent medicines.

Ginseng is a traditional Chinese medicine known as the "king of herbs" since ancient time in China. It was found in animal experiments that total saponins, ginsenoside monomers or glycosides from ginseng extraction all showed antidepressant effects in chronic unpredictable stress, corticosterone or lipopolysaccharide induced depression models. Taking ginsenosides as the focus, we reviewed the antidepressive mechanisms from the perspectives of various hypotheses, such as regulations of hypothalamic-pituitary-adrenal axis, monoamine neurotransmitter and neuroplasticity related to the pathogenesis of depression. The mechanism, target and pharmacodynamic targets of ginsenosides for anti-depression were summarized, in order to provide references for multi-targets and multi-level development of new anti-depression drugs, and improvement of diagnosis and treatment of depression from the perspective of traditional Chinese medicine and natural products.

In recent years, chimeric antigen receptor T cells (CAR-T) have been viewed as a target for successful treatment of hematologic malignancies. However, targeting conventional CAR-T cell has a series of side effects, such as cytokine storm, on-target off-tumor effect and neurotoxicity during treatment, and these side effects threatened patients' life. The extracellular domain of conventional CAR-T is a fixed single-chain variable fragment (scFv) that only targets one specific antigen, and once the tumor antigen is mutated or disappears, the CAR-T cell will fail. In recent years, a number of different switchable CAR-T cells have emerged. The design of switchable CAR-T cells is divided into two aspects:CAR-T cell and molecular switch respectively, and the activation of CAR-T is completely dependent on the switch. It is not only universal, but also decreases the side effect of conventional CAR-T through controlling the molecular switch. We summarized the existing sCAR-T to provide an idea for CAR-T design and optimization, and lay a foundation for entering sCAR-T into clinical practice.

Impurity profiling is one of the most important activities in both assuring drug safety and improving the quality of domestic drugs. Since the basic strategy of impurity profile control was put forward in 2010, a mature control procedure for impurity profile in drugs has been formed in China after nearly ten years of continuous efforts. The progress in impurity profiling before 2010 and from 2010 to 2015 have been reviewed. Since 2015, the concepts, analytical techniques and the application of these techniques in this field have developed rapidly. As a result, the progress in impurity profiling of chemical drugs since 2015 was reviewed in this paper. And the views on future development of impurity profiling in drugs were also put forward.

Pickering emulsion is a new type of emulsion which is stabilized by the adsorption of solid particles on the interface of emulsion droplets. In recent years, its applications in pharmacy have attracted more and more attention because of its higher resistance to coalescence and better safety than traditional surfactant emulsions. The Pickering emulsion was first used for topical administration to reduce skin irritation of surfactants and promote transdermal absorption of drugs. Recently, new oral and injectable Pickering emulsions have also been reported, which can promote oral absorption of insoluble drugs, improve stability of drugs, control drug release, targeted-delivery drugs, and serve as the carrier for novel immunological adjuvants. All these studies show Pickering emulsion a promising drug delivery system. However, its development in pharmacy is still in its infancy. There are many factors influencing the preparation of Pickering emulsions. But there is no systematic analysis of these factors up to now. In this review, we gave an overview of Pickering emulsions from their application in pharmaceutical field, preparation and evaluation, focusing on the effects of solid particles, oil phase, preparation technology and interaction of various factors on the fabrication of Pickering emulsions. The challenges and future directions of this exciting and rapidly expanding research area were further commented on, in order to provide reference for the in-depth study of Pickering emulsion drug delivery systems.

Liposomes have been widely exploited in clinics. After entry into blood stream, liposomes absorb a large number of plasma proteins to form protein corona, which severely regulates in vivo performance of liposomes. It is of high importance to study the relationships among liposome surface properties, plasma protein components and liposome in vivo performance for clinical translation. In this review, we will summarize the factors affecting liposome protein corona, the effects of protein corona on liposome performance and the rational design of liposomes, aiming to accelerate clinical translation of liposome-based therapeutics.

