腺相关病毒载体介导siRNA抑制HBV的表达与复制

目的：构建并制备能够有效抑制HBV mRNA表达的siRNA重组腺相关病毒。 方法：将筛选到的siRNA片段克隆入骨架质粒pAAVMCS中,与pAAVRC和pHelper质粒共转染人胚肾293T细胞,包装出重组腺相关病毒,将纯化后的重组病毒直接感染Hep G 2.2.15细胞,通过酶联免疫法和荧光定量PCR法检测重组腺相关病毒的抑制效果。结果：重组腺相关病毒显著降低HBV 分泌的相关抗原蛋白以及DNA和RNA水平。结论：重组腺相关病毒载体介导的siRNA能够有效抑制HBV的表达与复制。     

Chemical Constituents of Saniculiphyllum guangxiense

The first phytochemical investigation on Saniculiphyllum guangxiense resulted in the isolation of two new triterpenoids, 16β-hydroxybryodulcosigenin (3) and 3α-O-feruloylolean-12-en-27-oic acid (6), together with six known compounds, menisdaurin (1), purshianin (2), oleanolic acid (4), 3β-hydroxyolean-12-en-27-oic acid (5), β-sitosterol (7), and daucosterol (8), which were characterized by extensive spectroscopic analyses and in one case by X-ray diffraction. According to this primary investigation, S. guangxiense is rich in nitrile glucosides and triterpenoids, of which menisdaurin (1; 0.06%) and purshianin (2; 0.015%) are the main constituents. Compounds 1-6 were assayed for their anti-hepatitis B virus (HBV) activities against the secretion of HBsAg and HBeAg, as well as HBV DNA replication on Hep G 2.2.15 cell line in vitro. The most active compound, menisdaurin (1), inhibits HBV DNA replication with an IC(50) value of 0.32?mM (SI>11.97).     

Two new lignans and anti-HBV constituents from Illicium henryi

Two new lignans, dihydrodehydrodiconiferyl alcohol 9‐O‐β‐D ‐(3″‐O‐acetyl)‐xylopyranoside ( 1 ) and threo‐4,9,9′‐trihydroxy‐3,3′‐dimethoxy‐8‐O‐4′‐neolignan 7‐O‐α‐rhamnopyranoside ( 2 ) were isolated from Illicium henryi, together with ten known compounds, 3 – 12 . Their structures were elucidated by extensive spectroscopic analyses. The anti‐hepatitis B virus (anti‐HBV) activity of compounds 1 – 12 inhibiting HBV surface antigen (HBsAg) and HBV e antigen (HBeAg) secretion on Hep G2.2.15 cell line was evaluated. (−)‐Dihydrodehydrodiconiferyl alcohol ( 4 ) showed moderate inhibitory activity on both HBsAg and HBeAg secretion with IC₅₀ values of 0.06 and 0.53 mM , respectively.     

Alkaloids from Corydalis saxicola and their anti-hepatitis B virus activity

Eight protoberberine-type alkaloids and two indole alkaloids were isolated from the MeOH extracts of the herb Corydalis saxicola Bunting (Papaveraceae). Their structures were identified as dehydrocavidine (1), dehydroapocavidine (2), dehydroisoapocavidine (3), berberine (4), dehydroisocorypalmine (5), coptisine (6), tetradehydroscoulerine (7), berbinium (8), 1-formyl-5-methoxy-6-methylindoline (9), and 1-formyl-2-hydroxy-5-methoxy-6-methylindoline (10). Compounds 3, 9, and 10 are new alkaloids. All compounds were tested for anti-HBV activity against the 2.2.15 cell line in vitro. Dehydrocavidine (1), dehydroapocavidine (2), and dehydroisoapocavidine (3) exhibited inhibitory activity against HBsAg and HBeAg, but no cytotoxicity against the 2.2.15 cell line.     

Interaction between nucleophosmin and HBV core protein increases HBV capsid assembly

Host factors are involved in Hepatitis B virus (HBV) genome replication and capsid formation during the viral life cycle. A host factor, nucleophosmin (B23), was found to bind to HBV core protein dimers, but its functional role has not been studied. This interaction promoted HBV capsid assembly and decreased the degree of capsid dissociation when subjected to denaturant treatments in vitro. In addition, inhibition of B23 reduced intracellular capsid formation resulting in a decrease of HBV production in HepG2.2.15 cells. These results provide important evidence that B23 acts on core capsid assembly via its interaction with HBV core dimers.     

