Experimental duck hepatitis B virus infection: pathology and evolution of hepatic and extrahepatic infection

Prevalence and Genomic Sequence Analysis of Domestic Cat Hepadnavirus in the United States

Hepadnaviruses are partially double-stranded DNA viruses that infect a variety of species. The prototypical virus in this family is the human hepatitis B virus, which chronically infects approximately 400 million people worldwide and is a risk factor for progressive liver disease and liver cancer. The first hepadnavirus isolated from carnivores was a domestic cat hepadnavirus (DCH), initially identified in Australia and subsequently detected in cats in Europe and Asia. As with all characterized hepadnaviruses so far, DCH infection has been associated with hepatic disease in its host. Prevalence of this infection in the United States has not been explored broadly. Thus, we utilized conventional and quantitative PCR to screen several populations of domestic cats to estimate DCH prevalence in the United States. We detected DCH DNA in 1 out of 496 animals (0.2%) in the U.S. cohort. In contrast, we detected circulating DCH DNA in 7 positive animals from a cohort of 67 domestic cats from Australia (10.4%), consistent with previous studies. The complete consensus genome of the U.S. DCH isolate was sequenced by Sanger sequencing with overlapping PCR products. An in-frame deletion of 157 bp was identified in the N-terminus of the core open reading frame. The deletion begins at the direct repeat 1 sequence (i.e., the 5′ end of the expected double-stranded linear DNA form), consistent with covalently closed circular DNA resultant from illegitimate recombination described in other hepadnaviruses. Comparative genome sequence analysis indicated that the closest described relatives of the U.S. DCH isolate are those previously isolated in Italy. Motif analysis supports DCH using NTCP as an entry receptor, similar to human HBV. Our work indicates that chronic DCH prevalence in the U.S. is likely low compared to other countries.

Hepatitis B virus infection and the risk of gastrointestinal cancers among Chinese population: A prospective cohort study

Our study aims to explore the relationship between chronic hepatitis B virus (HBV) infection and the risk of gastrointestinal (GI) cancers including liver, gastric, gallbladder or extrahepatic bile duct, pancreatic, small intestine, esophageal and colorectal cancer in the Kailuan Cohort study. We prospectively examined the relationship between HBV infection and new‐onset GI cancers among 93 402 participants. Cox proportional hazards regression models, subgroup analyses and competing risk analyses were used to evaluate the association between HBV infection and the risk of new‐onset GI cancers. During a median follow‐up of 13.02 years, 1791 incident GI cancer cases were diagnosed. Compared to HBsAg seronegative participants, a significant positive association between HBV infection and GI cancers was observed in the multivariate‐adjusted models (HR 5.59, 95% CI: 4.84‐6.45). In the site‐specific analyses, participants with HBsAg seropositive exhibited an increased risk of liver cancer (HR = 21.56, 95% CI: 17.32‐26.85), gallbladder or extrahepatic bile duct cancer (HR = 14.89, 95% CI: 10.36‐21.41), colorectal cancer (HR = 1.75, 95% CI: 1.15‐2.96) and pancreatic cancer (HR = 1.86, 95% CI: 1.10‐3.99). After taking death as the competing risk event, the associations of HBV infection with the risk of these cancers were attenuated but remained significant both in the cause‐specific hazards models, the subdistribution proportional hazards models and sensitivity analyses. Our study suggests that HBV infection is associated with the elevated risk of liver cancer and extrahepatic cancer including gallbladder or extrahepatic bile duct, pancreatic and colorectal cancer among adults in Northern China.

Glucose Homeostasis Is Dysregulated in Ducks Infected with Duck Hepatitis B Virus

INTRODUCTION

The association between hepatitis B virus (HBV) infection and the development of diabetes remains controversial. This study examined the effect of HBV infection on glucose homeostasis using a duck HBV (DHBV) model.

METHODS

Plasma DHBV DNA was detected by quantitative polymerase chain reaction (PCR). Tissue infection of DHBV was determined by detecting DHBV covalently closed circular DNA (cccDNA) with a method of rolling circle amplification combined with cross-gap PCR, and verified by fluorescence in situ hybridization assay. An intravenous injection glucose tolerance test (GTT) was used to analyze the effect of DHBV infection on glucose tolerance.

RESULTS

Of the finally included 97 domestic ducks, 53 (54.6%) were congenitally infected by DHBV. The positive rate of DHBV cccDNA in the liver, kidney, pancreas, and skeletal muscle of the infected ducks was 100, 75.5, 67.9, and 47.2%, respectively. The DHBV-infected ducks had higher blood glucose levels at 15 and 30 min post-load glucose (p < 0.01 and p < 0.001, respectively) in the GTT, much more individuals with greater glucose area under curve (p < 0.01), and a 57% impaired glucose tolerance (IGT) rate, as compared with noninfected controls. In addition, the subgroups of the infected ducks with DHBV cccDNA positive in skeletal muscle maintained the higher blood glucose level up to 2 h post-load glucose during the GTT and had a 76% IGT rate.

CONCLUSION

These results suggest that DHBV intrahepatic and extrahepatic infection impairs glucose tolerance, and thus evidence the association of DHBV infection with the dysregulation of glucose metabolism.

Insights into the genetic diversity, recombination, and systemic infections with evidence of intracellular maturation of hepadnavirus in cats

Hepatitis B virus (HBV) is a human pathogen of global concern, while a high diversity of viruses related to HBV have been discovered in other animals during the last decade. Recently, the novel mammalian hepadnavirus, tentatively named domestic cat hepadnavirus (DCH), was detected in an immunocompromised cat. Herein, a collection of 209 cat sera and 15 hepato-diseased cats were screened for DCH using PCR, resulting in 12.4% and 20% positivity in the tested sera and necropsied cats, respectively. Among the DCH-positive sera, a significantly high level of co-detection with retroviral infection was found, with the highest proportion being co-detection with feline immunodeficiency virus (FIV). Full-length genome characterization of DCH revealed the genetic diversity between the nine Thai DCH sequences obtained, and that they phylogenetically formed three distinct monophyletic clades. A putative DCH recombinant strain was found, suggesting a possible role of recombination in DCH evolution. Additionally, quantitative PCR was used to determine the viral copy number in various organs of the DCH-moribund cats, while the pathological findings were compared to the viral localization in hepatocytes, adjacent to areas of hepatic fibrosis, by immunohistochemical (IHC) and western blot analysis. In addition to the liver, positive-DCH immunoreactivity was found in various other organs, including kidneys, lung, heart, intestine, brain, and lymph nodes, providing evidence of systemic infection. Ultrastructure of infected cells revealed electron-dense particles in the nucleus and cytoplasm of hepatocytes, bronchial epithelial cells, and fibroblasts. We propose the intracellular development mechanism of this virus. Although the definitive roles of pathogenicity of DCH remains undetermined, a contributory role of the virus associated with systemic diseases is possible.

Is hepatitis B-virucidal validation of biocides possible with the use of surrogates?

