Sequential control of hepatitis B virus in a mouse model of acute, self-resolving hepatitis B.

The determinants of an immune response to the human hepatitis B virus (HBV) are poorly understood. As studies in man and chimpanzees are limited, we aimed at developing a model of self-limiting hepatitis B in mice that helps to dissect the control of HBV by humoral and cellular immune responses. Adenoviral vectors containing 1.3-fold HBV genomes allowed an efficient and reproducible transfer of HBV genomes into mouse livers and initiated HBV replication in mice. HBV transcripts were detected in mouse livers for more than 3 months. HBsAg and HBeAg peaked around day 6 and slowly declined thereafter. A two-phase mild to moderate liver inflammation with elevated serum alanine transaminase activities was observed around day 7 and around day 70 when the vast majority of HBV-specific T cells were detected in the liver. HBV was initially controlled when specific and nonspecific T cells infiltrated the liver and intrahepatic interferon γ levels peaked around day 7, but replicated again from day 10 to day 24 and persisted at low levels thereafter despite the presence of HBV-specific T cells. Finally, HBV replication was terminated after a sufficient B-cell response had been mounted- indicated by anti-HBs seroconversion around day 35. HBV-specific T cells infiltrated the liver a second time around day 70 postinfection. This demonstrates that the established mouse model allows studying the onset and termination of HBV infection and will help to dissect the determinants of HBV control and clearance by the immune response.

Liver-specific expression of interferon gamma following adenoviral gene transfer controls hepatitis B virus replication in mice.

Interferons control viral replication and the growth of some malignant tumors. Since systemic application may cause severe adverse effects, tissue-specific expression is an attractive alternative. Liver-directed interferon gene therapy offers promising applications such as chronic viral hepatitis B or C or hepatocellular carcinoma and thus needs testing in vivo in suitable animal models. We therefore used the Tet-On system to regulate gene expression in adenoviral vectors, and studied the effect of liver-specific and regulated interferon gamma expression in a mouse model of chronic hepatitis B virus (HBV) infection. In a first generation adenoviral vector, genes encoding for firefly luciferase and interferons alpha, beta or gamma, respectively, were coexpressed under control of the bidirectional tetracycline-regulated promoter P(tet)bi. Liver-specific promoters driving expression of the reverse tetracycline controlled transactivator ensured local expression in the livers of HBV transgenic mice. Following gene transfer, we demonstrated low background, tight regulation and a 1000-fold induction of gene expression by doxycycline. Both genes within the bidirectional transcription unit were expressed simultaneously, and in a liver-specific fashion in cell culture and in living mice. Doxycycline-dependent interferon gamma expression effectively controlled HBV replication in mice, but did not eliminate HBV transcripts. This system will help to study the effects of local cytokine expression in mouse disease models in detail.

Transfer of hepatitis B virus genome by adenovirus vectors into cultured cells and mice: crossing the species barrier.

For the study of hepatitis B virus infection, no permissive cell line or small animal is available. Stably transfected cell lines and transgenic mice which contain hepadnavirus genomes produce virus, but--unlike in natural infection--from an integrated viral transcription template. To transfer hepadnavirus genomes across the species barrier, we developed adenovirus vectors in which 1.3-fold-overlength human and duck hepatitis B virus genomes were inserted. The adenovirus-mediated genome transfer efficiently initiated hepadnavirus replication from an extrachromosomal template in established cell lines, in primary hepatocytes from various species, and in the livers of mice. Following the transfer, hepatitis B virus proteins, genomic RNA, and all replicative DNA intermediates were detected. Detection of covalently closed circular DNA in hepatoma cell lines and in primary hepatocytes indicated that an intracellular replication cycle independent from the transferred linear viral genome was established. High-titer hepatitis B virions were released into the culture medium of hepatoma cells and the various primary hepatocytes. In addition, infectious virions were secreted into the sera of mice. In conclusion, adenovirus-mediated genome transfer initiated efficient hepatitis B virus replication in cultured liver cells and in the experimental animals from an extrachromosomal template. This will allow development of small-animal systems of hepatitis B virus infection and will facilitate study of pathogenicity of wild-type and mutant viruses as well as of virus-host interaction and new therapeutic approaches.

