[The effect of envelope protein mutation on hepatitis B virus assemble].

OBJECTIVE: To investigate the effect of envelope protein mutation on HBV assembly. METHODS: The envelope protein mutated vectors were constructed by the molecular clone in vitro, and then transfected transiently in the cell HepG2. The expression and secretion of S protein was assay by ELISA. HBV DNA was quantitatively evaluated by PCR. After co-transfection with pHBV-mS1S and adwR9 the DNA was quantitatively evaluated by PCR. RESULTS: There was no significant difference in expression and secretion of S protein assayed by ELISA in the cytoplasm and supernatant among pHBV-mS1, pHBV-mS, pHBV-mS1S and the wild HBV adwR9 plasmid. The DNA detected by real-time fluorescence quantitative PCR from those the cytoplasm of mutants was higher than that from the wild HBV adwR9 cytoplasm, especially from the cytoplasm of pHBV-mS1S plasmid. However, the DNA detected by real-time fluorescence quantitative PCR from the supernatant of those mutants was lower than that from the wild HBV adwR9 supernatant, especially from pHBV-mS1S. The DNA detected by real-time fluorescence quantitative PCR from the supernatant co-transfected with pHBV-mS1S and adwR9 was lower than that from the supernatant co-transfected with pcDNA3 and adwR9. CONCLUSION: There was no effect of envelope protein mutation on the expression and secretion of S protein. Envelope protein mutation could interfere the assembly of HBV particle and cause reduction of secretion of HBV.

[Development of hygromycin-resistant packaging cell line for hepatitis B virus-derived vectors].

OBJECTIVE: To cooperate with the study of HBV vector, hygromycin-resistant packaging cell line was developed that allows encapsidation of plasmids into HBV particles. METHODS: Free of packaging signal, HBV genome was inserted into plasmid pMEP4, which expresses the HBV structural proteins including core, pol and preS/S proteins. HepG2 cell lines were employed to transfect with the construct. Hygromycin selection was done at a concentration of 150 micrograms/ml in the culture medium. The hygromycin-resistant clones with the best expressions of HBsAg and HBcAg were theoretically considered as packaging cell line and propagated under the same conditions. It was infected with recombinant retrovirus vector and hen selected with G418 and hygromycin in the culture medium. The existence of recombinant HBV virion in the culture medium was examined by PCR. RESULTS: Hygromycin-resistant HBV packaging cell line was generated, which harbored an HBV mutant whose packaging signal had been deleted. Expressions of HBsAg and HBcAg were detectable. Infected with recombinant retrovirus pRV-CP, the hygromycin-resistant packaging cell line was found to secrete mutant HBV particles and no wild-type HBV was detectable in the culture medium. CONCLUSION: After the packaging signal was deleted and transfected into HepG2 cell lines, the partial HBV genome lost its ability to form wild-type HBV, but conserves cis-action providing structural proteins for the packaging of the replication-defective HBV.

[Replication and encapsidation of HBV mutants with the truncated C gene].

OBJECTIVE: To evaluate the replication and encapsidation of HBV mutants with the truncated C gene. METHODS: The HBV mutants with the truncated C gene were constructed by molecular cloning and PCR-based deletion in vitro. The replication and encapsidation of HBV mutants were investigated by Southern blotting, PCR and real-time fluorescence PCR respectively after transfecting the HBV mutants plasmid into HepG2 cells by using liposome. RESULTS: The C-truncated HBV mutant vectors were constructed successfully and confirmed exactly by clone sequencing and enzymes digestion. The C-truncated HBV mutants were replication defective, however, all types of HBV DNA could be detected positive in the cytoplasm and supernatant after co-transfecting the C-truncated HBV mutants plasmid and the helper constructs into HepG2 cells. The C-truncated HBV mutants were proved to produce 3-40 folds more progeny DNA than that of the wild-type HBV by DNA quantitative assay. CONCLUSION: The C-truncated HBV mutants are replication-deficient and could not replicate and encapsulate in the hepatocytes when transfected solely, however, the progeny HBV-variant viruses are encapsidated more effectively to secrete into supernatant when co-transfected with the helper construct which lacks part of 5 prime-proximal HBV RNA packaging signal Epsilon.