The hepatitis B virus (HBV) is considered to be a major public health problem worldwide, and a significant number of reports on nosocomial outbreaks of HBV infections have been reported. Prevention of indirect HBV transmission by contaminated objects is only possible through the use of infection-control principles, including the use of chemical biocides, which are proven to render the virus non-infectious. The virucidal activity of biocides against HBV cannot be predicted; therefore, validation of the virucidal action of disinfectants against HBV is essential. However, feasible HBV infectivity assays have not yet been established. Thus, surrogate models have been proposed for testing the efficacy of biocides against HBV. Most of these assays do not correlate with HBV infectivity. Currently, the most promising and feasible assay is the use of the taxonomically related duck hepatitis B virus (DHBV), which belongs to the same Hepadnaviridae virus family. This paper reviews the application of DHBV, which can be propagated in vitro in primary duck embryonic hepatocytes, for the testing of biocides and describes why this model can be used as reliable method to evaluate disinfectants for efficacy against HBV. The susceptibility levels of important biocides, which are often used as ingredients for commercially available disinfectants, are also described.

Establishing a new animal model for hepadnaviral infection: susceptibility of Chinese Marmota-species to woodchuck hepatitis virus infection

Hepatitis B virus infection (HBV) is a major medical problem in China. The lack of a suitable infection model in China is recognized as an obstacle for research on HBV in China. Chinese Marmota-species is phylogenetically closely related to Marmota monax, thus, it might be suitable to serve as an animal model for HBV infection. Therefore, we attempted to prove the claim about the existence of woodchuck hepatitis virus (WHV)-like viruses in Chinese Marmota-species and to determine the susceptibility of these species to experimental WHV infection. In the present study, 653 sera from three Chinese Marmota-species, Marmota himalayana, Marmota baibacina and Marmota bobak, were screened for WHV-like viruses by serological and molecular assays. The susceptibility to WHV of three species was investigated by experimental infection and monitored by testing of anti-WHc and WHsAg by ELISA, detection of WHV DNA by PCR, and detection of WHV replication intermediates and antigens in liver samples. No evidence for the existence of a genetically closely related virus to WHV in three Chinese Marmota-species was found by serological assays and PCR. M. himalayana was susceptible to WHV infection as inoculated animals became positive for anti-WHc, WHsAg and WHV DNA. Further, WHV replication intermediates and proteins were detected in liver samples. In contrast, M. baibacina remained negative for tested virological parameters. M. bobak species showed a limited susceptibility to WHV. Our data do not support early reports about WHV-like viruses in China. M. himalayana is suitable for the establishment of a model for hepadnaviral infection.

Risk of pancreatic cancer in chronic hepatitis B virus infection: data from the REVEAL-HBV cohort study

BACKGROUND AND AIMS

The relationship between the hepatitis B virus (HBV) and pancreatic cancer remains unclear. Because HBV has been isolated from pancreatic tissue, we hypothesized that HBV may play a role in the development of pancreatic carcinoma.

METHODS

This cohort was recruited between 1991 and 1992. Serum samples obtained at enrolment were tested for HBsAg and HBeAg by radioimmunoassay. Pancreatic cancer diagnosis was ascertained through data linkage with profiles of the National Cancer Registry and Death Certification System in Taiwan from 1 January 1991 to 31 December 2007. Multivariate-adjusted hazards ratios (HR(adj)) with 95% confidence intervals (CI) were derived using Cox proportional hazards models.

RESULTS

In total 22 471 subjects were followed up for 342 186 person-years and 48 had pancreatic cancer. Chronic carriers of HBsAg had a significantly increased risk of pancreatic cancer showing an HR(adj) (95% CI) of 1.95 (1.01-3.78). This association was most striking in females, individuals < or =50 years, non-smokers and non-drinkers. The HR(adj) (95% CI) of developing pancreatic cancer was 5.73 (1.73-19.05) for HBeAg-seropositive carriers and 1.64 (0.79-3.42) for HBeAg-seronegative carriers compared with HBsAg-seronegative non-carriers. An increased risk of pancreatic cancer was observed for HBsAg-seropositives with HBV DNA > or =300 copies/ml (HR(adj), 2.44; 95% CI, 1.20-4.95), but not for HBsAg-seropositives with HBV DNA <300 copies/ml (HR(adj), 0.64; 95% CI, 0.09-4.67).

CONCLUSIONS

In addition to the well-established risk of hepatocellular carcinoma, chronic HBV infection may be associated with an increased risk of pancreatic cancer.

The early host innate immune response to duck hepatitis B virus infection

The early phase after hepatitis B virus infection could play a crucial role in clearance and/or persistence of the virus, particularly in neonates. This work compared the early phase of duck hepatitis B virus infection in 1-day-old (D1) and 28-day-old (D28) ducks to determine whether differences in viral or host innate immune response can be related to the difference in outcome. In the first phase, almost immediately after inoculation, virus was taken up by components of the reticulo-endothelial systems, particularly liver-specific macrophages, Kupffer cells. Very early after infection, the induction of alpha interferon by infected hepatocytes occurred and was rapidly reinforced by recruitment of effector lymphocytes, which directly or indirectly caused apoptosis, eliminating infected hepatocytes, as was seen in mature birds. In addition, a lack of lymphocytic infiltration of the liver was found in D1 ducks, which supports the suggestion that the innate immune network is less effective in D1 ducks. Taken together, these results suggest that failure of the co-ordinated innate immune response rather than a defect in induced antiviral cell-mediated immunity may be the key factor which makes baby ducks vulnerable to persistence of hepadnavirus infection.

Viral load in 1-day-old ducklings acutely infected with duck hepatitis B virus by different doses and routes of inoculation

In order to define clearly the conditions leading to the outcome of acute duck hepatitis B virus (DHBV) infection, 1-day-old Pekin ducklings were infected with DHBV by different routes and given different doses of inoculum. Groups of 24 ducklings were inoculated either intravenously via the vena cruralis, or intraperitoneally with pooled serum containing either 1.6 x 10(7) or 1.6 x 10(4) DHBV genomes. One control duck from each group was inoculated with an equal volume of normal duck serum. A sensitive and reproducible real-time polymerase chain reaction assay based on TaqMan technology was developed for the detection and quantitation of DHBV DNA in the serum and liver. DHBAg was observed in the hepatocytes by immunohistochemistry. Histological changes in the liver tissue were also observed. The results demonstrate that ducklings at each time point and in all groups developed detectable viraemia. In each group, DHBV DNA in the liver was at a lower level than in serum and the peak DNA titre was found in serum earlier than in the liver. In the low-dose groups it was always at a lower level than in the high-dose groups. The DHBV replication levels appeared to be directly related to the number of DHBAg-positive hepatocytes. The variation trends of DHBAg-positive hepatocytes were similar in the high-dose groups. Histological changes were associated with liver viral DNA levels. We suggest that this dose and route of inoculation can be used as a model to study acute DHBV infections.

