Acute hepatitis in rats expressing human hepatitis B virus transgenes.

The molecular mechanisms responsible for hepatocyte death and the events leading to viral clearance in hepatitis B virus (HBV) infections are not well understood. Elucidation of the mechanisms involved have been complicated by the difficulty of infecting human hepatocytes with HBV in vitro and the lack of an appropriate animal model. We report an animal model of human HBV infection by in vivo transfection. We have directly introduced a replication-competent, cloned HBV construct into rat liver by using a membrane fusion-promoting cationic lipid. HBV mRNA and 3.2-kb HBV DNA were expressed in the liver by this in vivo transfection method. In the majority of rats, HBV virions and hepatitis B e antigen were found in the blood 3-7 days after transfection, after which antibody to the e antigen appeared. Two to three weeks after the transfection, glutamic-pyruvic transaminase levels were elevated in serum, hepatocyte death and lymphocyte infiltration were observed in the vicinity of the portal vein of liver, and HBV virions were no longer detected in the serum. Thus, transfection of HBV into rats resulted in histological and serological changes comparable to HBV-induced acute hepatitis in humans. In contrast, no hepatocellular injury was observed in T-lymphocyte-deficient nude rats transfected with the same HBV construct, and viremia was substantially prolonged, providing direct evidence that T lymphocytes play an essential role in liver cell injury and in the clearance of HBV. This rat hepatitis model will be useful for studying pathogenesis of HBV infection.

State of the p53 gene in hepatocellular carcinomas of ground squirrels and woodchucks with past and ongoing infection with hepadnaviruses.

Infection with hepadnaviruses and exposure to dietary aflatoxin are considered major risk factors in the development of hepatocellular carcinoma (HCC) both in humans and in animals. Recently, a broad range of mutations in the p53 tumor suppressor gene has been reported in human HCCs, predominantly from hepatitis B virus carriers in areas with either high or low levels of exposure to dietary aflatoxin. To determine whether p53 mutations are common to HCCs of hosts infected with related hepadnaviruses with and without treatment with aflatoxin, we studied the occurrence of mutations in the p53 gene in HCCs of ground squirrels and woodchucks with history of infection with ground squirrel hepatitis virus (GSHV) and woodchuck hepatitis virus, respectively. Sequencing of wild type p53 genes from ground squirrels and woodchucks revealed remarkable homology between the two species with only a few amino acid differences in exons 4, 8, and 9. Using direct polymerase chain reaction sequencing, we analyzed the state of the p53 gene (exons 4-9) in 20 HCCs from ground squirrels (2 uninfected, 7 with past, and 11 with ongoing infection with GSHV) and in 11 HCCs from woodchucks persistently infected with woodchuck hepatitis virus. Five GSHV carrier and two uninfected ground squirrels received i.p. administration of aflatoxin B1. We detected only one mutation in the p53 gene of the tested animals. This mutation was located in codon 176 of exon 5 in the HCC of a GSHV-positive ground squirrel treated with aflatoxin. Mutation was caused by a G to T transversion in the second position of the codon, resulting in the replacement of cysteine with phenylalanine, and was accompanied by a tumor-specific loss of heterozygosity. p53 allelic amino acid variation with sequences coding for aspartic acid or asparagine was present in codon 61 in the variable region of exon 4 in both HCCs and nonneoplastic tissues of ground squirrels. In view of the considerably lower apparent rate of mutations in comparison to human HCCs, we suggest a less important role for aflatoxin in the induction of p53 mutations in HCCs of ground squirrels. Alternatively, etiological factors other than p53 mutations may be of greater significance in the development of HCC in ground squirrels and woodchucks.

Apparent helper-independent infection of woodchucks by hepatitis delta virus and subsequent rescue with woodchuck hepatitis virus.