We study here in vitro cytotoxicity, in vivo tumor inhibition and the mechanism on photodynamic therapy (PDT) of photosensitizer BF01 using human hepatocellular carcinoma cell line BEL-7402. CCK-8 method was used to detect the inhibition rate and IC₅₀ in BEL-7402 cells on the same laser intensity with varying concentrations (0, 0.8, 1.6, 3.2, 6.4 μmol·L^-1) of photosensitizer BF01. Cell death mode of BEL-7402 was detected by flow cytometry, with apoptotic characteristics observed by DAPI staining, and the subcellular localization of reactive oxygen was observed using photodynamic detection and confocal microscopy. The cell model of human liver cancer in nude mice was established, tumor growth curve was drawn, and the therapeutic effect of BF01 was determined. The animal experimentation was approved by East China University of Science and Technology Ethics Committee. The results indicated that BF01 PDT treatment can clearly inhibit BEL-7402 tumor cell proliferation, with the killing rate of 86% at the concentration of 6.4 μmol·L^-1 of BF01, and half lethal concentration IC₅₀ value of 2.46 μmol·L^-1. DAPI stained nuclei shows the characteristics of advanced stage apoptosis, whereas reactive oxygen species level in the mitochondria increased with increasing drug concentration. In vivo experiments showed that photosensitizer BF01 mediated photodynamic therapy of liver cancer cells and inhibited tumor growth in mice. Therefore, the new BF01 photosensitizer has a potential for development into future clinic application.

This study aimed to determine the protective effect of Qizhi hypoglycemic tablet (QZHGT) on foot ulcer in diabetic rats and explore its possible mechanism. Diabetes was induced by streptozotocin injection in rats. The rats received QZHGT (780 mg·kg^-1), metformin hydrochloride tablet (Metf, 200 mg·kg^-1) or glibenclamide tablet (Glib, 1.5 mg·kg^-1) alone via intragastric administration once a day for three months. Food ulcer was prepared by foot skin excision after drug therapy lasted for two months, and the dynamic changes in food ulcer healing were determined. During the experiment, blood glucose, serum levels of vascular endothelial growth factor (VEGF) and inducible nitric oxide synthase (iNOS), factor Ⅲ (FⅢ) and four coagulation parameters[thrombin time (TT), activated partial thromboplatin time (APTT), prothrombin time (PT), fibrinogen (FIB)] were detected. Finally, the protective mechanisms of QZHGT against diabetes and foot ulcer were analyzed by network pharmacology, and immunohistochemistry was used to confirm the expression of transforming growth factor-β (TGF-β) and nuclear factor κB (NF-κB) in pancreatic tissue. All animal procedures were approved by the Animal Experimentation Ethics Committee of Henan University (permission number HUSAM 2016-288). The results showed that the lasting hyperglycemia, polydipsia, polyphagia, polyuria and body weight lost took place in model rats compared to those in normal rats. These model rats also showed an increase in serum VEGF and iNOS, FⅢ, TT, APTT and PT, and a reduction in FIB and wound healing. Metf or Glib significantly improved hyperglycemia, polydipsia, polyphagia, polyuria and emaciation, but failed to ameliorate hypercoagulation and wound healing. QZHGT showed a similar effect on polydipsia, polyphagia, polyuria and emaciation to Metf or Glib, although it was inferior to them in hypoglycemic action. Importantly, QZHGT significantly improved hypercoagulation and wound healing, and attenuated serum VEGF and iNOS. Network pharmacology revealed that QZHGT decreased hyperglycemia through "insulin resistance pathway", improved coagulation status through "HIF-1 signaling pathway", prevented diabetic foot ulcers through "VEGF signaling pathway", "MAPK signaling pathway" and "NF-κB signaling pathway". Immunohistochemistry showed that QZHGT could inhibit the expression of TGF-β and NF-κB in pancreatic tissue to maintain islet function in diabetic rats. In summary, these data suggest that QZHGT can prevent pancreatic injury for adjunctive hypoglycemia and diabetic foot ulcer treatment, and is a better preventive and therapeutic drug for diabetic foot ulcer.

