[Research progress on quality control methods of traditional Chinese medicine glues].

Traditional Chinese medicine( TCM) glues,including leather glues,horn glues,nail glues and bone glues,have a long application history and unique characteristics. In recent years,their market demand has increased year by year because of their remarkable curative efficacy and nourishing effects,which leads to insufficient supply of raw material resources,and widespread use of fake and inferior products,seriously affecting the reputation of TCM glues and drug safety. In this context,the establishment of a more specific quality detection method for the TCM glues according to their specific characteristics can effectively improve the quality control level,promote rational use,and have a far-reaching impact on the industrial development of TCM glues. In this paper,the classification of TCM glues,as well as the production and application status of their representative( Ejiao) were briefly introduced; the papers on quality control technologies of TCM glues,including traditional identification experience,authenticity identification,physical property determination,protein,peptide and amino acid contents determination,element analysis,biological evaluation,and brand protection technology of TCM glues,were reviewed,and their advantages and disadvantages were summarized and analyzed comprehensively.Based on the specific characteristics of TCM glues,such as complex material basis,unclear pharmacodynamic components and different production processes,it was proposed in this paper to research and develop information-rich,convenient,fast,and non-destructive analytical techniques for the quality control of TCM glues and brand protection of famous products,thus promoting the healthy development of TCM glues industry.

Zearalenone: A Mycotoxin With Different Toxic Effect in Domestic and Laboratory Animals' Granulosa Cells.

Zearalenone (ZEA), one of the most prevalent estrogenic mycotoxins, is mainly produced by Fusarium fungi and has been proven to affect the reproductive capacity of animals. Exposure of farm animals to ZEA is a global public health concern because of its toxicity and wide distribution in animal feeds. In vitro and in vivo experiments indicate that ZEA possesses estrogenic activity in mice, swine, Equus asinus and cattle. The precise mechanism of the reproductive toxicity of ZEA has not been established yet. This article reviews evidence on the deleterious effects of ZEA on mammalian folliculogenesis from early to final oogenesis stages. Such effects include impaired granulosa cell (GC) development and follicle steroidogenesis, reduced oocyte nest breakdown, damaged meiotic progression, poor fetal oocyte survival, accelerated primordial follicle activation and enhanced follicle atresia. These phenomena may result in reproductive and non-reproductive problems in domestic animals. In addition, emerging data indicates that ZEA may cause mRNA expression changes in the GCs. In general, E. asinus is more sensitive than swine to ZEA exposure. Finally, results of in vivo animal studies and in vitro tests are reported and discussed.

[Construction of NIRS-based total quality control system for compound Ejiao oral liquid and relative thinking].

In this paper, near infrared spectroscopy (NIRS)-based total quality control system of compound Ejiao oral liquid is introduced briefly, including the quality control of raw traditional Chinese medicine (TCM) materials, monitoring and control of the extract and the alkaline precipitation technics, and also the inspection of finished products in both open bottle and non-opening modes. By analyzing and summing up the significance and difficulties, several important problems in the practical applications of NIRS technology are proposed, which will provide references for the similar studies of other TCM products.

A novel embolic middle cerebral artery occlusion model induced by thrombus formed in common carotid artery in rat.

Stroke is a major cause of death and disability worldwide. However, treatment options to date are very limited. To meet the need for validating the novel therapeutic approaches and understanding the physiopathology of the ischemic brain injury, experimental stroke models were critical for preclinical research. However, commonly used embolic stroke models are reluctant to mimic the clinical situation and not suitable for thrombolytic timing studies. In this paper, we established a standard method for producing a rat embolic stroke model with autologous thrombus formed within the common carotid artery (CCA) by constant galvanic stimulation. Then the thrombus was shattered and channeled into the origin of the MCA and small (lacunar) artery. To identify the success of MCA occlusion, regional cerebral blood flow was monitored, neurological deficits and infarct volumes were measured at 2, 4 and 6h postischemia. This model developed a predictable infarct volume (38.37 ± 2.88%) and gradually reduced blood flow (20% of preischemic baselines) within the middle cerebral artery (MCA) territory. The thrombus occluded in the MCA was able to be lysed by a tissue-type plasminogen activator (t-PA) within 4h postischemia. The techniques presented in this paper would help investigators to overcome technical problems for stroke research.

[Study on action mechanism of adjuvant therapeutic effect compound Ejiao slurry in treating cancers based on network pharmacology].

Recently, compound Ejiao slurry (FFEJJ) had been applied to treat cancer patients in clinic, with obvious curative effect. In this study, data and literatures were collected from the TCM chemical component database to establish the chemical component database of FFEJJ. Afterwards, MetaDrug software was used to predict the targets of FFEJJ and obtain the compound-target network. Next, the compound-target network was compared and analyzed to obtain the "compound-target-tumor target" heterogeneous network. Besides, further analysis was made on gene functions and metabolic pathway. The results indicated that FFEJJ could directly resist tumors by regulating cancer cell differentiation, growth, proliferation and apoptosis, and show an adjuvant therapeutic effect by enriching the blood and increasing the immunity.

Statistical optimization of medium composition for aspergiolide A production by marine-derived fungus Aspergillus glaucus.