Hepatitis delta virus (HDV) is a subviral agent of humans which is dependent upon hepatitis B virus as a helper for transmission. HDV can be experimentally transmitted to woodchucks by using woodchuck hepatitis virus (WHV) as the helper. We used this model system to study two types of HDV infections: those of animals already chronically infected with WHV and those of animals without any evidence of prior exposure to WHV. At 5 to 10 days after infection with HDV, liver biopsies of these two groups of animals indicated that around 1% of the hepatocytes were infected (HDV antigen positive). Moreover, similar amounts of replicative forms of HDV RNA were detected. In contrast, by 20 days postinfection, the two groups of animals were quite different in the extent of the HDV infection. The animals chronically infected with WHV showed spread of the infection within the liver and the release of high titers of HDV into the serum. In contrast, the animals not previously exposed to WHV showed a progressive reduction in liver involvement, and at no time up to 165 days postinfection could we detect HDV particles in the serum. However, if these animals were inoculated with a relatively high titer of WHV at either 7 or even 33 days after the HDV infection, HDV viremia was observed. Our data support the interpretation that in these animals, hepatocytes were initially infected in the absence of helper virus, HDV genome replication took place, and ultimately these replicating genomes were rescued by the secondary WHV infection. The observation that HDV can survive in the liver for at least 33 days in the absence of coinfecting helper virus may be relevant to the reemergence of HDV infection following liver transplantation.

Morphologic and immunohistochemical characterization of the hepatic lesions associated with European brown hare syndrome.

Liver lesions were studied in 40 free-living adult European brown hares (Lepus europaeus) and varying hares (Lepus timidus) of both sexes that had died in Sweden with the viral infection European brown hare syndrome (EBHS). The lesions were characterized by their histopathologic, immunohistochemical, and electron microscopic findings. Periportal to massive coagulation necrosis was a distinctive feature of EBHS. Lytic necrosis, inflammation, fatty degeneration, and cholangitis occurred variably. Accumulation of basophilic granules in the cytoplasm of hepatocytes was commonly observed; these lesions corresponded ultrastructurally to mitochondrial calcification. Viral antigen was revealed in the cytoplasm and nucleus of hepatocytes and in the cytoplasm of macrophages.

Inclusion body hepatitis in Gambel's quail (Callipepla gambelii).

An acute necrotizing hepatitis in 1- to 3-wk-old Gambel's quail (Callipepla gambelii) caused by an adenovirus is described. The infection caused high mortality in captive raised, orphan chicks at two wildlife rehabilitation facilities in Arizona (USA). Gross lesions varied from pale livers to multiple, pinpoint, white foci scattered throughout the livers. Microscopically, scattered foci of hepatocellular necrosis were present. Intact hepatocytes at teh periphery of necrotic foci had eosinophilic and basophilic intranuclear inclusion bodies.

Coinfection study of precore mutant and wild-type hepatitis B-like virus in ducklings.

The precore mutant hepatitis B virus often emerges from a mixed infection with combined wild-type and precore mutant viruses. Nevertheless, the precore mutant does not seem to be an evolutionarily favored strain. To investigate the interaction between wild-type and precore mutant hepadnaviruses in an animal model of perinatal transmission, we used an e antigen-defective mutant duck hepatitis B virus with mutations inside the stem-loop structure of precore messenger RNA for this coinfection study. Thirty 1-day-old ducklings were infected with wild-type duck hepatitis B virus, precore mutant virus or both viruses. The amounts of viremia and the distribution of viruses were analyzed by spot hybridization, polymerase chain reaction, restriction fragment length polymorphism, cloning and sequencing. We found that all the ducklings became chronic carriers of duck hepatitis B virus. The precore mutant replicate was less active than wild-type duck hepatitis B virus, and it could be overgrown by wild-type virus during the course of coinfection. These results demonstrated that wild-type duck hepatitis B virus might become the predominant species in a situation similar to the perinatal cotransmission in human beings. This might at least in part explain why the prototype virus could prevail for years.