Recent advancements for the evaluation of anti-viral activities of natural products

Significant progress has been achieved for the development of novel anti-viral drugs in the recent years. Large numbers of these newly developed drugs belong to three groups of compounds, nucleoside analogues, thymidine kinase-dependent nucleotide analogues and specific viral enzyme inhibitors. It has been found that the natural products, like plant extract, plant-derived compounds (phytochemicals) and so on, as well as traditional medicines, like Ayurvedic, traditional Chinese medicine (TCM), Chakma medicines and so on, are the potential sources for potential and novel anti-viral drugs based on different in vitro and in vivo approaches. In this chapter some of these important approaches utilised in the drug discovery process of potential candidate(s) for anti-viral agents are being discussed. The key conclusion is that natural products are one of the most important sources of novel anti-viral agents.

Anti-hepatitis B virus activities of astragaloside IV isolated from radix Astragali

Total ethanol extract and saponins from Chinese herb radix Astragali (huangqi) have been previously shown to possess anti-hepatitis B virus (HBV) activities in vitro. To identify the active ingredients, we isolated a triterpenoid saponin that was determined to be astragaloside IV. In the human HBV-transfected liver cell line HepG(2) 2.2.15, astragaloside IV effectively suppressed secretion of HBV antigens with inhibition rates of 23.6% for the secretion of Hepatitis B surface antigen (HBsAg) and 22.9% for that of Hepatitis B e antigen (HBeAg) at 100 microg/ml after 9 d of treatment. The inhibitory activity of astragaloside IV on secretion of HBV antigens is more potent than that of 3TC without significant cytotoxicity. In duck hepatitis B virus (DHBV)-infected ducklings, astragaloside IV caused 64.0% inhibition at 120 mg/kg, 49.6% inhibition at 40 mg/kg, and 41.7% inhibition at 10 mg/kg to serum DHBVs after 10 d of treatment, and also reduced serum DHBV DNA levels. Together, our results demonstrate that astragaloside IV possesses potent anti-HBV activity.

In vitro and in vivo anti-hepatitis B virus activities of a plant extract from Geranium carolinianum L

Natural products provide a large reservoir of potentially active agents with anti-hepatitis B virus (HBV) activity. We examined the effect of the polyphenolic extract from Geranium carolinianum L. (PPGC) on HBV replication both in vitro and in vivo. In the human HBV-transfected liver cell line HepG(2) 2.2.15, PPGC effectively suppressed the secretion of the HBV antigens in a dose-dependent manner with IC(50) values of 46.85 microg/ml for HBsAg and 65.60 microg/ml for HBeAg at day 9. Consistent with the HBV antigen reduction, PPGC (100 microg/ml) also reduced HBV DNA level by 35.9%. In the duck hepatitis B virus (DHBV) infected ducks, after PPGC was dosed intragastricly (i.g.) once a day for 10 days, the plasma DHBV DNA level was reduced, with an ED(50) value of 47.54 mg/kg. In addition, Southern blot analysis confirmed the in vivo anti-HBV effect of PPGC in ducks and PPGC also reduced the plasma and the liver DHBV DNA level in a dose-dependent manner. Furthermore, significant improvement of the liver was observed after PPGC treatment, as evaluated by the histopathological analysis.

Avian hepatitis B viruses: Molecular and cellular biology, phylogenesis, and host tropism

The human hepatitis B virus (HBV) and the duck hepatitis B virus (DHBV) share several fundamental features. Both viruses have a partially double-stranded DNA genome that is replicated via a RNA intermediate and the coding open reading frames (ORFs) overlap extensively. In addition, the genomic and structural organization, as well as replication and biological characteristics, are very similar in both viruses. Most of the key features of hepadnaviral infection were first discovered in the DHBV model system and subsequently confirmed for HBV. There are, however, several differences between human HBV and DHBV. This review will focus on the molecular and cellular biology, evolution, and host adaptation of the avian hepatitis B viruses with particular emphasis on DHBV as a model system.

Gene expression profile of transgenic mouse kidney reveals pathogenesis of hepatitis B virus associated nephropathy

Hepatitis B virus (HBV)-associated nephritis has been reported worldwide. Immune complex deposition has been accepted as its pathogenesis, although the association between the presence of local HBV DNA and viral antigen and the development of nephritis remains controversial. To understand better the roles played by HBV protein expression in the kidney, the global gene expression profile was studied in the kidney tissue of a lineage of HBV transgenic mouse (#59). The mice expressed HBsAg in serum, and HBsAg and HBcAg in liver and kidney, but without virus replication. Full-length HBV genome (adr subtype, C genotype) isolated from a chronic HBV carrier was used to establish the transgenic mice #59. Similarly manipulated mice that did not express HBV viral antigens served as controls. Southern blotting, hybridization with HBV probe, and immuno-histochemical staining were used to study HBV gene expression. mRNA extracted from the kidney tissue was analyzed using Affymetrix microarrays. HBsAg and HBcAg were located mainly in the cytoplasm of tubular epithelium. Altogether 520 genes were "up-regulated" more than twofold and 76 genes "down-regulated" more than twofold in the kidney. The complement activation, blood coagulation, and acute-phase response genes were markedly "up-regulated". Compared to the controls, the level of serum C3 protein was decreased in #59 mice, while the level of C3 protein from kidney extract was increased. Results indicate that expression of HBsAg and HBcAg in tubular epithelial cells of the kidney per se can up-regulate complement-mediated inflammatory gene pathways, in addition to immune complex formation.

A duck hepatitis B virus strain with a knockout mutation in the putative X ORF shows similar infectivity and in vivo growth characteristics to wild-type virus

Hepadnaviruses including human hepatitis B virus (HBV) and duck hepatitis B virus (DHBV) express X proteins, HBx and DHBx, respectively. Both HBx and DHBx are transcriptional activators and modulate cellular signaling in in vitro assays. To test whether the DHBx protein plays a role in virus infection, we compared the in vivo infectivity and growth characteristics of a DHBV3 strain with a stop codon in the X-like ORF (DHBV3-X-K.O.) to those of the wild-type DHBV3 strain. Here we report that the two strains showed no significant difference in (i). their ability to induce infection that resulted in stable viraemia measured by serum surface antigen (DHBsAg) and DHBV DNA, and detection of viral proteins and replicative DNA intermediates in the liver; (ii). the rate of spread of infection in liver and extrahepatic sites after low-dose virus inoculation; and (iii). the ability to produce transient or persistent infection under balanced age/dose conditions designed to detect small differences between the strains. Thus, none of the infection parameters assayed were detectably affected by the X-ORF knockout mutation, raising the question whether DHBx expression plays a physiological role during in vivo infection with wild-type DHBV.