Uremic toxins are harmful substances that accumulate in the body when the renal function declines in patients with chronic kidney disease (CKD). It is an important factor contributing to accelerated progression of CKD. There is no effective treatment for reducing uremic toxins. As an extensively used medicine for treatment of CKD in the clinic, Huangkui capsule is effective but the mechanism of its action remains unclear. This study investigated the effect of Huangkui on the accumulation of uremic toxins in CKD rats, with the discussion about its mechanism of action. UPLC-TQ/MS was used to detect the accumulation of uremic toxins in CKD rats after oral gavage with Huangkui. 16S rDNA sequencing technology was used to analyze the gut bacteria composition in rats. HPLC-FLD was used to detect the uremic toxins and their molecular precursors in feces. The effect and mechanism of Huangkui on the uremic toxin precursor in gut bacteria were studied by anaerobic culture system in vitro. All procedures were approved by the Institutional Animal Care and Use Committee of the Nanjing University of Chinese Medicine. The results showed that Huangkui (0.675 g·kg^-1) could effectively inhibit the accumulation of uremic toxin indoxyl sulfate (IS) in CKD rats, with IS concentration in rat's plasma, liver and kidney decreased by 49.5%, 68.9% and 40.6%, respectively. Huangkui didn't affect the metabolic pathway of IS in host liver, didn't intervene the process of the IS precursor molecule indole conversion to IS. Instead, Huangkui significantly decreased the indole content in gut, with the indole in CKD rat's feces decreased by 46.4%, suggesting that the gut bacteria may be a target for intervene IS biosynthesis by Huangkui. Huangkui didn't affect the abundance of enterobacteriaceae bacteria (the main gut flora of indole synthesis) in CKD rats, suggesting that Huangkui didn't interfere with indole biosynthesis by directly affecting the abundance of indole synthesis related bacteria. Huangkui at 4 000, 400, 40, and 4 μg·mL^-1 showed a dose-dependent inhibition of the indole production by gut bacteria in vitro. The bacteria tryptophan transport concentration decreased from 83.4 μmol·L^-1 to 43.6 μmol·L^-1 after co-incubated with Huangkui for 12 h, suggesting that Huangkui inhibited indole production of gut bacteria by interfering with tryptophan transportation. These results indicate that gut bacteria may be a potential target for alleviation of uremic toxin accumulation and for delaying CKD progression.

The chemical constituents were isolated and purified by column chromatography and semi-preparative reversed-phase high performance liquid chromatography with silica gel, MCI and polyamide in order to study the chemical constituents of dried flowers of Osmanthus fragrans var. aurantiacus. Their structures were identified by the physical and chemical properties and one-dimensional nuclear magnetic resonance (¹H-, ¹³C-NMR, DEPT), two-dimensional nuclear magnetic resonance (¹H-¹H COSY, non-decoupled HSQC, HSQC, HMBC), UV, IR and high resolution mass spectrometry data. One new compound (1) and five known compounds (2-6) were isolated from 95% ethanol extract of dried broccoli. They were identified as (9S)-9-hydroxymengastigm-5-en-4-one-9-O-primeveroside (1), oleanolic acid (2), forsythiaside (3), 2-(4-hydroxyphenethyl)-ethanol-(6-acetyl)-β-D-glucopyranoside (4), salidroside (5), and acteoside (6). Compounds (2-6) were isolated from this plant for the first time.

One undescribed and two known furocoumarins were isolated from the stems of the Clausena lansium through a series of isolation and purification approaches including HPD-100 macroporous resin column, silica gel, reverse phase C₁₈ and so on. Their structures were determined to be 8-[(2S, 3S, 6E)-2, 3-epoxy-3, 7-dimethyl-oct-6-enyloxy] psoralen (1), 8-(7', 8'-epoxygeranyloxy) psoralen (2) and 8-[(2E)-6-oxo-3, 7-dimethyloct-2-enyloxy] psoralen (3) by spectroscopic methods. Compound 1 is a new furocoumarin. Compound 2 showed cytotoxicity to H460 (IC₅₀=43.94 μmol·L^-1) and compound 3 showed cytotoxicity to HeLa (33.76 μmol·L^-1) through the cytotoxic tests against five human cancer cell lines (H460, H7402, HCT-8, HeLa and MCF-7) for all compounds.

Phytochemical study of the aerial parts of Hypericum perforatum L. resulted in the isolation of an undescribed compound, which was identified as Rel-(2S, 3R)-2-(3, 4-dihydroxyphenyl)-3, 5, 7-trihydroxy-2-methoxy-3-(2-oxopropyl)chroman-4-one (1) by spectroscopic methods including UV, IR, HR-ESI-MS, 1D and 2D NMR spectra. Compound 1 is a new 2, 3-dioxo-flavone with an acetonyl moiety, rarely found in nature. In addition, a plausible biogenetic pathway of 1 was proposed in this article.

