Clone 4.10 cells were isolated as a methotrexate-resistant clone arising after cotransfection of mouse 3T3 cells with plasmid DNA containing a head-to-tail dimer of the hepatitis B virus (HBV) genome and DNA coding for methotrexate-resistant dihydrofolate reductase. The majority of methotrexate-resistant clones derived by this procedure have been found to contain multiple copies of the HBV genome, but the intact HBV dimer was rarely preserved. In contrast, 4.10 cells contained at least 40 copies of intact HBV dimer per cell. These cells produced large amounts of 22-nm hepatitis B surface antigen particles that included viral envelope proteins reactive with the pre-S2 region-specific antibody, indicating transcription and translation of the pre-S2 and S regions of the integrated viral genomes. The cells also synthesized viral e antigen, which was released into the culture medium. Characterization of polyadenylated viral RNAs transcribed from the long (minus) strand of the integrated HBV DNA demonstrated the presence of (i) shorter-than-genome-length RNAs containing only X region sequences, (ii) shorter-than-genome-length RNAs containing both X and S region sequences, and (iii) longer-than-genome-length RNAs containing core, X, and S region sequences. Start sites for transcripts were mapped 5' to and within the pre-S region and 5' to and within the precore region at approximately the same sites as those utilized for HBV transcription during viral replication in infected livers. Polyadenylated RNA transcripts complementary to the short (plus) strand of HBV that initiated and terminated within the intact and integrated head-to-tail tandem viral genomes were also detected.
The region of the hepatitis B virus (HBV) genome coding for the viral envelope proteins contains three inphase ATGs that are conserved among viral subtypes. Each of these ATGs can be used as mRNA initiation codons. The three translated proteins share a carboxy-terminal region (the S protein) and extend amino-terminally to include the pre-S2 region in the middle (M) protein, and the pre-S1 and pre-S2 regions in the large (L) protein. We have inserted the HBV DNA coding for the M protein into a baculovirus expression vector. Infected insect cells transcribe a mRNA that is initiated solely within a baculovirus promoter, and that contains the initiator codons for both M and S proteins. Although these cells primarily secrete the M protein, the major translational product is the S protein, which is not secreted. This preferential translation, the result of the use of an internal initiator codon, demonstrates that the regulation of HBV envelope protein production can occur at the translational level.
Effect of 5-Azacytidine and y-Interferon or Dimethyl Sulfoxide on Expression of HLA Class I Antigens by PLC-PRF-5 Cells. Tohoku J. exp. Med., 1988, 155 (2), 117-128 In order to elucidate the mechanism by which HLA antigens expression is induced or enhanced on the injuried or transformed hepatocytes, we have made in vitro studies using human hepatic tumor-derived cell lines as a model system. In the present study, PLC-PRF-5 cells that have the integrated form of hepatitis B virus genome in DNA were treated with 5-azacytidine (5-azaC) in combination with y-interferon (IFN-y) or dimethyl sulfoxide (DMSO). HLA antigens on the cell surface were quantitated by using a modified cell-ELISA method. As a result, it was demonstrated that DMSO-or IFN-y-treatment enhanced expression of HLA class I antigens on the cell surface. In addition, enhanced expression of the antigens on PLC-PRF-5 cells treated with 5-azaC in combination with IFN-y or DMSO represented a synergistic effect of these inducers on HLA class I antigens expression although no changes in HLA antigens expression were induced after 5-azaC-treatment alone in short-term experiments. Furthermore, an indirect immunofluorescent analysis of hepatitis B surface antigen on the cells demonstrated increased expression of the antigen after 5-azaC-treatment alone. HLA class II antigens and hepatitis B core antigen were not induced even after those treatments and also not after a long-term experiment. These results might indicate possible modulation of HLA class I and hepatitis B virus antigens expression on the cultured cells by a DNA hypomethylating agent, 5-azaC. 5-azacytidine ; y-interferon ; dimethyl sulfoxide ; HLA antigens ; hepatitis B virus infection
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