Duck hepatitis B virus replication in primary bile duct epithelial cells

Primary cultures of intrahepatic bile duct epithelial (IBDE) cells isolated from duckling livers were successfully grown for studies of duck hepatitis B virus (DHBV). The primary IBDE cells were characterized by immunohistochemistry using CAM 5.2, a cytokeratin marker which was shown to react specifically to IBDE cells in duck liver tissue sections and in primary cultures of total duck liver cells. Immunofluorescence assay using anti-duck albumin, a marker for hepatocytes, revealed that these IBDE cultures did not appear to contain hepatocytes. A striking feature of these cultures was the duct-like structures present within each cell colony of multilayered IBDE cells. Normal duck serum in the growth medium was found to be essential for the development of these cells into duct-like structures. When the primary cultures of duck IBDE cells were acutely infected with DHBV, dual-labeled confocal microscopy using a combination of anti-DHBV core proteins and CAM 5.2 or a combination of anti-pre-S1 proteins and CAM 5.2 revealed that the IBDE cell colonies contained DHBV proteins. Immunoblot analysis of these cells showed that the DHBV pre-S1 and core proteins were similar to their counterparts in infected primary duck hepatocyte cultures. Southern blot analysis of infected IBDE preparations using a digoxigenin-labeled positive-sense DHBV riboprobe revealed the presence of hepadnavirus covalently closed circular (CCC) DNA, minus-sense single-stranded (SS) DNA, double-stranded linear DNA, and relaxed circular DNA. The presence of minus-sense SS DNA in the acutely infected IBDE cultures is indicative of DHBV reverse transcriptase activity, while the establishment of a pool of viral CCC DNA reveals the ability of these cells to maintain persistent infection. Taken collectively, the results from this study demonstrated that primary duck IBDE cells supported hepadnavirus replication as shown by the de novo synthesis of DHBV proteins and DNA replicative intermediates.

Effect of nucleoside analogue therapy on duck hepatitis B viral replication in hepatocytes and bile duct epithelial cells in vivo

BACKGROUND

Recent studies have implicated bile duct epithelial cells (BDEC) as a reservoir of hepatitis B virus (HBV) infection that may be particularly important in the development of post-liver transplant recurrence of hepatitis B. The aim of this study was to compare the effects of antiviral therapy on duck HBV (DHBV) expression in hepatocytes and BDEC and to determine if this was affected by biliary hyperplasia.

METHODS

Ducklings congenitally infected with DHBV received penciclovir (10 mg/kg per day) treatment from 9 days of age. In order to mimic the biliary hyperplasia that often accompanies severe post-liver transplant HBV recurrence, half the animals underwent bile duct ligation. Duck HBV-DNA in serum was measured at day 1, and serum and liver DHBV-DNA were determined when the animals were killed on day 17. Intrahepatic expression of viral preS1 antigen and DHBV-DNA was measured by immunohistochemistry and in situ hybridization, respectively.

RESULTS

Viraemia became undetectable in the penciclovir-treated animals at day 17, following 8 days of therapy. Examination of liver tissue revealed that all hepatocytes and the majority of BDEC contained DHBV preS1 antigen and DHBV-DNA. Penciclovir greatly reduced the intrahepatic viral burden, but there was no antiviral effect on viral markers within BDEC. Despite the increased number of BDEC after bile duct ligation, the same proportion of BDEC was seen to be infected, and this was unaffected by antiviral therapy.

CONCLUSIONS

In the duck model with and without biliary hyperplasia, penciclovir controls DHBV replication and reduces viral burden in hepatocytes, but not in BDEC. The BDEC appear to be an important reservoir of virus that is relatively unaffected by antiviral treatment, and may play an important role in disease persistence and relapse following cessation of therapy.

Comparison of the kinetics of the specific cellular immune response to duck hepatitis B virus in infected and immune ducks

The kinetics of the cell mediated immune response by ducks acutely and chronically infected with, or immune to infection by duck hepatitis B virus (DHBV) was determined. This was measured by an antigen specific blastogenesis assay to duck hepatitis B surface antigen (DHBsAg) and duck hepatitis B core antigen (DHBcAg) using peripheral blood mononuclear cells (PBMC). The three outcomes of acute infection by DHBV were either clearance from both serum and liver, clearance from serum but not liver, or the development of persistent viraemia. Acutely infected ducks that failed to clear the infection also failed to develop a significant cellular immune response to both antigens. Ducks with chronic infection acquired as neonates or as the result of the failure to clear acute infection had an increasing cellular immune response over time. Two groups of immune ducks were examined. These were either ducks that had become immune following infection or that had been vaccinated. Both groups of ducks demonstrated significant cellular responses following challenge with DHBV irrespective of the level of their responses before challenge. However, there was a reduction in the response of their PBMC over a 4-week-period postchallenge. The range of cellular immune responses to DHBV antigens observed in this study has a number of counterparts in hepatitis B infection of humans. Coupled with the defined clinical outcomes that can be established in the duck/DHBV model, further study of the cellular immune response to DHBV is warranted.

Treatment of duck hepatitis B virus by antisense poly-2'-O-(2,4-dinitrophenyl)-oligoribonucleotides

The poly-2'-O-(2,4-dinitrophenyl)-oligoribonucleotide (poly-DNP-RNA) with antisense sequence 5'ggguguauggaaaagccguc-3' was designed to target the sequence 2468-2487 in the polymerase gene of duck hepatitis B virus (DHBV). The stereochemically pure RNA was synthesized by using T7 RNA polymerase with synthetic DNA template and subsequently derivatized with 2,4-dinitrofluorobenzene in mild basic conditions to make the poly-DNP-RNA with an average DNP/base ratio of 0.7. In vitro studies showed that this antisense poly-DNP-RNA can hybridize with sense DNA and has high resistance to RNase A digestion. These poly-DNP-RNA were also found to be potent sequence-independent inhibitors of the reverse transcriptase activity of DHBV DNA-polymerase. For in vivo studies, DHBV-infected ducks were treated with antisense, sense, and random noncomplementary sequence poly-DNP-RNA, respectively. The data showed that the antisense poly-DNP-RNA completely inhibited the duck viremia in all nine ducks that had been treated with a dose of 1 mg/kg (i.v.) per day for 25 days. The viremia did not come back after 10 months recession. In the sense group, three of the four ducks showed no inhibition, and in the random group, both ducks maintained their viremia. After 45 days of treatment with the antisense poly-DNP-RNA, followed by 2 weeks of recession, PCR as well as QC-PCR assay and microscopic examination showed that viral DNA had disappeared in liver and that the histology of the damaged liver (filled with fat granules) had returned to normal.

Antigen-specific blastogenesis assays for duck hepatitis B virus using duck peripheral blood and splenic mononuclear cells

An antigen-specific lymphoblastogenesis assay for duck hepatitis B surface antigen (DHBsAg) and duck hepatitis B core antigen (DHBcAg) was developed using mononuclear cells from the peripheral blood (PBMC) or spleens (SMC) of immune ducks. Optimal culture conditions for the assay were determined by testing a number of variables, including antigen concentration, cell numbers/well, and the day of harvest. The specificity of the assay was assessed. The assay used 10% pooled duck serum supplement, and 8 x 10(5) cells/well for PBMC or 5 x 10(5) cells/well for SMC. The optimum antigen concentration ranged from 0.01 to 0.1 microgram/ml for both DHBsAg and DHBcAg. Maximum antigen-specific blastogenesis occurred between 4 to 7 days after establishment of the culture. The use of PHA (10 micrograms/ml) mitogenesis could predict the optimal cell numbers/well for antigen-specific blastogenesis. The assay demonstrated specific responses by immune ducks compared with those of unexposed ducklings and adult ducks (for DHBsAg P < 0.001; DHBcAg P < 0.05). For immune ducks, PBMC from all 8 ducks responded to DHBsAg, however, cells from only 4 of 7 immune ducks, responded to DHBcAg. Splenic mononuclear cells from all immune ducks responded to either DHBsAg or DHBcAg or both antigens.