This study aimed to investigate the influence of combinating Huangqi with Fuzi on the pharmacokinetics of six Aconitum alkaloids, i.e. aconitine (AC), hypaconitine (HA), mesaconitine (MA), benzoylaconine (BAC), benzoylhypaconine (BHA) and benzoylmesaconine (BMA). The plasma concentrations of the drugs were determined by LC-MS for dose response and time dependent curves. The pharmacokinetic parameters were calculated by DAS 3.3, and SPSS 12.0 was used to analyze the differences of main pharmacokinetic parameters between the two groups. Comparing with Fuzi group, the AUC_0-t and AUC_0-∞ of six alkaloids in Fuzi-Huangqi group was significantly decreased, the CL_z/F of six alkaloids except HA was significantly increased; the C_max was decreased and the t_max was prolonged in 3 monoester alkaloids, and the apparent volume of distribution of BMA and MA (V_z/F) increases. These data indicated that Huangqi can inhibit the absorption of aconite alkaloids, induce the distribution of aconite alkaloids to the whole body, and accelerate the elimination of aconite alkaloids. The animal experiment scheme in this study has been approved by the Experimental Animal Ethics Committee of Jiangxi University of Traditional Chinese Medicine.

To analyze the chemical profile of Radix Bupleuri-Radix Paeoniae Alba in the serum, after oral absorption of the herbal pair, we used UPLC-QE-Orbitrap-MS technique and Compound Discover 2.0 software to compare the components in the extracts, and drug-containing serum. The map, based on the precise molecular weight and secondary fragment information given by the mass spectrometry, combined with the reference substance and reference information for, finding the chemical components in the blood after oral administration of the herbal pair in the rats. Animal experimentation was approved according to the Committee on the Ethics of Animal Experiments of Shanxi University. The results showed that a total of 55 components were detected in the serum, of which 16 were prototype components and 39 were metabolites of prototype components. UPLC-QE-Orbitrap-MS allows quick, accurate and comprehensive analysis of the blood components of the herb pair after oral administration. This preliminary study of the chemical components in the blood after herb pair ingestion provides a basis for the subsequent research on the pharmacodynamics and drug-drug interactions.

We have developed a new method using HPLC-CAD (charged aerosol detector) for the quantitative analysis of cyclovirobuxine D and related substances in the API of Huangyangning tablets. The related substances were further studied by HPLC-Q-Exactive coupled with hybrid quadrupole-orbitrap mass spectrometry. A HILIC column of XBridge Amide (4.6 mm×250 mm, 5 μm) was used, and the mobile phase was composed of acetonitrile and 100 mmol·L^-1 ammonium formate (85:15), which was adjusted to pH 2.8 with formic acid. Isocratic mode elution was adopted at a flow rate of 1.1 mL·min^-1. The column temperature was set at 30℃. For CAD, the temperature of atomization and gas pressure were respectively set at 35℃ and 62.2 psi. This method detected and quantified five related substances to cyclovirobuxine D. The results showed that the LOD and LOQ of cyclovirobuxine D was 12.588 ng and 28.323 ng, respectively with an average recovery of 95.74% (RSD=1.79%, n=6). The content of cyclovirobuxine D in 12 batches of API samples provided by three manufacturers was from 79.94% to 88.49%, with an average value of 82.20%. The total content of the five related substances was from 15.99% to 22.15% with an average value of 20.10%, using an external standard method with cyclovirobuxine D as the reference and according to the CAD uniform response to non-volatile substances. The newly developed HPLC-CAD method has advantages in terms of the comprehensiveness of signals from Buxus alkaloids without UV absorption and with high sensitivity to its trace-related substances; the method yields good separation between the components and is compatible with mass spectrometry. It is applicable for the accurate quantitative analysis of main components and related substances in the API of Huangyangning tablets.

