The mechanism of hepatitis B virus entry is an interesting area in HBV research but still enigmatic.The difficulties in HBV entry research were primarily caused by the lack of easily accessible in vitro infection models.Recent years,primary hepatocytes from Tupaia belangeri has been substituted for primary human hepatocytes and upon induction of differentiation in vitro.A human hepatoma cell line named HepaRG has been found to be susceptible for HBV infection too.The two cell models enabled researchers to obtain a number of important discoveries for HBV entry.This article are focusing on these discoveries,including the domains of HBV surface proteins involved in HBV entry,potential HBV receptor candidates and the questions to be resolved in future years.

Objective To investigate the effects of paeoniflorin on proliferation and the protein expression of HFCL of human bone marrow stromal cells and to discuss molecular mechanism of blood enriching functions of paeoniflorin. Methods Flow cytometry and proteomics were used respectively to measure the effect of paeoniflorin on cell cycle and protein expression of HFCL. Results Paeoniflorin could promote HFCL from G_0/G_1 phase to S phase, increase proliferative index, up-regulate nine kinds of proteins, and down-regulate five kinds of proteins of HFCL. The proteins up-regulated include Ras-related nuclear protein, lamin A/C, isocitrate dehydrogenase 3 (NAD+), triosephosphate isomerase, ATP synthase, ribosomal protein P2, and chaperonin containing t-complex polypeptide 1. Conclusion Through promoting HFCL proliferation, acting on multiple protein targets, enhancing the synthesis of cytoarchitecture proteins and the expression of protein chaperonin, increasing the energy metabolism of HFCL, and suppressing the apoptosis of HFCL, paeoniflorin plays indirectly blood enriching function.

Objective Amiodarone was diluted to release the side effect of hypotension in clinic, but this maybe unsuitable during cardiopulmonary resuscitation (CPR). This study was designed to observe the effects of undiluted amiodarone, diluted amiodarone, and CPR alone on ventricular fibrillation (VF) in a pig model. MethodsVF was induced in 21 pigs. The animals were randomly (random mumber) divided into 3 groups after VF 3 min.① CPR group ( n= 7): standard CPR; ② undiluted amiodarone group ( n= 7): undiluted amiodarone (5 mg/kg)bolus within 3 s, then 20 mL saline flush into the peripheral vein, CPR was started after observed 30 s; ③ diluted amiodarone group ( n = 7): amiodarone was dissolved in 20 mL saline and bolus with 30 s. Defibrillation was attempted at VF 5 min. Results The restoration of spontaneous circulation (ROSC) of CPR and undiluted amiodarone groups were higher than diluted group (85.7％ vs. 71.4％ vs. 42.9％), but the differences were not significant (all P ＞0.05). The defibrillation energy and timesof CPR group were higher than that of undiluted amiodarone (P= 0.009) and diluted group ( P = 0. 170). The mean arterial pressure of undiluted amiodarone were lower than diluted and CPR groups at ROSC 10 min (all P ＜0.05), but the differences of undiluted and diluted groups were not significant after ROSC 0.5 h. Conclusions In this study, undiluted amiodaronecan effectively reduced the defibrillation times and energy. Although diluted amiodaronecan release the side effect of hypotension which was transient, it didn't significantly improved cardiac electric activity and delayed to start CPR.

Object To establish a method by high performance liquid chromatography/evaporative light scattering detector (HPLC-ELSD) for the determination of contents of D-fructose, D-glucose, and sucrose in Siwu Decoction (SWD). Methods Condensed SWD was analyzed by HPLC-ELSD after dilution, precipitation by ethanol. Results Condensed SWD, 1 mL, contained (33.4?1.5) mg of D-fructose, (24.2?0.9) mg of D-glucose and (112.7?6.1) mg of sucrose. The standard curves were linear within the range of 0.15—3.75 mg/mL for D-fructose and 0.15—5 mg/mL for D-glucose and sucrose. The recovery rates were 128.5% for D-fructose, 114.7% for D-glucose, and 124.7% for sucrose. The relative standard deviations (RSD) within-days were 3.0% for D-fructose, 3.2% for D-glucose, and 4.4% for sucrose. Conclusion SWD contains abundant monosaccharide and disaccharide. HPLC-ELSD can be used to analyse the monosaccharide and disaccharide in SWD.

Objective To investigate the effects and the gene expression of mitochondria on arsenic trioxide-induced apoptosis of acute promyelocytic leukemia (APL) NB4 cells. Methods NB4 cells were treated with As2O3. Fluorescent microscopy and flow cytometry were used and mitochondria membrane potential detection and RT-PCR were performed to observe the NB4 cell apoptosis, growth inhibitory effect and mitochondrial transmembrane potentials. Mitochondria genome primers were designed, and the expression of mitochondria genome at gene and protein levels was studied. Results Induced by As2O3, the NB4 cells showed typical morphological changes of apoptosis with a significant growth inhibitory effect. The ratios of NB4 cells apoptosis were 5.02%, 6.40%, 28.40% and 33.34%, respectively, when treated with As2O3 in concentrations of 0.5?mol/L, 1?mol/L, 2?mol/L and 3?mol/L. When treated with As2O3 in 0.5?mol/L, 1?mol/L, 2?mol/L, 4?mol/L and 8?mol/L at 48h, the mitochondria potential of NB4 cells was decreased by 12.8%, 21.6%, 66.9%, 83.7% and 83.8%, respectively. After the NB4 cell apoptosis was induced by As2O3, RT-PCR assay was used to detect the expression of 13 genes of mitochondria genome. The expression of COX2 gene was down-regulated in this process, while no change was found in the expression of other 12 genes. Conclusions As2O3 has shown to exert a significant effect on promoting apoptosis and growth inhibition on APL cells. The apoptotic effect induced by As2O3 on NB4 cells is closely related to a decrease of mitochondrial membrane potential. The expression change in the mitochondria gene COX2 is involved in the As2O3-induced apoptosis of NB4 cells.