DHBV manipulation and prediction of the outcome of infection

BACKGROUND/AIMS

The immunological response of ducks to acute infection with duck hepatitis B virus (DHBV) has not been fully characterised. In this study the relationship between viral dose and the outcome of infection in immune competent 26-day-old ducks was examined.

METHODS

Indirect ELISA assays were developed to detect the presence of antibody to DHB surface antigen and DHB core antigen. A DHBV serum pool was titrated in 1-day-old and 26-day-old ducklings.

RESULTS

The ID50 dose of the ducks injected at 26 days of age was found to be 1000 times that of the ducks injected on day of hatch. The antibody responses and serum DHBV DNA were followed in eight ducks inoculated with DHBV positive serum when 26 days of gene and in three ducks infected with DHBV on day of hatch. The three ducks infected on day of hatch were viraemic by day 7 and remained highly viraemic throughout the experimental period. In the older ducks, inoculation with 1000ID50 resulted in the development of chronic carriage, while inoculation with either 100 or 10ID50 doses resulted in acute infection with or without viraemia. These ducks were able to clear the infection from their circulation, but only 50% cleared DHBV from the liver within the experimental period. All infected ducks developed anti-core activity. Only non-viraemic ducks developed anti-surface activity.

CONCLUSION

DHBV infection can be established in immune competent adolescent ducks, with variable disease outcomes comparable to HBV infection in humans.

Establishment of an in-use testing method for evaluating disinfection of surgical instruments using the duck hepatitis B model

Nosocomial transmission of hepatitis B virus (HBV), associated with interventional procedures, has been attributed to its survival on improperly decontaminated instruments. To date, guidelines for chemical disinfection of potentially contaminated heat-sensitive instruments have been based largely on extrapolation of data from in-vitro disinfectant testing. Direct infectivity testing has not been possible for HBV because of the lack of a practical culture assay or susceptible experimental animal model. In this study the related duck hepadnavirus was used to simulate in-vivo transmission of a HBV during surgery, and to evaluate the effectiveness of 2% glutaraldehyde disinfection of surgical laparoscopes. Multiple laparoscopic liver biopsies were performed on 'biohazardous' duck hepatitis B (DHBV) positive ducks. Laparoscopes were then subjected to different disinfection regimes using 2% glutaraldehyde, and residual infectivity tested by placing their tips into the peritoneal cavities of uninfected four-day-old ducklings. Direct transmission of DHBV occurred in all ducks when laparoscopes were not washed. Rinsing with water lowered the transmission rate to 64% and no infection transmission occurred after 5 min of contact time with the disinfectant. In contrast, previous in-vitro studies had shown complete viral inactivation after a shorter period of disinfection. It is postulated that the longer inactivation time observed in our study may be a result of surface interactions of virus and instrument, interfering with disinfectant access or activity. Tests of instrument surface samples for viral DNA by the polymerase chain reaction (PCR) did not correlate with transmission of virus infection in vivo. PCR is an inappropriate test for evaluating the efficacy of disinfectant action despite its sensitivity. This in use method will allow testing of other decontamination procedures and their effectiveness on more complex surgical instruments.

Membranous glomerulonephritis associated with hepatitis C virus infection in an adolescent

The clinical, laboratory and pathological findings are reported in an adolescent patient with hyper-IgM immunodeficiency syndrome (dysgammaglobulinemia) which was complicated by primary sclerosing cholangitis and membranous glomerulonephritis. Hepatitis C virus (HCV) RNA was detected in serum by the polymerase chain reaction. A possible etiological relationship between hepatitis C virus infection and membranous nephropathy is discussed.

HBcAg and HBsAg expression in ductular cells in chronic hepatitis B

The possible involvement of bile duct epithelium (BDE) in chronic hepatitis B was examined by immunohistochemical investigation of HBcAg and HBsAg expression in biliary cells in 47 liver biopsies with both viral antigens detectable in hepatocytes. HBcAg- and HBsAg-positive cells were identified in nine and five cases, respectively, in atypical and occasionally in typical ductules in cases of acute exacerbation, chronic active hepatitis and active cirrhosis. Atypical ductules were usually located in areas of periportal fibrosis and in cirrhotic septa. Liver cell plates expressing viral markers and undergoing ductular transformation (positive reaction of hepatocytes to BDE-specific, wide-spectrum keratin) were also observed in acinar zone 1, at the periphery and within parenchymal nodules in a number of cases. The presence of both viral antigens in atypical ductules in cases of advanced chronic liver disease most probably expresses the persistence of the virus in cells deriving from biliary metaplasia of infected hepatocytes. However, the detection of the virus in a few typical ductules is indicative of a direct viral infection. According to these findings, ductular cells seem to serve as a suitable host for HBV, their genotype permitting viral replication and antigen production.

Hepatitis B virus replication in diverse cell types during chronic hepatitis B virus infection

Hepatitis B virus-specific nucleic acid sequences and proteins have been detected in extrahepatic tissues of acutely and chronically infected patients. However, apart from peripheral blood mononuclear cells and bone marrow cells, little is known about the specific cell types that permit viral replication. In this study, we assessed the extrahepatic tissues of four patients who died with chronic hepatitis B virus infection and two uninfected controls by means of in situ hybridization and immunohistochemical study. Three of these patients had diffuse extrahepatic distribution of the virus. Hepatitis B virus nucleic acid sequences and proteins were detected in the lymph nodes, spleen, bone marrow, kidney, skin, colon, stomach, testes and periadrenal ganglia. The following cell types were found to be positive for hepatitis B virus: endothelial cells, macrophages/monocytes, hematopoietic precursors, basal keratinocytes, mucosal epithelial cells, stromal fibroblasts and sustentacular and neuronal cells. It is probable that these cells could support viral replication because hepatitis B virus DNA replicative intermediates, viral transcripts and HBsAg and HBcAg proteins were detected in most. These findings may be relevant to the initiation of extrahepatic syndromes associated with chronic hepatitis B virus infection such as vasculitis, glomerulonephropathy, neuropathy and dermatitis.