Chuanxiong Qingfengteng mixture (CQM) is an analgesic developed based on clinical evidence and traditional Chinese medicine theory, which majorly consists of Ligusticum chuanxiong and Sinomenium acutum extracts. The current study aims to establish an UHPLC-UV method for the quantification of sinomenine and ligustrazine after CQM administration to rats, mice and cells, and to study the brain permeability of sinomenine and ligustrazine. The selectivity, linearity, accuracy, precision and stability of the established method demonstrated that it was suitable for the determination of sinomenine and ligustrazine in biological samples such as plasma, brain tissue and cellular fluid. After CQM was intravenously administered to rats and mice, both sinomenine and ligustrazine were detected in the brain from 5 min-2 h. The CSF/plasma partition coefficients (K_{p, C/P}) of each component were higher than those of brain tissue/plasma partition coefficient (K_{p, B/P}), the K_{p, C/P} and K_{p, B/P} of ligustrazine were higher than those of sinomenine. The concentrations between CSF and brain tissue were strongly correlated (Pearson's R>0.86, P < 0.001). The unbound fraction in plasma of sinomenine and ligustrazine was 78.92% and 34.07%, respectively. The plasma protein binding rates displayed concentration-independent behavior within their respective in vivo concentration ranges. After CQM co-cultured with Caco-2 cell monolayers, the apparent permeability coefficient (P_app) of sinomenine and ligustrazine were 1.30×10^-6 and 3.64×10^-6 cm·s^-1, respectively, following into the range of the intermediate and high permeability compounds. The efflux ratio (P_{app(basolateral→apical)}/P_{app(apical→basolateral)}) of sinomenine and ligustrazine were 0.67 and 0.85, respectively. When combined with P-glycoprotein inhibitor, the P_app of each component did not increase. In conclusion, the UHPLC-UV assay was successfully applied for the brain permeability study of CQM, the components of CQM can be quickly distributed to cerebrospinal fluid and pass through the blood-brain barrier. The brain permeability of ligustrazine is higher than that of sinomenine. The transmembrane transport of sinomenine and ligustrazine may not be affected by efflux transporters. All animal care and use complied with the Regulations for the Administration of Affairs Concerning Experimental Animals approved by the State Council of the People's Republic of China. All animal studies were implemented according to protocols, which were reviewed and approved by the Institutional Animal Care and Use Committee at Experimental Research Center, China Academy of Chinese Medical Sciences.

In this study, the lipid membrane-wrapped nanoparticles loaded with metformin polymer (PolyMet) and doxorubicin (DOX) was prepared and then evaluated therapeutic effect on breast cancer. An anionic chain PGA-DOX based on γ-polyglutamic acid (PGA) with DOX was synthesized via amidation reaction and characterized by ¹H NMR. The PGA-DOX and PolyMet were loaded via electrostatic attraction to prepare the co-delivery nanoparticles system (PolyMet-DOX-NPs). Then, PolyMet-DOX-NPs were coated with cationic liposome membrane to form the core-membrane structural system (PolyMet-DOX-lipid-nanoparticles, PolyMet-DOX-LNPs). The structure and morphology of PolyMet-DOX-LNPs were observed by transmission electron microscope. The particle size, zeta potential, encapsulation efficiency (EE), drug loading (DL), release behavior in vitro of PolyMet-DOX-LNPs were investigated. The MTT assay was used to examine the cytotoxicity of PolyMet combined with DOX on 4T-1 cells. The 4T1^Fluc tumor-bearing mice model was used to evaluate the therapeutic efficacy of PolyMet-DOX-LNPs in vivo. All animal experiments were performed in line with ethical standards and approved by the Animal Experiments Ethical Committee of Zhejiang Chinese Medical University. ¹H NMR spectrum showed that PGA-DOX was successfully synthesized with DOX grafting rate of (72.03 ±1.29)%. The EE and DL of PolyMet-DOX-LNPs was (72.76 ±1.92)% and (1.16 ±0.12)%, respectively. PolyMet-DOX-LNPs exhibited a suitable size of (159.3 ±7.4) nm and positive charge of (+36.3 ±1.9) mV with good spheroidal morphology and dispersibility. The release profiles in vitro showed that PolyMet-DOX-LNPs exhibited a slowly and maintained release behavior at physiological pH value (pH 7.4) within 48 h. Further studies showed that PolyMet combined with DOX could synergistically enhance the cytotoxicity on 4T-1 cells. Bioluminescence imaging (BLI) result showed that the luminescence signal intensity of 4T-1^Fluc cells was reduced after treatment with PolyMet-DOX-LNPs and the tumor volume growth was also inhibited. Additionally, the H&E staining and changes of body weight showed that PolyMet could reduce the toxicity of DOX. To sum up, PolyMet has a good synergistic effect with DOX in the treatment of breast cancer, which provide the foundation for this novel metformin polymer on the anti-tumor application.