Murine hepatitis caused by lymphocytic choriomeningitis virus. I. The hepatic lesions.

BACKGROUND: The hepatitis that occurs after adult mice are infected with lymphocytic choriomeningitis (LCM) virus is immune mediated, although the details of the pathogenetic mechanisms are largely unknown. To better understand the sequence of events leading to alterations typical for hepatitides with immunopathogenesis, livers of immunocompetent mice infected with LCM virus were examined. EXPERIMENTAL DESIGN: Virus replication and histopathology in the livers and concentrations of liver enzymes in the sera of C57BL/6 mice were followed from day 3 through day 14 after intraperitoneal infection with 10(6) mouse infectious units of LCM virus. Histologic, histochemical, immunohistologic, and in situ hybridization methods were used to determine the cells involved in the inflammatory process. RESULTS: Infectious virus rose to 10(9) mouse infectious units/g of liver by day 7 and declined thereafter. Viral RNA and antigen were localized in foci of hepatocytes and in Kupffer and endothelial cells of the sinusoids. Disseminated spotty necroses, steatosis, a marked sinusoidal reaction, and lobular and (later) periportal mononuclear infiltrates were observed. In the infiltrates, T cells predominated followed by macrophages and NK cells; the number of B and plasma cells rose moderately. Among T lymphocytes the CD8+ cells increased preferentially, and the CD4/CD8 ratio changed from 1.7 to 0.3. Other features were major histocompatibility complex antigen expression on hepatocytes, enhanced immunocytochemical evidence of fibronectin and ICAM-1 in sinusoids, and deposition of immunoglobulin, complement, and fibrinoid. Changed activities of liver enzymes and bilirubin levels paralleled the pathologic alterations. CONCLUSIONS: Although CD8+ T cells seem to be central in the pathogenesis of LCM hepatitis, probably more than one immunopathologic mechanism is operative.

Expression of the hepatitis delta virus large and small antigens in transgenic mice.

Simultaneous infection with hepatitis delta virus (HDV) and hepatitis B virus (HBV) in humans is often associated with severe viral liver disease including fulminant hepatitis. Since HBV is thought to be noncytopathic to the hepatocyte, the enhanced disease severity observed during dual infection has been attributed to either simultaneous immune responses against the two viruses or direct cytotoxic effects of HDV products on the hepatocyte or both. To examine these alternate possibilities, we produced transgenic mice that express the small and large delta antigens (HDAg) in hepatocyte nuclei at levels equal to those observed during natural HDV infection. No biological or histopathological evidence of liver disease was detectable during 18 months of observation, suggesting that neither the large nor small form of HDAg is directly cytopathic to the hepatocyte in vivo.

TNF alpha, IL-1 and O2- release by macrophages do not correlate with the anti-mouse hepatitis virus 3 effect induced by interferon gamma.

Macrophages have been described to be important in determining the resistance of A/J mice or the susceptibility of BALB/c mice to the experimental infection with Mouse Hepatitis Virus 3 (MHV3). The interferon gamma (IFN gamma) activation of A/J and BALB/c mouse macrophages was shown to partially restrict the MHV3 replication only in macrophages from the resistant A/J mice. The activation by IFN gamma and/or infection with MHV3 showed that BALB/c mouse macrophages were capable of releasing tumor necrosis factor alpha (TNF alpha), interleukin 1 (IL-1) and anion superoxide (O2-), and A/J mouse macrophages were capable of releasing TNF alpha and IL-1 but not O2-. Comparable amounts of TNF alpha or IL-1 were released by IFN gamma-activated A/J or BALB/c mouse macrophages. Following MHV3 infection or IFN gamma activation and MHV3 infection, BALB/c mouse macrophages were always capable of releasing higher amounts of TNF alpha, IL-1 or O2- than A/J mouse macrophages, which correlated with their susceptibility to the virus infection. The data indicate that the anti-MHV3 effect induced by IFN gamma in A/J mouse macrophages is not related to the studied extrinsic activities of these cells.