Hepatitis B virus DNA in peripheral-blood mononuclear cells in chronic hepatitis B after HBsAg clearance

In this study, peripheral-blood mononuclear cells from patients with chronic hepatitis B and spontaneous or therapy-induced disappearance of HBsAg were examined for HBV DNA. Samples were evaluated by in situ hybridization and polymerase chain reaction both before and after clearance of HBsAg. By in situ hybridization, positive signals were observed in 2 of 13 samples collected after HBsAg loss, in 8 of 15 samples before HBsAg loss and in 0 of 4 control patients without serological markers of active or prior HBV infection. When polymerase chain reaction analyses were performed, HBV DNA was detected in 5 of 12 HBsAg-negative samples and 10 of 15 HBsAg-positive samples from the study group. Testing of mononuclear cells after disappearance of HBsAg revealed that two of eight patients were HBV DNA positive by in situ hybridization and by polymerase chain reaction, whereas two additional patients were positive by polymerase chain reaction alone. Mononuclear cell-associated HBV DNA was detected between 2 and 9 mo after the disappearance of circulating HBsAg by in situ hybridization and as long as 4 yr later by polymerase chain reaction. These data indicate that patients who have undergone HBsAg seroconversion may nonetheless harbor HBV DNA in their peripheral-blood mononuclear cells for prolonged periods.

The sequential change of serum 2',5' oligoadenylate synthetase in different infectious patterns of duck hepatitis B virus in ducks in experimental transmission

Duck hepatitis B virus (DHBV) shows clear age-dependent infectious patterns like that of Hepatitis B virus, and many factors have been assumed to have a role in the persistence of the infection. In the present study, the activities of the interferon-induced enzyme 2',5' oligoadenylate synthetase (2,5AS) were observed sequentially in the serum of ducks experimentally infected with DHBV on posthatch days 1, 7 and 14. These were compared with the infectious pattern to investigate whether the endogenous interferon response after infection in ducks of different ages has a major role in its determination. The infectious pattern of DHBV in 1-day-old ducks was persistent without hepatitis and the others were transient with hepatitis. Persistently infected ducks showed significantly lower activities of 2,5AS compared with those with transient hepatitis, which resulted in a rapid elimination of DHBV. Although 1-day-old ducks showed significantly high 2,5AS compared with non-infected ducks, interferon response alone appeared to be insufficient for the elimination of DHBV. The immune response seemed necessary for the complete elimination of DHBV by way of evoking hepatitis and stimulating more interferon response during the usual infectious course. The interferon system alone did not seem to have a critical role in determining the infectious pattern. Other factors, including the immune response to the virus, seemed to have a major role in this problem.

Course of hepatitis B and D virus infection in auxiliary liver grafts in hepatitis B-positive patients. A light-microscopic and immunohistochemical study

Four patients who received an auxiliary partial liver graft for decompensated liver cirrhosis due to hepatitis B (HBV), associated in two cases with hepatitis D virus (HDV) superinfection, were studied. The sequential appearance of hepatitis B and D antigens in the grafts was investigated in serial liver biopsies by immuno-histochemical methods and compared with the viral antigenic profiles of the host livers. The histological changes in the liver grafts were studied in relation to the viral expression patterns. One week after transplantation, expression of HBsAg was already apparent in two grafts. HBcAg was found in the graft of the only patient with HBcAg in the host liver. HDAg was expressed in the grafts of both patients with HDV superinfection; in one of these cases HDAg was present without HBsAg. At 3 months, viral antigen expression was maximal. Expression of HBsAg and HBcAg in the grafts of the two HDV-positive patients was, however, less extensive than in the two HBV-positive patients. All patients developed a mild lobular hepatitis, histologically demonstrated between the 47th and 107th posttransplantation day. In the two HBV-positive, HDV-negative patients, cirrhotic transformation of the graft occurred within 1 year. In the HDV-positive patients only a mild chronic active hepatitis with slight or moderate fibrosis was observed after 1 year. We conclude that recurrence of HBV and HDV infection in auxiliary liver grafts is demonstrable within 1-3 weeks. HBV infection in liver grafts may be a rapidly progressive disease. Coinfection with HDV does not aggravate the acute hepatitis and may even suppress the progression of chronic HBV.

Hepatitis B virus. New and evolving issues

Recent developments in molecular biology have advanced our understanding of the pathogenesis of HBV-induced disease. New data derived from the molecular analysis of clinical material have begun to bridge the gap between bench research and the clinical arena. In this review, we consider topics that have relevance to clinical management and that have not been summarized in the recent literature. The recent advances that have been made in the areas of HBV variants, in vitro cell culture systems, and extrahepatic infection are discussed in greater detail.

In vivo neutralization of duck hepatitis B virus by antibodies specific to the N-terminal portion of pre-S protein

The neutralization of duck hepatitis B virus (DHBV) infection using antibodies directed against the N-terminal portion of the large surface protein was examined in vitro and in vivo. We demonstrate here that a monoclonal antibody, directed against an epitope mapped between aa 77 and aa 100 on the DHBV pre-S, exerts a similar neutralizing activity (77%) both in vivo and in vitro. Furthermore, we have found that a polyclonal antiserum raised against the bacterially expressed 131 first amino acids of the DHBV pre-S region abolished the infectivity of DHBV in ducklings. Therefore, antibodies against a peptide representing most of the DHBV pre-S region (1-131) or a monoclonal antibody specific to an epitope within this region neutralizes in vivo DHBV infectivity.

Duck hepatitis B virus: a model to assess efficacy of disinfectants against hepadnavirus infectivity

The efficacy of three proprietary glutaraldehyde disinfectants and their component bases was assessed using the duck hepatitis B virus (DHBV) model. Inactivation of infectivity of undiluted serum containing 10(6.8) ID50/ml DHBV was assessed after a mixture with an equal volume of disinfectant had stood at room temperature for 10 min. A dried spill of infectious serum was simulated using sterile filter paper disks, saturated with serum containing DHBV, dried and then exposed to test disinfectant for 10 min. Residual infectivity, and hence the reduction in virus titre, was determined by inoculation of dilutions of the treated samples into 1-day-old ducklings. A greater than 3 log10 reduction in virus titre could be demonstrated for the disinfectants as well as for some of their component bases. Disinfectant activity varied according to the method of viral presentation but a reduction of exposure time from 10 to 2.5 min did not diminish activity. The experimental protocol permits a comparative and quantitative assessment of the efficacy of both established and new disinfectants.

Duck hepatitis B virus infection of non-hepatocytes

One hundred and seventeen ducklings, 42 inoculated with duck hepatitis B virus (DHBV) 2 days after hatching and 55 connatally infected, were studied over a 6-month period in parallel with 20 ducklings without DHBV infection. Using immunohistochemical, in situ and blot hybridization analyses, the natural course of hepatic and extrahepatic infection was examined. DHBV infection started in the liver 2-4 days post-inoculation. There, DHBV was found not only in hepatocytes, but also in bile duct epithelial cells. Further, DHBV infection occurred in exocrine and endocrine pancreas (beginning 6-10 days and 20 days post-inoculation, respectively) and in germinal centers of the spleen (beginning 8 weeks post-inoculation). Occasionally viral DNA was also found in kidney glomeruli. Using strand-specific RNA probes, viral DNA in pancreas and spleen was clearly demonstrated to be replicating intermediates. Hepatic and extrahepatic infection with DHBV was not associated with histologic inflammation or pathologic changes in these tissues or the liver. These data indicate that DHBV can infect cells other than hepatocytes. The biological significance of non-hepatocyte infection for the life-cycle of the virus and its potential significance for viral persistence remain to be determined.