Isolation of quinic acid derivatives and flavonoids from the aerial parts of Lactuca indica L. and their hepatoprotective activity in vitro

In our continuing study of biologically active compounds from Korean medicinal plants, we investigated the hepatoprotective constituents of the aerial parts of Lactuca indica L. (Compositae), since the methanolic extract of L. indica has hepatoprotective activity against hepatitis B virus (HBV) production. The bioactivity-guided separation of the methanolic extract of the aerial parts of L. indica resulted in the isolation of seven quinic acid derivatives (1, 3–4, 6, and 10–12), along with five flavonoids (2, 5, and 7–9). All the isolated compounds were evaluated for hepatoprotective activity by the HBV assay in vitro. In the human HBV-transfected liver cell line HepG2.2.15, all the compounds except 2 and 5 effectively reduced HBV DNA level in the release of mature HBV particles from HepG2.2.15 cultivation. Of the ten active compounds, treatment with 1, 3, and 12 led to significant reduction in the extracellular HBV DNA level, suggesting that they could be potent phytochemical agents against hepatitis B virus.     

Proteome responses to stable hepatitis B virus transfection and following interferon alpha treatment in human liver cell line HepG2

Hepatitis B virus (HBV) infection is a worldwide health problem and may develop to liver fibrosis, cirrhosis, and even hepatocellular carcinoma. To investigate the global proteome responses of liver‐derived cells to HBV infection and IFNα treatment, 2‐DE and MS‐based analysis were performed to compare the proteome changes between HBV stably transfected cell line HepG2.2.15 and its parental cell line HepG2, as well as HepG2.2.15 before and after IFNα treatment (5000 IU/mL for 72 h). Compared to HepG2, 12 of 18 down‐regulated and 27 of 32 up‐regulated proteins were identified in HepG2.2.15. After IFNα treatment, 6 of 7 down‐regulated and 11 of 14 up‐regulated proteins were identified. Differentially expressed proteins caused by HBV infection were involved with cytoskeletal matrix, heat shock stress, kinases/signal transduction, protease/proteasome components, etc. Prohibitin showed a dose‐dependent up‐regulation during IFNα treatment and might play a potent role in anti‐HBV activities of IFNα by enhancing the crossbinding p53 expression to achieve the apoptosis of HBV infected liver cells. Down‐regulation of interferon‐stimulated gene 15 (ISG15) in HepG2.2.15 and recovery by IFNα suggested its relationship with IFNα's anti‐HBV effect.     

Bullatacin, a potent antitumor annonaceous acetogenin, inhibits proliferation of human hepatocarcinoma cell line 2.2.15 by apoptosis induction

Bullatacin, isolated from the fruit of Annona atemoya, is one of the most potentially effective antitumor annonaceous acetogenins. Bullatacin was studied here for its ability to inhibit the proliferation of 2.2.15 cells, hepatitis B virus (HBV) DNA transfected human hepatocarcinoma cell line. It was found that bullatacin induced cytotoxicity of 2.2.15 cells in a time- and dose-dependent manner. Fifty percent effective dose (ED50) on day 1 of exposure to bullatacin were 7.8 +/- 2.5 nM for 2.2.15 cells. [3H]-Thymidine incorporation assays showed almost the same results. Bullatacin-treatment also reduced concentrations of hepatitis B surface antigen (HBsAg) in the cultured medium released from 2.2.15 cells, coincident with the decrease in the cell proliferation. Analysis of mophological changes of bullatacin-treated 2.2.15 by inverted phase-contrast microscope and eletron microscopy revealed a possible model of action for bullatacin to inhibit proliferation of 2.2.15 cells by inducing apoptosis. Most of the bullatacin-induced cell death was found to be due to apoptosis, as determined by double staining with fluorescein-isothiocyanate (FITC)-labeled annexin V and propidium iodide (PI).     