Male mice deficient for germ-cell cyritestin are infertile.

Cyritestin is a membrane-anchored sperm protein belonging to the ADAM (f1.gif" BORDER="0"> f2.gif" BORDER="0">isintegrin and f1.gif" BORDER="0"> f3.gif" BORDER="0">etalloprotease) family of proteins, which are proposed to be involved in cell-cell adhesion through binding to integrin receptors. Several lines of evidence support a role of cyritestin and other members of this protein family in the fusion of sperm and the egg plasma membrane. In an effort to elucidate the physiological function of cyritestin, we have disrupted its locus by homologous recombination. Male homozygous null mutants are infertile, even though spermatogenesis, mating, and migration of sperm from the uterus into the oviduct are normal. In vitro experiments showed that infertility is due to the inability of the cyritestin-deficient sperm to bind to the zona pellucida. However, after removal of the zona pellucida, sperm-egg membrane fusion monitored by the presence of pronuclei and generation of 2- and 4-cell embryos did not reveal any differences from the wild-type situation. These results demonstrate that cyritestin is crucial in the fertilization process at the level of the sperm-zona pellucida interaction.

Functional and molecular characterization of the transcriptional regulatory region of the proacrosin gene.

Proacrosin, the zymogen form of the serine protease acrosin, is located within the acrosomal vesicle of mammalian spermatozoa and has been suggested to be involved in the fertilization process. In mouse and rat, expression of the proacrosin gene starts in pachytene spermatocytes and continues through the early stages of spermiogenesis. We have shown recently that 2.3 kilobase pairs of the 5'-flanking region of the rat proacrosin gene is sufficient to direct chloramphenicol acetyltransferase gene expression in a germ cell-specific and developmental stage-specific manner in the mouse. Additional transgenic lines have been generated which include two deletions in the 5'-flanking region and a tyrosinase minigene as marker for gene expression. Transgenic mice bearing these two truncated fragments showed different patterns of reporter gene expression. Transgenic lines (BM, B3, B2) harboring the 397-base pair (bp) fragment (from 45 to 442 bp upstream of ATG) showed no chloramphenicol acetyltransferase (CAT) activity in either testis or other tissues, but analysis via reverse transcription polymerase chain reaction confirmed low levels of reporter gene transcription in testis. Transgenic line TC bearing a longer fragment of 877 bp (from 45 to 922 bp upstream of ATG) showed a reporter gene expression and chloramphenicol acetyltransferase enzyme activity which was identical to that found in mice harboring the 2.3-kilobase pair 5'-flanking region. The analysis of the CAT gene expression during testicular development showed diploid transcription and haploid translation. It can be concluded that all sequences required for a basic level of testis-specific transcription of transgene are present within the 397-bp fragment, and other DNA sequences located outside of the 397-bp fragment but present within the 877-bp fragment can function as enhancer elements. Two fragments within the 877-bp region were identified by gel retardation assays as binding exclusively to nuclear factor(s) from testis protein extracts. In both fragments we identified sequence elements which are present in the promoter region of the germ cell-specific genes for histone H2B and protamine 1, respectively.

Diploid expression and translational regulation of rat acrosin gene.

Acrosin, a sperm acrosomal serine protease has been implicated in the recognition, binding and penetration of the zona pellucida of the ovum. Biosynthesis of acrosin was found to start in early round spermatids which are haploid germ cells. Here, we report that acrosin gene transcription occurs as early as at day 19 of rat spermatogenesis which contains diploid but not haploid spermatogenic cells. Translational control of the acrosin gene may be due to cytoplasmic protein factors which through RNA-bandshift experiments were found to bind to the 5'UTR of the acrosin mRNA. In order to differentiate between diploid and haploid spermatogenic cells at the molecular level, transcription of the protamine 2 gene during rat testicular development was evaluated. Protamine 2 transcripts could be demonstrated for the first time in 25-day-old testes which contain diploid as well as haploid spermatogenic cells.