The hepatitis B virus X protein (HBx) is thought to be implicated in the development of hepatocellular carcinoma, but its exact function remains controversial. Transgenic mice from PEX7 and AX16 lineages that express HBx in the liver under control of di erent viral regulatory elements develop no liver pathology (Billet et al., 1995). We have crossed these two mouse lineages with WHV/c-myc oncomice in which liver-speci®c expression of c-myc driven by woodchuck hepatitis virus (WHV) regulatory sequences causes liver cancer in all animals. The average tumor latency was shortened by 2 to 3 months in bitransgenic animals from all populations compared with simple c-myc transgenic littermates. At preneoplastic stages, adult bitransgenic mice showed four to ®vefold enhanced expression of the c-myc transgene, increased hepatocyte proliferation and more extensive liver lesions compared with simple WHV/c-myc transgenics. Thus in this model, HBx alone has no direct pathological e ect but it is shown to accelerate tumor development induced by c-myc. The data presented here ®rmly establish the oncogenic potential of HBx, apparently acting as a tumor promoter. This model o ers unique opportunities to investigate the mechanisms by which HBx trans-activates the expression of target genes and deregulates the hepatocyte growth control in vivo.
Although it has been known for 50 years that adenoviruses (Ads) interact with erythrocytes ex vivo, the molecular and structural basis for this interaction, which has been serendipitously exploited for diagnostic tests, is unknown. In this study, we characterized the interaction between erythrocytes and unrelated Ad serotypes, human 5 (HAd5) and 37 (HAd37), and canine 2 (CAV-2). While these serotypes agglutinate human erythrocytes, they use different receptors, have different tropisms and/or infect different species. Using molecular, biochemical, structural and transgenic animal-based analyses, we found that the primary erythrocyte interaction domain for HAd37 is its sialic acid binding site, while CAV-2 binding depends on at least three factors: electrostatic interactions, sialic acid binding and, unexpectedly, binding to the coxsackievirus and adenovirus receptor (CAR) on human erythrocytes. We show that the presence of CAR on erythrocytes leads to prolonged in vivo blood half-life and significantly reduced liver infection when a CAR-tropic Ad is injected intravenously. This study provides i) a molecular and structural rationale for Ad–erythrocyte interactions, ii) a basis to improve vector-mediated gene transfer and iii) a mechanism that may explain the biodistribution and pathogenic inconsistencies found between human and animal models.
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