Persistent hepatitis B virus following interferon alfa therapy and liver transplantation

A 44-year-old man with chronic hepatitis B virus infection and cirrhosis was treated with recombinant human interferon alfa for 67 days immediately before orthotopic liver transplantation and immunoprophylaxis with hyperimmune globulin to hepatitis B virus in the peritransplant period. Dot blots for hepatitis B virus DNA demonstrated marked reduction in viremia after 41 days of interferon alfa treatment. Southern analysis for hepatitis B virus in liver showed a pronounced decrement in actively replicating forms in the explant, although hepatic infection was still detectable. After liver transplantation, tests for serum hepatitis B virus DNA and hepatitis B surface antigen remained negative. The patient died 32 days after transplantation of causes unrelated to hepatitis B virus. DNA isolated from liver and other visceral organs at autopsy showed infection of the engrafted liver and the persistence of monomeric relaxed circular forms of hepatitis B virus DNA in pancreas, kidney, and spleen. Thus, graft reinfection occurred despite aggressive antiviral therapy and immunoprophylaxis combined with liver transplantation. Existing viral serological markers appear insufficiently sensitive to assess residual infectivity.

Natural history of experimental woodchuck hepatitis virus infection: molecular virologic features of the pancreas, kidney, ovary, and testis

The kinetic patterns of woodchuck hepatitis virus (WHV) infection were monitored in the pancreas, kidneys, ovaries, and testes. Groups of woodchucks experimentally infected with a standardized inoculum of WHV were sacrificed at different times over a 65-week period beginning in the preacute phase of viral infection and continuing to the period of serologic recovery or the establishment of chronic infections and subsequent hepatocellular carcinoma (B. E. Korba, P. J. Cote, F. V. Wells, B. Baldwin, H. Popper, R. H. Purcell, B. C. Tennant, and J. L. Gerin, J. Virol. 63:1360-1370, 1989). Tissues from an additional group of long-term (2 to 3 years) chronic WHV carriers which had been infected with the same WHV inocula were also examined. Viral DNA replication intermediates were found in all four tissues during the acute phase of WHV infection. However, WHV DNA replication intermediates were observed only in the kidneys of a small proportion of the chronically infected animals. Following the acute phase of infection, WHV DNA was present only in the pancreas, kidneys, and ovaries of the chronically infected woodchucks. A progressive evolution of different WHV genomic forms related to the replicative state of WHV was observed in these tissues. Histologic evaluation of these four tissues revealed only minimal, localized lesions which were not correlated with the state of WHV activity. The observations compiled in this study further extend the tissue tropism of WHV.

Extrahepatic hepatitis B virus DNA sequences in patients with acute hepatitis B infection

Recent studies have demonstrated the presence of hepadnavirus-related nucleic acids in extrahepatic tissues in various animal models. The prevalence and biological significance of extrahepatic infection in humans remains undetermined. To characterize the tissue distribution and physical state of extrahepatic hepatitis B virus nucleic acids in acute hepatitis infection, we examined serum, liver and multiple extrahepatic tissues obtained at autopsy from two patients with fulminant hepatitis and one patient with resolving hepatitis who died of an unrelated cause. Southern-blot hybridization analysis was used to analyze the physical state of hepatitis B virus-related DNA. Hepatitis B virus-related RNA sequences were examined by slot-blotting total RNA extracted from corresponding tissues. Hepatitis B virus nucleic acids were demonstrated in lymph nodes, spleen, gonads, thyroid gland, kidneys, pancreas and adrenal glands. The most intense signal of hybridization was obtained with DNA extracted from lymph nodes. In general, the levels of hepatitis B virus RNA correlated with the amount of viral DNA. Fast-migrating DNA sequences resembling replicative intermediates and ranging in size from 1 to 3.2 kb were detected in EcoRI digests. Faint high-molecular-weight smears suggesting random integration also were observed. Remarkably, little or no hepatitis B virus nucleic acid was detected in the serum or liver. In control specimens obtained from hepatitis B virus carriers, most hybridizable hepatitis B virus nucleic acid was present in liver, but hepatitis B virus DNA was also detected in extrahepatic tissues. Finally, no specific histological changes were observed in extrahepatic tissues harboring hepatitis B virus.(ABSTRACT TRUNCATED AT 250 WORDS)

Epitope-specific antibody response to the surface antigen of duck hepatitis B virus in infected ducks

In order to investigate the immune response to duck hepatitis B virus (DHBV) infection, newly hatched DHBV DNA negative ducklings were injected with infectious serum of sufficiently low DHBV-DNA titer to allow clearance of viremia. Of 20 injected ducklings, 13 (65%) became viremic. Of these, 6 (46%) cleared virus from the serum 3 to 22 weeks postinjection. The convalescent sera of these 6 animals were tested for an epitope-specific antibody response in a highly specific competitive inhibition assay using a panel of monoclonal antibodies against duck hepatitis B surface antigen (DHBsAg) that had been well-characterized. All 6 animals recovering from DHBV infection developed antibodies to epitopes on the preS and S proteins of DHBV. Antibody responses were highly variable with marked differences between animals in the extent and specificity of the antibody response. The humoral response to DHBsAg was prolonged in some animals but transient in others. No antibody to preS or S was detected in either preimmune sera or sera of control animals from an uninfected flock. Infected animals that did not clear viremia also remained antibody negative. The humoral responses to neutralizing preS epitopes III and V were weak but antibodies to two immunodominant epitopes on the preS region (II and B) were present in all 6 animals. The humoral response to the two epitopes in the S region was transient and of lower titer when compared to the two immunodominant preS epitopes. The two immunodominant preS epitopes may play an important role in clearance of DHBV infection in ducks.

Postexposure treatment of experimental DHBV infection: a new therapeutic strategy

The therapeutic efficacy of antiviral agents for postexposure prophylaxis to hepadnavirus infection has been studied using acyclovir and foscarnet in the duck hepatitis B virus (DHBV) model. A total of 112 Pekin-Aylesbury ducks were inoculated with DHBV at 11 days post-hatch. Three days later, groups of these birds were injected intraperitoneally twice daily for 10 days with acyclovir (25 mg/kg) or foscarnet (250 mg/kg) or phosphate-buffered saline. Serum samples were taken before, during, and up to 4 weeks post-treatment and were analysed for DHBV DNA by dot hybridization. Liver tissue obtained at sacrifice was examined for viral DNA and for histological changes. At completion of treatment with acyclovir, 21 of 22 ducks were not viremic, compared with 6 of 26 control birds (P less than 0.001). Four weeks after withdrawal of acyclovir, 12 of 20 ducks remained nonviremic, compared with 2 of 23 controls (P less than 0.01). In liver tissue, viral DNA was detected in 10 of 19 treated ducks, compared with 21/24 controls (P less than 0.01). Histological changes of hepatitis were present in more of the control birds than in the treated group. The results with foscarnet treatment were similar, although a smaller inoculum of DHBV was used and fewer control birds became infected. The administration of antiviral agents soon after exposure prevented productive infection in approximately 50% of birds. Therefore, the use of a safe antiviral agent such as acyclovir, which can be given orally, should be considered in post-exposure prophylaxis against human hepatitis B virus (HBV) infection.