Statistical methodologies were employed to optimize submerged culture medium for the production of a novel antineoplastic compound aspergiolide A by a marine-derived fungus Aspergillus glaucus HB1-19 for the first time. Orthogonal design was preformed to determine the initial composition. Then Plackett-Burman design was applied to evaluate the influence of related nutrients, and yeast extract paste, soybean powder and sodium glutamate were confirmed as critical factors in the medium. Response surface methodology (RSM) was finally taken as an effective approach to optimize the combination of the obtained three significant factors. The predicted maximal aspergiolide A production of 62.4 mg/L appeared at the region where the concentrations of sodium glutamate, soybean powder, and yeast extract paste were 2, 1, and 1.07 g/L, respectively. Under the proposed optimized conditions, the experimental aspergiolide A production reached 71.2 mg/L. The correlation between predicted value and measured value of these experiments proved the validity of the response model. After optimization, aspergiolide A production increased 4.22 times compared to that of the original medium. Elemental analysis was finally taken into consideration, and carbon-nitrogen ratio in the medium increased from 20.1:1 to 86.6:1. This great difference was inferred as the most important reason for production enhancement by metabolic pathway analysis.

[Detection of intracellular reactive oxygen species by flow cytometry in Pichia pastoris fermentation].

In Pichia pastoris fermentation, methanol was oxidized into carbon oxide and produced a byproduct H2 O2, one of the partially reduced forms of molecular oxygen known as reactive oxygen species (ROS) . ROS are highly damaging towards cellular constituents. Flow cytometry (FCM) is an excellent method that permits the rapid, optical analysis of individual cells and has many advantages over conventional cytometry. However, its use in detecting intracellular ROS levels during Pichia fermentation was rarely reported. In our work, by means of flow cytometry, two fluorescent dye 2', 7'-dichlorofluorescin diacetate (DCFH-DA) and propidium iodide (PI) were used to detect ROS. The effect of intracellular ROS on Pichia pastoris cells during fermentation was studied through the comparison between DCFH-DA/PI double-stained cells and PI single-stained cells. In this study, the loss of cell viability during fermentation was correlated with the accumulation of ROS. At the glycerol batch and fed-batch phase, little ROS was accumulated intracellularly and cell viability reached almost 100%. At the early methanol fed-batch phase, intracellular ROS accumulation took place but 98.5% cells still kept viable. At the later methanol fed-batch phase, 94.0% cells accumulated high ROS. As a result, some cells lost their viability because of the damage of ROS. 25.4% dead cells accumulated high ROS in the total 29.1% dead cells.

[Fermentation behaviors of recombinant Pichia pastoris under inhibited methanol concentration].

Chemostat culture was performed to characterize the growth, substrate consumption and the hirudin production, and to disclose their interrelations in the fermentation of recombinant Pichia pastoris. The Andrew substrate-inhibited growth model is more suitable than Monod model to simulate the growth of Pichia pastoris on methanol. Therefore, two stationary states can be obtained in the continuous culture at a certain dilution rate because of the substrate inhibition on cell growth. The stationary state could be obtained if only the dilution rate not more than 0.048 h(-1) in the continuous fermentation. The concentrations of cell, methanol and hirudin were constant after 50 h continuous culture with dilution rate at 0.04 h(-1). However, it could not be obtained when the dilution rate more than 0.048 h(-1) because the other stationary point at S > 0.048 h(-1) is unstable. Therefore, it was found that the cell concentration declined and the methanol concentration increased from 2.9 g/L to 18.1 g/L within 18h at dilution rate 0.06 h(-1). Thus, the fed-batch culture with a constant specific growth rate was carried out to disclose the fermentation behavior at high and constant methanol concentration in aid of a methanol sensor. The theoretical maximum specific growth rate, microm = 0.0464 h(-1), was found under critical methanol concentration, Scrit = 3.1 g/L. The growth of P. pastoris was typically methanol-limited at the methanol concentration S < Scrit. It was, however, inhibited at S > Scrit. The maximum specific Hir65 production rate qp was obtained at 0.2 mg/(g x h) when methanol concentration and mu were 0.5 g/L and 0.02 h(-1), respectively. The specific Hir65 production rate qp increased with the increase of mu and S at mu < 0.02 h(-1), and decreased at mu > 0.02 h(-1). The specific methanol consumption rate increased with the increase of S when S < 5 g/L, but decreased when S > 5 g/L. At last, the high Hir65 production rate 0.2 mg/(g x h) was obtained in the fermentation conducted under methanol-limited concentration and mu controlled at 0.5 g/L and 0.02 h(-1), respectively, while the specific methanol consumption rate is low only at 0.04 g/(g x h), showing the potential for the strategy of getting high Hir65 production rate at the low consumption of methanol.

[Effects of different methanol feeding strategy on hirudin production in high-density fermentation by recombinant Pichia pastoris].

Four different methanol feeding modes were evaluated in the hirudin production in high-density fermentation by Pichia pastoris. It was difficult to avoid methanol excessive in the broth with the feeding strategy only based on DO level. On the other hand, the fluctuation in methanol concentration was observed with methanol feeding strategy by off-line gas chromatography. However, the stable methanol concentration was perfectly achieved by the on-line monitoring with methanol sensor. The supply of energy was improved by feeding glycerol at a limited rate as well as methanol in the induction phase. Therefore, the high cell dry weight (162 g/L) and high hirudin activity (2.4 x 10(4) ATU/mL or 1.7 g/L) was obtained in the fed-batch fermentation of recombinant Pichia pastoris by methanol-glycerol mixed feeding.