Histological, histochemical and ultrastructural features of hyaline inclusions in hepatocytes of striped dolphins (Stenella coeruleoalba).

Many striped dolphins (Stenella coeruleoalba) which died in the recent morbillivirus epizootic in the Mediterranean Sea had hyaline inclusions in hepatocytes. We investigated the histological, histochemical and ultrastructural features of these inclusions in two affected dolphins. Histochemical tests indicated that they contained glycoprotein but not lipid. Ultrastructurally, they consisted of granular, moderately electron-dense material, bounded by a membrane. A central or eccentric core of highly electron-dense material was usually apparent. The inclusions were probably of lysosomal origin.

Immuno disc assay for screening duck hepatitis B surface antigen in serum, liver tissue and cultured hepatocytes.

An immuno disc assay (IDA) for semi-quantitative analysis of the surface antigen (DHBsAg) of duck hepatitis B virus (DHBV) is described. Unpurified antigen preparations were adsorbed onto punched-out nitrocellulose membrane discs. Rabbit antiserum raised against serum-derived gradient-purified DHBsAg was used for detecting the antigen. Cross-reacting antibodies in the rabbit antiserum were removed using normal duck serum and normal duck hepatocytes. The sensitivity of the IDA was compared with that of the Western blot analysis and was observed to be of the same order, but differed slightly for DHBsAg in liver and sera. In contrast to Western blot analysis, antigen specificity for the IDA included the S-protein. Immunodetection was carried out in microtitre plates, but the procedure was accelerated by attaching the antigen-adsorbed discs to an adhesive plate sealer. The IDA was exemplified for measuring DHBsAg in duck serum, duck liver homogenates and viral protein synthesis in cultures of DHBV-infected hepatocytes.

A common-source outbreak of callitrichid hepatitis in captive tamarins and marmosets.

Callitrichid hepatitis (CH) is a highly fatal, emerging arenavirus disease of captive South American marmosets and tamarins (Callitrichidae), including the endangered golden lion tamarin. A common-source outbreak of CH in golden lion tamarins and pygmy marmosets at a US zoo resulted from a single feeding of the primates with newborn mice in apparently infected with lymphocytic choriomeningitis virus (LCMV). Isolates from livers of mice and primates were related to isolates from previous CH outbreaks and to laboratory strains of LCMV by serology and nucleic acid hybridization, and 2 surviving animals developed antibody to other LCMVCH isolates and to laboratory strains of LCMV. Thus, LCMV, an arenavirus prevalent in wild mice in the US, can cause sporadic fatal hepatic disease in primates. Exposure of humans to wild or laboratory mice or to marmosets and tamarins that are infected with wild-type strains of LCMV poses the danger of serious disease.

Inflammation of the liver causes mutations in duck hepatitis B virus genome.

To investigate whether hepatitis causes mutation in the viral genome, DNA sequences in the pre-core region of duck hepatitis B virus (DHBV) DNA were analyzed in both ducks with hepatitis and without hepatitis. Five DHBV carrier ducks were injected with DHBV particle proteins purified from duck serum with Freund's complete adjuvant (FCA) intrahepatically from 14 day posthatch for 9 weeks (immunized group). Serum was drawn at the end of the 1st and 4th week after the 1st injection of DHBV particle protein and ducks were killed at the end of the 9th week to obtain the liver. Another five ducks without treatment were used as controls. All ducks of the immunized group showed moderate to severe hepatitis at the 9th week. All ducks in the immunized group showed one mutation except one duck that showed two mutations only at the 9th week. Mutations were observed in the 5th, 13th, 21st, 22nd, and 28th codon of the pre-core region. All of them were point mutation at the 3rd base in the triplets. The frequency of mutation was different in each duck from 20% to 60% but not 100%. There was no mutations in ducks in control group. These results suggest that hepatitis causes mutation in the pre-core lesion genome of duck hepatitis B virus.