Anti-HBV active constituents from Piper longum

In the screening search for Hepatitis B virus inhibitory agents from medicinal plants, the ethanol extract of Piper longum Linn. was found to possess superior anti-HBV activity in vitro. Bioassay-guided fractionation coupled with repeated purification resulted in the isolation of four new compounds, involving two new glycosides longumosides A (1) and B (2) and two new amide alkaloids erythro-1-[1-oxo-9(3,4-methylenedioxyphenyl)-8,9-dihydroxy-2E-nonenyl]-piperidine (3), threo-1-[1-oxo-9(3,4-methylenedioxyphenyl)-8,9-dihydroxy-2E-nonenyl]-piperidine (4), as well as two compounds 3β,4α-dihydroxy-2-piperidinone (5), 5,6-dihydro-2(1H)-pyridinone (6) from natural source for the first time. The structures of the four new compounds were determined by extensive analyses of the MS, IR, 1D and 2D NMR data. Besides, the compounds 2–6, together with the known compounds 7–11 obtained previously, were assayed for their anti-HBV activity by using Hep G 2.2.15 cell line in vitro. Results suggested the compound piperine (7) possessed remarkable inhibitory HBV activity, against the secretion of hepatitis B virus surface antigen (HBsAg) and hepatitis B virus e antigen (HBeAg) with the Selectivity Index (SI) values of 15.7 and 16.8, respectively.     

研究报告：蚓激酶同工酶降解乙型肝炎抗原并保护肝功能

目的蚓激酶同工酶(LKIs)作为肠溶胶囊的有效成分,用于治疗血栓性疾病已有30多年历史。近年来,LKIs在其他危重疾病中的研究时有报道。本文关注LKIs在乙型肝炎方面的作用。方法乙型肝炎表面抗原(HBs Ag)、核心抗原(HBcAg)和e抗原(HBeAg)分别与不同浓度LKIs孵育,观察这些蛋白质的降解和估计肽链的切割位点。Hep G2.2.15细胞与LKIs孵育,采用酶联免疫吸附测定(ELISA)和蛋白质印迹(Western blotting)检测细胞分泌的HBsAg和HbeAg。LKIs灌胃Balb/c小鼠30天,采用ELISA和Western blotting检测其血清HBsAg和HBeAg,免疫组化染色检测肝组织中的HBcAg。采用苏木精-伊红染色分析乙肝病毒转基因小鼠肝组织的损害,并通过ELISA定量分析血清谷草转氨酶(GOT)和谷丙转氨酶(GPT)。腹腔注射后,取大鼠血清和肝组织,测定其中的LKIs含量,从而观察LKIs的吸收。采用LKIs给龙岩麻鸭灌胃30天,通过PCR检测其血清HBV DNA。结果蚓激酶肠溶胶囊的有效成分是含有6种LKIs的复方蛋白酶药物,可以降解HBV...     

Development of HBsAg-binding aptamers that bind HepG2.2.15 cells via HBV surface antigen

Hepatitis B virus surface antigen(HBsAg),a specific antigen on the membrane of Hepatitis B virus (HBV)-infected cells,provides a perfect target for therapeutic drugs.The development of reagents with high affinity and specificity to the HBsAg is of great significance to the early-stage diagnosis and treatment of HBV infection.Herein,we report the selection of RNA aptamers that can specifically bind to HBsAg protein and HBsAg-positive hepatocytes.One high affinity aptamer,HBs-A22,was isolated from an initial 115 mer library of ~1.1×10 15 random-sequence RNA molecules using the SELEX procedure.The selected aptamer HBs-A22 bound specifically to hepatoma cell line HepG2.2.15 that expresses HBsAg but did not bind to HBsAg-devoid HepG2 cells.This is the first reported RNA aptamer which could bind to a HBV specific antigen.This newly isolated aptamer could be modified to deliver imaging,diagnostic,and therapeutic agents targeted at HBV-infected cells.     

Design, synthesis and cytotoxic effect of hydroxy- and 3-alkylaminopropoxy-9,10-anthraquinone derivatives

In previous paper, we have reported the synthesis and the cytotoxic effect of 1,3-dihydroxy-9,10-anthraquinone derivatives. For further design of more potent compounds, a new series of 1-hydroxy-3-(3-alkylaminopropoxy)-9,10-anthraquinones and 3-(3-alkylaminopropoxy)-9,10-anthraquinones have been synthesized. The cytotoxicity of synthetic compounds were evaluated against human Hep G2, Hep 3B and HT-29 cells. Almost all compounds indicated significant inhibitory activity against Hep G2, Hep 3B and HT-29 cell lines in vitro. Compound 5 exhibited selective cytotoxicity against Hep G2 in a concentration-dependent manner with ED50 value of 1.23 +/- 0.05 microM. Structure-activity analysis revealed that most of the 1-hydroxy-3-(3-alkylamino-2-hydroxypropoxy)-9,10-anthraquinone showed stronger cytotoxic effects than those of 1-hydroxy-3- or 3-(3-alkylaminopropoxy)-9,10-anthraquinones against Hep 3B cell line in vitro. A sub-G1 cell stage and DNA fragmentation in MCF-7 cells were significantly observed after 72 h incubation with selective compound 16. The results show that 16 causes cell death by apoptosis.     

