Microbiome is a novel research field related to human health,agriculture,bio-energy and the environment. Gut microbiome has received much attention from researchers recently. Studies have shown that gut flora is related to some diseases,such as digestive disease(inflammatory bowel disease),metabolic disease(type 2 diabetes), cardie-cerebral vascular disease(Parkinson disease). Traditional Chinese materia medica(TCMM) has long been used as a tonic and taken in a large amount. Gut flora has an effect on pharmacology and toxicology of TCMM after entering the gastroin?testinal tract. This article is intended to review recent researches on microbiome,common detection techniques and the relationship with hepatotoxicity induced by Polygonum multiflorum Thunb.,scutel?laria baicalensis that directly affects the intestinal tract,nephrotoxicity induced by Rhizoma Alismatis and pneumonia induced by Xiao-Chaihu-Tang.

As an integral part of translational medicine,translational toxicology is intended to apply the results of toxicological studies to the prevention of diseases and the harmful effects on organisms. As far as drug safety evaluation is concerned,translational work is focused on developing more sensitive and specific translational safety biomarkers. Previous research focused on indicators of the liver and kidney,cardiovascular damage in the early stage,and detection of early-stage cancer. MicroRNA is hot sphere of research and considered a potential biomarker. Translational toxicology requires multi-discipli-nary and multi-agency communication and cooperation. The approach adopted by the Predictive Safety Testing Consortium is relatively perfect and is worth learnikng from.

There is emerging evidence from clinical studies that the existence of liver cancer stem cells(CSCs)or tumor initiating cells is responsible for the high recurrence rates of tumor,generation of metastasis,and resistance to therapeutic regimens after therapy. Here,the characteristics of liver CSCs,clinical manifestation,molecular signaling Wnt/β-catenin,signal transducers and activators of transcription 3,NANOG,annexin A3/c-Jun N-terminal kinase,and chapter four-transmembrane 4 L six family member 5/CD44 in liver CSC self-renewal were briefly reviewed. In addition,potential targets for drug therapy were analyzed,providing some reference for drug discovery that selectively target liver CSC self-renewal signals.

Objective To explore the effect of resveratrol ( Rev) as an antioxidant on oxidative damage to HepaRG cells induced by troglitazone ( Tro).Methods Cells were divided into five groups: control ( RPMI 1640 only with 0.1%DMSO), Tro(50 μmol/L), Tro(50 μmol/L) +Rev(15 μmol/L), Tro(50 μmol/L) +Rev(7.5 μmol/L) and Tro (50 μmol/L)+Rev(3.75 μmol/L) groups.MTT assay was performed to detect the viability of Rev-treated, Tro-treated and Rev with 50 μmol/L Tro-treated HepaRG cells.After 48 hours, the level of reactive oxygen species (ROS) and lipid oxidation ( malondialdehyde , MDA ) , degree of apoptosis , total antioxidant capacity , activity of hydrogenperoxidase (catalase, CAT), glutathione peroxidase (GSH-px) and superoxide dismutase(SOD)of these groups were identified. Results Tro could obviously cause HepaRG cells to produce oxidative stress .Compared with control group ,ROS and lipid peroxidation ( MDA) levels and the rate of apoptosis and necrosis in Tro-treated group were significantly increased ( P<0.05),total antioxidant capacity greatly reduced (P<0.05),and the activity of CAT,GSH-px and SOD was decreased (P<0.05).After adding various concentrations of Rev interaction , ROS and MDA production volume decreased (P < 0.05), and the apoptosis and necrosis rate correspondingly declined (P<0.05).Total antioxidant capacity of the cells and the activity of the three antioxidant enzymes were increased (P<0.05), and there was a dose-dependent relationship. Conclusion Tro can cause HepaRG cells to produce significant oxidative stress while Rev can significantly improve the oxidative damage of Tro to HepaRG cells .

There are some shortcomings of animal experiments applied in chemical toxicity testing, such as long period, large cost, species differences and dose differences, which limit the use of animal experiments' results in predicting human toxicity.Accordingly, we established a toxicity testing alternative screening system in line with the toxicity endpoints which required in chemical safety evaluation and risk assessment (genotoxicity, carcinogenicity, reproductive toxicity, acute toxicity and general toxicity) based on 3R principles (replacement, reduction, refinement) for animal experiments.This system covers most of the endpoints of toxicity assessment, and molecular biology technology was also applied to integrate the toxicity test, as well as some operation was optimized in order to shorten the experimental period, reduce experimental costs, improve animal welfare.Furthermore, the results from the screening system have higher clinical relevance because it is based on the toxicity mechanisms.

In view of the characteristics of the computerized system,the key points in the quality assurance (QA) of the computerized system was discussed and summarized combined with the requirements of the GLP laboratory in Europe and America.The validation of computerized system,the control during the use of computerized system,period maintenance and safety protection of computerized system,archives of electronic data was discussed,expecting to provide reference for the management of computerized system in Chinese GLP laboratory which is generally not high currently.The experiences were obtained as follow:Through repeated inspection and review,the problem was found and set as the risk point;a targeted QA inspection plan was made focusing on the risk-based inspection and the QA inspection plan was timely adjusted according to the problems,which ensures the pertinence and validity of the QA inspection.

Bone cells live in an environment heavily influenced by mechanical force. The development of bone tissue is dependent on the environment that surrounds it, both in vivo and in vitro. A loading stimulator on research of bone tissue-engineering was developed based on the mechanism of mechanosensation, scaffolding composites with mechanical strains with more physiologic magnitude, frequency components, and waveform. It also achieves the mechanical environment particularly in hard scaffold enough strong like cancellous bone. The device was tested using a reference scaffold made of better elastic plastic material. The experiment results showed that the device could be used in precision strain controls. Since the drive of the stimulator comes from the usage of smart material, piezoceramics, the strain at physiological level is controlled precisely. The stimulator provides a mechanical condition under which the effects of loading applied on bone tissue-engineering culture are conveniently investigated. Furthermore, after the stimulator is improved, it will be an appropriate bioreactor for bone tissue-engineering culture.
Bioreactors ; Bone and Bones ; cytology ; Cell Differentiation ; Cells, Cultured ; Humans ; Mechanotransduction, Cellular ; Osteoblasts ; cytology ; metabolism ; Stress, Mechanical ; Tissue Engineering ; instrumentation ; methods ; Tissue Scaffolds