Objective: The aim of the study was to observe the transfection efficacy of hepatitis B virus envelope (HBVE) and evaluate its ability as a gene transfer vector for liver cancer cells. Methods: To obtain HBVE, the...Objective: The aim of the study was to observe the transfection efficacy of hepatitis B virus envelope (HBVE) and evaluate its ability as a gene transfer vector for liver cancer cells. Methods: To obtain HBVE, the supematant fluid of HepG 2.2.15 cells was mixed with a PEG8000 solution for concentration and was inactivated by β-propiolactone. The acquired HBVE was used to pack plRES2-EGFP to test its package ability. Then, we examined its quantity and quality with ELISA, PCR, SDS-PAGE and electron microscopy. The plRES2-EGFP was packed with HBVE and obtained the product HBVE-GFP. The plRES2-EGFP was packed with liposome and obtained the product liposome-GFP. HBVE-GFP and liposome-GFP were used to transfer HepG 2 cells to study the transfection efficiency. HBVE-GFP was used to transfer HepG 2, A549, HeLa and FB cells to study the targeting ability. The green fluorescent protein (GFP) expression was observed under a fluorescent microscope. The rate of GFP positive cells was determined by flow cytometry. Results: 1. The acquired HBVE could retain the surface protein HBsAg + pre S1 + pre S2 and had no virus DNA. It had good package ability for plRES2-EGFP. 2. Transfection efficiency: The GFP could be observed in both the liposome group and HBVE group under the fluorescent microscope. But the HBVE group had a higher fluorescent intensity than liposome group. The transfection rate of liposome group was 49.97% + 2.37% while the HBVE group was 70.65% + 3.15% and the fluorescent intensity of the HBVE group was 3-4 times (P = 0.000) for liposome group with the determination of flow cytometry. 3. Targeting ability: The GFP could be observed in the four groups under the fluorescent microscope. The HepG 2 group had the highest fluorescent intensity among the four groups. The transfection rate of HepG 2 group was 71.35% + 0.03% which was highly expressed than other groups (P = 0.000) and the fluorescent intensity of the HepG 2 group was 2-3 times (P = 0.000) for the other 3 groups with the determination of flow cytometry. Conclusion: HBVE can be constructed successfully with the methods of PEG8000 and β-propiolactone from the supernatant fluid of HepG 22.15 cells. The HBVE can be a candidate gene transfer vector for liver cancer cells.展开更多
Objective To find neutralizing antibody candidates against hepatitis C virus (HCV) infection.Methods We constructed two eukaryotic expression vectors which contained the E1 and E2 gene of HCV, and detected their exp...Objective To find neutralizing antibody candidates against hepatitis C virus (HCV) infection.Methods We constructed two eukaryotic expression vectors which contained the E1 and E2 gene of HCV, and detected their expression in mammalian cells with transient expression. BALB/c mice were given subculaneous injections of constructed vectors combined with the IL-2 gene intraepidermally and evaluated for induced humoral immune responses by enzyme-linked immunosorbent assay (ELISA). We used an antibody-virus interaction assay to analyze the interaction of the antisera and HCV viral particles in vitro.Results Anti E1 and anti-E2 antisera were obtained from immunized mice. The serum of mice immunized with the E2 gene immunoprecipitated the HCV isolate in source serum and reacted with the isolates unrelated to the original one.Conclusions Anti-E2 antibody in induced mice can cross-reactively capture HCV particles, highlighting the possibility of generating broadly reactive anti-E2 antibodies.展开更多
基金Supported by a grant from the National Natural Sciences Foundation of China No 30100189
文摘Objective: The aim of the study was to observe the transfection efficacy of hepatitis B virus envelope (HBVE) and evaluate its ability as a gene transfer vector for liver cancer cells. Methods: To obtain HBVE, the supematant fluid of HepG 2.2.15 cells was mixed with a PEG8000 solution for concentration and was inactivated by β-propiolactone. The acquired HBVE was used to pack plRES2-EGFP to test its package ability. Then, we examined its quantity and quality with ELISA, PCR, SDS-PAGE and electron microscopy. The plRES2-EGFP was packed with HBVE and obtained the product HBVE-GFP. The plRES2-EGFP was packed with liposome and obtained the product liposome-GFP. HBVE-GFP and liposome-GFP were used to transfer HepG 2 cells to study the transfection efficiency. HBVE-GFP was used to transfer HepG 2, A549, HeLa and FB cells to study the targeting ability. The green fluorescent protein (GFP) expression was observed under a fluorescent microscope. The rate of GFP positive cells was determined by flow cytometry. Results: 1. The acquired HBVE could retain the surface protein HBsAg + pre S1 + pre S2 and had no virus DNA. It had good package ability for plRES2-EGFP. 2. Transfection efficiency: The GFP could be observed in both the liposome group and HBVE group under the fluorescent microscope. But the HBVE group had a higher fluorescent intensity than liposome group. The transfection rate of liposome group was 49.97% + 2.37% while the HBVE group was 70.65% + 3.15% and the fluorescent intensity of the HBVE group was 3-4 times (P = 0.000) for liposome group with the determination of flow cytometry. 3. Targeting ability: The GFP could be observed in the four groups under the fluorescent microscope. The HepG 2 group had the highest fluorescent intensity among the four groups. The transfection rate of HepG 2 group was 71.35% + 0.03% which was highly expressed than other groups (P = 0.000) and the fluorescent intensity of the HepG 2 group was 2-3 times (P = 0.000) for the other 3 groups with the determination of flow cytometry. Conclusion: HBVE can be constructed successfully with the methods of PEG8000 and β-propiolactone from the supernatant fluid of HepG 22.15 cells. The HBVE can be a candidate gene transfer vector for liver cancer cells.
文摘Objective To find neutralizing antibody candidates against hepatitis C virus (HCV) infection.Methods We constructed two eukaryotic expression vectors which contained the E1 and E2 gene of HCV, and detected their expression in mammalian cells with transient expression. BALB/c mice were given subculaneous injections of constructed vectors combined with the IL-2 gene intraepidermally and evaluated for induced humoral immune responses by enzyme-linked immunosorbent assay (ELISA). We used an antibody-virus interaction assay to analyze the interaction of the antisera and HCV viral particles in vitro.Results Anti E1 and anti-E2 antisera were obtained from immunized mice. The serum of mice immunized with the E2 gene immunoprecipitated the HCV isolate in source serum and reacted with the isolates unrelated to the original one.Conclusions Anti-E2 antibody in induced mice can cross-reactively capture HCV particles, highlighting the possibility of generating broadly reactive anti-E2 antibodies.