Anti-hepatitis B virus constituents from the stem bark of Streblus asper

Seven compounds, (7′S,8′S)-trans-streblusol A, (7′R,8′S)-erythro-streblusol B, (7′S,8′S)-threo-streblusol B, 8′R-streblusol C, streblusquinone, (8R,8′R)-streblusol D, and streblusol E, along with 15 known compounds (8–22) were isolated from the n-butanol-soluble part of the MeOH extract of stem bark of Streblus asper. Their structures were elucidated through application of extensive spectroscopic methods, including ESI-MS and 2D NMR spectroscopy (HMQC and HMBC). The stereochemistry at the chiral centers was determined using CD spectra, as well as analyses of coupling constants and optical rotation data. The isolated lignans and allylbenzene derivatives were evaluated for their anti-HBV activities in vitro using the HBV transfected Hep G2.2.15 cell line. The most active compounds, magnolol and 9-β-xylopyranosyl-isolariciresinol, exhibited significant anti-HBV activities with IC₅₀ values of 2.03 and 6.58 μM for secretion of HBsAg, with no cytotoxicity, and of 3.76 and 24.86 μM for secretion of HBeAg, with no cytotoxicity.     

Two-dimensional blue native/SDS-PAGE analysis reveals heat shock protein chaperone machinery involved in hepatitis B virus production in HepG2.2.15 cells

Hepatitis B virus (HBV) infection is a major health concern with more than two billion individuals currently infected worldwide. Despite the prevalence of infection, gaining a complete understanding of the molecular mechanisms of HBV infection has been difficult because HBV cannot infect common immortalized cell lines. HepG2.2.15, however, is a well established version of the HepG2 cell line that constitutively expresses HBV. Therefore, comparative proteomics analysis of HepG2.2.15 and HepG2 may provide valuable clues for understanding the HBV virus life cycle. In this study, two-dimensional blue native/SDS-PAGE was utilized to characterize different multiprotein complexes from whole cell lysates between HepG2.2.15 and HepG2. These results demonstrate that two unique protein complexes existed in HepG2.2.15 cells. When these complexes were excised from the gel and subjected to the second dimension separation and the proteins were sequenced by mass spectrometry, 20 non-redundant proteins were identified. Of these proteins, almost 20% corresponded to heat shock proteins, including HSP60, HSP70, and HSP90. Antibody-based supershift assays were used to verify the validity of the distinct protein complexes. Co-immunoprecipitation assays confirmed that HSP60, HSP70, and HSP90 proteins physically interacted in HepG2.2.15 but not HepG2 cells. We further demonstrated that down-regulation of HSP70 or HSP90 by small interfering RNA significantly inhibited HBV viral production but did not influence cellular proliferation or apoptosis. Consistent with these results, a significant reduction in HepG2.2.15 HBV secretion was observed when the HSP90 inhibitor 17-allylamino-17-demethoxygeldanamycin was used to treat HepG2.2.15 cells. Collectively these results suggest that the interaction of HSP90 with HSP70/HSP60 contributes to the HBV life cycle by forming a multichaperone machine that may constitute therapeutic targets for HBV-associated diseases.     

Stable expression and integrated hepatitis B virus genome in a human hepatoma cell line

HepG2.2.15 cell is a widely used cell model for studying HBV (hepatitis B virus) in vitro. In these cells, the HBV genome is integrated in several sites of HepG2 cellular DNA. These multiple copies may have some influence on the cellular processes. We constructed a new plasmid, pSEH-Flag-HBV, and transfected it into HepG2 cells, and then screened it with hygromycin. We then used ELISA, PCR, and RT-PCR to detect the expression of HBV in these cell lines. A cell line that stably expressed hepatitis B e antigen (HBeAg) and hepatitis B surface antigen (HBsAg) was established. Using Southern blotting analysis, we found that the HBV genome was integrated as a single copy in the cellular DNA. This cell line will be a useful alternative model for HBV studies.