Based on the ITS2 and psbA-trnH sequences, molecular biological identification and genetic relationship of Fritillaria cirrhosa with its relative species were carried out. In this paper, the PCR-RFLP method specified by the Chinese Pharmacopoeia was performed on all samples at first. Secondly, the ITS2 and psbA-trnH sequences of all samples were amplified. Then, the amplified products were used to analyze the genetic distance, construct the phylogenetic tree, assess the identification efficiency, and evaluate the genetic relationship as well. The result showed that all the samples were divided into two groups by PCR-RFLP method. The samples in the first group, including Fritillaria ussuriensis, Fritillaria thunbergii and Fritillaria pallidiflora, could not be digested by SmaI, while the other samples in the second group, including Fritillaria mellea, Fritillaria sinica, Fritillaria cirrhosa var. ecirrhosa Franch, Fritillaria unibracteata var. longinectarea and Fritillaria cirrhosa, could be digested by SmaI. Then, ITS2 and psbA-trnH sequences of all samples were obtained. The length of various ITS2 sequences were distributed from 235 to 239 bp, and the average intra-and inter-specific genetic distance were 0.001 and 0.022, respectively. NJ tree showed that all samples were separated into "Northern Fritillaria" group (Fritillaria ussuriensis and Fritillaria pallidiflora) and "Southern Fritillaria" group (Fritillaria thunbergii, Fritillaria mellea, Fritillaria sinica, Fritillaria cirrhosa var. ecirrhosa Franch, Fritillaria unibracteata var. longinectarea and Fritillaria cirrhosa). The latter group could be further divided into Fritillaria thunbergii and Fritillaria cirrhosa subgroup, and the species in Fritillaria cirrhosa subgroup had close phylogenetic relationships. The length of psbA-trnH sequences was distributed from 337 to 373 bp, and the intra-and inter-specific genetic distance were 0.263 and 0.329, respectively. The samples in this paper could not be clustered effectively by NJ tree. This indicated that the ITS2 sequences were not only able to identify Fritillaria cirrhosa with its partial relative species quickly and accurately, but also clarify the relationship between different Fritillaria species. Therefore, it provided an important theoretical foundation for the development of molecular markers, effective protection, and rational development and utilization of Fritillaria resources.

To obtain the microbial composition of traditional Chinese medicine of Faeces Trogopterori, ten samples were collected from the imitate wildness farmland in Shangluo City, Shaanxi Province. In this study, 16S rRNA gene was used as molecular marker to explore the microbiome and the sequences were analyzed by Usearch analysis platform. The COG and KEGG database is used to predict and analyze the function of the flora. A great number of 285 218 high quality clean reads with a length of 400-450 bp were obtained from 10 samples. Bacterial species detected in these samples covered 8 phyla, 25 families, 75 genera and 120 species. The dominant phylum microbial communities in these samples were Firmicutes (87.68% ±2.68%) and the Bacteroidetes (7.62% ±3.74%), all samples showed a high microbial diversity, the predicted functional metagenome was heavily involved in energy metabolism. This study provided that the beneficial bacteria in Faeces Trogopterori may be one of its active ingredients, and no pathogens are detected in the sample.

This paper describes a bioassay method for the determination of ansamitocin titers. A fungal strain sensitive to ansamitocin was classified to the genus Trichoderma based on phylogenetic analysis of its ITS sequence, and designated as Trichoderma CPCC 400749. PDA plates of Trichoderma CPCC 400749 were prepared to assay ansamitocin titers of Actinosynnema pretiosum ATCC 31565. The titers were consistent with those determined by HPLC. The bioassay method may have the potential use in high-throughput screening for Actinosynnema pretiosum mutants with improved ansamitocin titers.