Acute murine cytomegalovirus infection induces lethal hepatitis.

Events were examined that might contribute to mortality in acute murine cytomegalovirus (MCMV) infection after intraperitoneal inoculation. Specifically, viral replication in the liver, spleen, and pancreas and the concomitant biochemical abnormalities induced by MCMV during lethal and nonlethal acute viral infection were compared. Mortality was limited to susceptible strains of mice infected by the intraperitoneal (ip) route. In addition, the virus content of the lung, liver, spleen, and pancreas was 100- to 1000-fold greater with lethal infection in the ip-infected group than in those with nonlethal infection. Serum transaminase and lipase levels were markedly elevated in susceptible mice inoculated with MCMV ip. Histopathologic and immunocytochemical changes in the liver, coupled with elevated serum transaminase levels indicating severe hepatitis, appear sufficient to explain the early mortality seen with the ip route of infection.

The cellular and molecular pathogenesis of coronaviruses.

Coronaviruses cause a wide spectrum of diseases in humans and animals but generally fall into two classes, with respiratory or enteric tropisms. Mouse hepatitis virus (MHV) and rat coronaviruses are the viruses most frequently encountered in the laboratory animal setting. This review focuses primarily on the cellular and molecular aspects of MHV pathogenesis. The high mutation and recombination rates of coronaviruses lead to a diverse, ever-changing population of MHV strains. The spike (S) protein is the most variable coronavirus protein and is responsible for binding to cell surface receptors, inducing cell fusion and humoral and cellular immunity. Differences within the S protein of different MHV strains have been linked to their variable tropisms. Since immunity to MHV is strain-specific, seropositive mice can be reinfected with different strains of MHV. Natural infections with MHV are acute, with persistence occurring at the population level, not within an individual mouse, unless it is immunocompromised. Age, genotype, immunologic status of the mouse, and MHV strain influence the type and severity of disease caused by MHV. Interference with research by MHV has been reported primarily in the fields of immunology and tumor biology and may be a reflection of MHV's capacity to grow in several types of immune cells. While many methods are available to diagnose coronavirus infection, serologic tests, primarily ELISA and IFA, are the most commonly used. MHV is best managed on a preventive basis. Elimination of MHV from a population requires cessation of breeding and halting the introduction of naive mice into the population.

Antibodies to polymerized albumin in woodchuck hepatitis virus infection.

Polymerized human serum albumin may play a role in the entry of hepatitis B virus into hepatocytes, and antibodies to polyalbumin that frequently appear during acute hepatitis may aid the process of viral clearance. We developed an enzyme-linked immunosorbent assay for antibodies to polymerized woodchuck albumin to enable us to evaluate further the role of these antibodies in an animal model system. Sera from 17 uninfected adult woodchucks and 8 newborns showed no binding to control plates coated with woodchuck transferrin, woodchuck albumin, or polymerized human serum albumin. One of 8 newborn animals demonstrated a significant antibody titer to polymerized woodchuck albumin, and 16 of 17 adults without evidence of prior woodchuck hepatitis virus infection had measurable serum antibody titers. Antibodies to polymerized woodchuck albumin could be adsorbed by prior incubation with the antigen. In 2 animals subjected to experimental infection, significant rises in polyalbumin antibody were seen. When 4 adult woodchucks were immunized with woodchuck polyalbumin, significant increases in antibody titer were observed in 2 of the 4 animals. Of the 4 immunized and 4 controls subsequently challenged with woodchuck hepatitis virus, 7 became viremic and all 8 developed antibody to woodchuck hepatitis virus core antigen. We conclude that naturally occurring antibodies to polymerized woodchuck albumin are observed in most adult woodchucks in the absence of woodchuck hepatitis virus infection and do not seem to confer immunity against infection with this virus.