Hepatoblastoma, the most common pediatric liver cancer, is tightly linked to excessive Wnt/beta-catenin signaling. Here, we used microarray analysis to identify two tumor subclasses resembling distinct phases of liver development and a discriminating 16-gene signature. beta-catenin activated different transcriptional programs in the two tumor types, with distinctive expression of hepatic stem/progenitor markers in immature tumors. This highly proliferating subclass was typified by gains of chromosomes 8q and 2p and upregulated Myc signaling. Myc-induced hepatoblastoma-like tumors in mice strikingly resembled the human immature subtype, and Myc downregulation in hepatoblastoma cells impaired tumorigenesis in vivo. Remarkably, the 16-gene signature discriminated invasive and metastatic hepatoblastomas and predicted prognosis with high accuracy.
SummaryThe plasticity of developing tissues relies on the adjustment of cell survival and growth rate to environmental cues. This includes the effect of mechanical cues on cell survival. Accordingly, compaction of an epithelium can lead to cell extrusion and cell death. This process was proposed to contribute to tissue homeostasis but also to facilitate the expansion of pretumoral cells through the compaction and elimination of the neighboring healthy cells. However, we know very little about the pathways that can trigger apoptosis upon tissue deformation, and the contribution of compaction-driven death to clone expansion has never been assessed in vivo. Using the Drosophila pupal notum and a new live sensor of ERK, we show first that tissue compaction induces cell elimination through the downregulation of epidermal growth factor receptor/extracellular signal regulated kinase (EGFR/ERK) pathway and the upregulation of the pro-apoptotic protein Hid. Those results suggest that the sensitivity of EGFR/ERK pathway to mechanics could play a more general role in the fine tuning of cell elimination during morphogenesis and tissue homeostasis. Second, we assessed in vivo the contribution of compaction-driven death to pretumoral cell expansion. We found that the activation of the oncogene Ras in clones can downregulate ERK and activate apoptosis in the neighboring cells through their compaction, which eventually contributes to Ras clone expansion. The mechanical modulation of EGFR/ERK during growth-mediated competition for space may contribute to tumor progression.
In order to study the Salmonella typhimurium cobalamin biosynthetic pathway, the S. typhimurium cob operon was isolated and cloned into Escherichia coli. This approach has given the new host of the cob operon the ability to make cobalamins de novo, an ability that had probably been lost by this organism. In total, 20 genes of the S. typhimurium cob operon have been transferred into E. coli, and the resulting recombinant strains have been shown to produce up to 100 times more corrin than the parent S. typhimurium strain. These measurements have been performed with a quantitative cobalamin microbiological assay which is detailed in this work. As with S. typhimurium, cobalamin synthesis is only observed in the E. coli cobalamin-producing strains when they are grown under anaerobic conditions. Derivatives of the cobalamin-producing E. coli strains were constructed in which genes of the cob operon were inactivated. These strains, together with S. typhimurium cob mutants, have permitted the determination of the genes necessary for cobalamin production and classification of cbiD and cbiG as cobI genes. When grown in the absence of endogenous cobalt, the oxidized forms of precorrin-2 and precorrin-3, factor II and factor III, respectively, were found to accumulate in the cytosol of the corrinproducing E. coli. Together with the finding that S. typhimurium cbiL mutants are not complemented with the homologous Pseudomonas denitrificans gene, these results lend further credence to the theory that cobalt is required at an early stage in the biosynthesis of cobalamins in S. typhimurium.
H epatitis B virus (HBV) infection is a major health problem.There are more than 350 million chronic carriers worldwide, and they are at high risk of developing liver cirrhosis and hepatocellular carcinoma (1). Chronic HBV infection is the result of impaired HBV-specific immune responses such that the infected hepatocytes cannot be eliminated or cured efficiently, but many of the associated issues remain unclear (2, 3).Due to the paucity of in vitro and in vivo models for HBV infection, HBV-transgenic mice are the most widely used model. These mice have the viral genome integrated into the chromosome and produce infectious HBV particles or viral antigens in the liver; however, the main limitation of HBV-transgenic mouse models is that they are immunologically tolerant to viral antigens (4, 5). Various routes have been exploited to introduce the HBV genome into the hepatocytes of adult mice. One is to introduce a replication-competent HBV genome into the mouse liver by hydrodynamic injection (HDI) through the tail vein (6); although HBV replicates in the mouse liver, the virus is rapidly cleared by immune responses against HBV proteins (7). Recently, Huang and colleagues used HDI to create a nontransgenic model of persistent HBV replication (8). The virus persisted in 40% of mice or was eliminated according to the genetic background. These mice rapidly develop anti-hepatitis B virus core (HBc) antibody, which is the first serological marker of acute HBV infection in humans. An alternative method uses adenoviral vectors to transfer 1.3 copies of the HBV genome into immunocompetent mice (9, 10), and acute or chronic HBV infection was obtained depending on the dose of adenoviral vector injected.Here, we describe an alternative murine model for the study of HBV persistence based on the liver-targeted transduction of adeno-associated virus serotype 2/8 (AAV2/8). We produced an AAV2/8 construct carrying a replication-competent HBV DNA genome and by intravenous injection established a model of HBV persistence in humanized HLA-A2/DR1 immunocompetent mice. Hepatitis B virus surface antigen (HBsAg), hepatitis B virus e antigen (HBeAg), and HBV DNA persisted for at least 1 year in sera of all AAV2/8-injected mice, and viral replication intermediates and transcripts were detected in their livers. HBcAg was expressed in 60% of hepatocytes without significant inflammation in the liver. The persistence of infection was associated with the presence of regulatory T cells (Tregs) in the liver. This mouse model of HBV persistence recapitulates viral and histological characteristics of human chronic HBV infection in the immunetolerant stage of the disease (11,12).In HLA-A2/DR1 mice, cellular immune responses were completely restricted to HLA molecules. Antibody, T-helper, and cytotoxic-T-lymphocyte responses to vaccination with recombinant HBsAg or HBsAg-expressing DNA were similar to those in vaccinated humans (13,14) or in HBV-infected individuals (15). Therefore, this AAV2/8-HBV-transduced HLA-A2/DR1 murine model may be useful fo...
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