To study the pharmacokinetics of cantide, an antisense oligonucleotide, and its metabolites after iv gtt administration in rhesus monkeys, a dual solid phase extraction pretreatment method coupling with non-gel sieving capillary electrophoresis analysis method was used for determination of cantide and its metabolites in plasma and their pharmacokinetic parameters were calculated. The pharmacokinetic behavior of cantide and its metabolites (M1 and M2) after iv gtt administration (8, 16 and 24 mg kg(-1)) in rhesus monkeys were investigated. After iv gtt administration of cantide to rhesus monkeys, cantide in plasma was eliminated rapidly and the terminal elimination half-life (t1/2) was 57.91-77.97 min, the correlation coefficients (r) to the dose of Cmax AUC(o-inf) and AUC(0-t) of the prototype was 0.9918, 0.9568 and 0.9773, respectively. The metabolites of cantide reached the Cmax following cantide immediately and the Cmax of metabolites were lower than that of the prototype. The CL(S) of cantide and its metabolites (M1 and M2) were 1.60-2.19, 5.92-8.58 and 6.07-8.78 mL min(-1) kg(-1), respectively. So, it is concluded that the Cmax of cantide and its metabolites increased with the dose, which is the same as their AUC(0-inf) and AUC(0-t). The CL(S) of metabolites were higher than that of the prototype. The MRT and t1/2 of metabolites in the high dose group increased obviously.

A new medical research technology that combines surface enhanced Raman spectroscopy (SERS)with labeling immune technique is emerging with the development of SERS.This paper is intended to describe the principles, research progress and existing problems relating to SERS labeling immunoassay technology.We also summarize the research techniques for improving the sensitivity of SERS labeling immunoassay and the methods to eliminate nonspecific adsorption in SERS labeling immunoassay.Furthermore,the future development of SERS labeling immunoassay technology is discussed.

Objective To prepare novel alkanethiol modified magnetic silver flower nanoparticles as SERS substrate to chloramphenicol for Raman detection and to determine their enhancement effect.Methods An alkanethiol was chosen as a surface modifier of the substrate and was self-assembled onto the magnetic silver flower nanoparticle surface.The chloram-phenicol molecules were enriched to the surface of the substrate by hydrophobic interaction and the effect for detection of chloramphenicol SERS signal was enhanced.Results It was found that the 1-hexanethiol-modified SERS substrate was able to lead to stronger enhancement than 1-dodecanethiol and octadecanethiol.Fe3 O4@SiO2-Ag-C6 was used to detect the chloramphenicol (10 -3 -10 -10 mol/L) and chloramphenicol in milk (10 -3 -10 -9 mol/L) by surface-enhanced Raman spectroscopy.The detection limits were 0.1 nmol/L (32 ppt) and 1 nmol/L (323 ppt) respectively.Conclusion Alkanethiol modified magnetic silver flower nanoparticles are a highly active SERS substrate, which can be used for detection of low concentrations of analytical substances.

Objective To develop a new type of Raman-enhanced substrate for rapid detection of E.coli based on label-free surface-enhanced Raman scattering( SERS) technology.Methods Stober’ s improved method was used to prepare 360 nm silica ( SiO2 ) nanospheres.Prepared gold core-silver shell nanoparticles( Au@Ag) of different size were attached to 360 nm SiO2 to fabricate the nanocomposites ( SiO2-Au@Ag ) that were characterized by transmission electron microscopy (TEM) and UV-visucl light adsorption spectra (UV-Vis).PATP was detected to select SiO2-Au@Ag with optimal SERS effect.This optimal SiO2-Au@Ag was used to obtain the sensitivity of PATP and E.coli detection after a simple mixed culti-vation.Results TEM images showed that Au@Ag aggregated with the size of Au@Ag attached to 360 nm SiO2 .UV-Vis spectra indicated that the maximum absorption of Au@Ag and SiO2-Au@Ag had a red shift with the invrease of Au@Ag size.The experiment results suggested that detection sensitivity of PATP by SiO2-100 nm Au@Ag 10 -10 mol/L, while the lowest detectable E.coli concentration was 105 CFU/ml.Conclusion The 360 nm SiO2 binding with 100nm Au@Ag exhibits great potential for SERS applications.

In order to obtain liposomes with properties of heptocyte-specificity and pH-sensitivity,four galactosylated derivatives were synthesized. A series of liposomes were prepared by mixing the galactosylated derivatives with DC-chol/DOPE respectively. The liposome 18-gal was proven to have favorable gene transfer efficiency to human hepatoma HepG2 cells, which was significantly inhibited in the presence of galactose solution, indicating that the liposomal transfection activity was mediated by asialoglycoprotein receptors. The liposome showed prominent pH-sensitivity and low cytotoxicity. Its optimum gene transfer conditions were also determined. The results showed that the liposome may be developed as a potential hepatocyte targeting pH sensitive delivery system for nucleic acid drugs.