Reduced duck hepatitis B virus viraemia in ducklings coinfected with the immunodepressive reticuloendotheliosis virus

Coinfection of avian hosts by duck hepatitis B virus (DHBV) and reticuloendotheliosis virus (REV) was studied to assess the effect of immunodepression by REV on the replication of DHBV. One-day-old ducklings, domestic chickens, and turkey poults were inoculated either with DHBV or DHBV and REV and were bled and weighed at regular intervals. DHBV infection as manifested by viraemia and DHBV DNA in liver was established only in ducklings. All chickens and turkeys were negative for DHBV DNA in serum and liver. However, ducklings coinfected with REV showed a delayed onset and reduced level of viraemia compared to ducklings infected only with DHBV. The narrow host range of DHBV was confirmed even in immunodepressed species. It is suggested that the reduction in DHBV viraemia in ducklings was due to factors not involving the specific immune system.

Natural infection of duck embryos with duck hepatitis B virus: time and tissue sequence of infection

There have been no studies addressing the detailed sequence of embryonic infection with duck hepatitis B virus (DHBV). Therefore, duck embryos from flocks infected with DHBV were examined to study the sequence of infection by DHBV in various embryonic tissues. Embryos from flocks infected with DHBV were harvested in duplicates from 7 to 25 days of incubation. Whole embryos (to 12 days) or dissected embryonic tissues were fixed, paraffin embedded, and stained for DHBV surface antigen (DHBsAg) using a peroxidase-antiperoxidase technique. Isolated hepatic cells were infected in 7-day-old embryos, and these increased in number until 11 days, when most cells were positive for DHBsAg. Endocrine pancreatic cells were positive from day 10, but only an occasional exocrine pancreatic cell was infected after day 20. Renal tubule cells were positive for DHBV by day 11, increasing in number until about day 18, after which a decline in numbers of infected cells occurred. Renal glomeruli became positive for DHBsAg from day 24. When present in the developing embryo, thymus, bursa of Fabricius, spleen, bone marrow, lung, and duodenum remained negative for DHBsAg. It was concluded that the timing of infection of specific tissues was not necessarily related to cellular maturity but may reflect a need for specific metabolic functions that permit viral replication.

Immunity in Pekin ducks experimentally and naturally infected with duck hepatitis B virus

The immune response to duck hepatitis B virus (DHBV) had not been elucidated. An assay was therefore established to detect the presence of antibody to DHB surface antigen (anti-DHBs) in serum of experimentally inoculated and naturally infected ducks. Anti-DHBs in serum was detected by indirect RIA from the percentage inhibition of binding of rabbit anti-DHBs to purified DHBsAg. Specificity was confirmed by positive and negative controls, infected and noninfected sera, and a mouse monoclonal antibody to DHB core antigen (anti-DHBc). Serum and liver samples were tested for DHBV DNA by dot-blot hybridization assay. Adult ducks repeatedly inoculated with DHBV remained non-viraemic but developed anti-DHBs. This antibody activity neutralized the infectivity of DHBV, which was experimentally inoculated into 1-day-old ducklings. In naturally infected flocks anti-DHBs was detected in a proportion of noninfected adult ducks as well as 1-day-old hatchlings. Anti-DHBs activity in hatchlings neutralized the infectivity of experimentally inoculated DHBV. Pekin ducks can therefore mount a neutralizing antibody response to DHBV, and immunity may be transferred in ovo from dam to off-spring.

A sequential histologic and immunohistochemical study of duck hepatitis B virus infection in Pekin ducks

Twenty-nine Pekin ducks were inoculated with duck hepatitis B virus (DHBV), DHBV-free serum, or saline at 1 day of age. Congenitally DHBV-infected ducks were also studied. Ducks were killed periodically during a 92-week study and examined histologically and immunohistochemically to assess liver and extrahepatic inflammation and to detect and characterize DHBV core antigen tissue distribution. DHBV infection produced an asymptomatic but persistent DHBV viremia in all ducks associated with a mild to moderate transient hepatic inflammation apparent at 3 to 6 weeks post-inoculation and waning afterwards. DHBV core antigen was detected in hepatocyte cytoplasm at 1 week post-inoculation, and by 3 weeks post-inoculation scattered pancreatic acinar and islet cells also contained viral antigen. Small numbers of mononuclear cells in the splenic white pulp also contained viral antigen. Viral antigen persisted in all of these tissues throughout the duration of the experiment. No inflammation or tissue injury was detected in any of the extrahepatic tissues during the course of DHBV infection. One DHBV-injected duck developed a hepatocellular carcinoma at 88 weeks of age. Isolated patches of neoplastic hepatocytes contained cytoplasmic DHBV core antigen. The results of this study indicate that DHBV, like mammalian hepadnavirus, is capable of producing a persistent infection of the liver and several extrahepatic tissues and suggest that persistent infection may be associated with the development of hepatocellular carcinoma.

Natural history of woodchuck hepatitis virus infections during the course of experimental viral infection: molecular virologic features of the liver and lymphoid tissues

In this study, the kinetic patterns of woodchuck hepatitis virus (WHV) infection were monitored in the liver and the five primary components of the lymphoid system (peripheral blood lymphocytes, lymph nodes, bone marrow, spleen, and thymus). Groups of woodchucks experimentally infected with a standardized inoculum of WHV were sacrificed at different times over a 65-week period beginning in the preacute phase of viral infection and continuing to the period of serologic recovery or the establishment of chronic infections and subsequent hepatocellular carcinoma. Infection by WHV was not limited to the liver but involved the major components of the lymphoid system during all stages of virus infection. A complex series of kinetic patterns was observed for the appearance of WHV DNA in the different lymphoid compartments and the liver during the entire course of viral infection. A progressive evolution of different WHV genomic forms related to the replicative state of WHV was also observed. Lymphoid cells of the bone marrow were the first cells in which WHV DNA was detected, followed in order by the liver, the spleen, peripheral blood lymphocytes, lymph nodes, and finally the thymus. Several differences were observed in the cellular WHV DNA patterns between woodchucks that developed chronic WHV infections and those that serologically recovered from acute WHV infections. The observations compiled in this study indicate that the host lymphoid system is intimately involved in the natural history of hepadnavirus infections from the earliest stages of virus entry.

Systemic distribution of woodchuck hepatitis virus in the tissues of experimentally infected woodchucks

To better assess the extent of the tissue tropism of mammalian hepadnaviruses, 10 tissues from each of six woodchucks were examined for the presence and state of woodchuck hepatitis virus (WHV) nucleic acids 15 months after experimental WHV infection. The tissues examined were peripheral blood lymphocytes, lymph node, spleen, bone marrow, thymus, pancreas, kidney, ovary, testis, and liver. Tissue samples from three chronically infected animals and three animals with serologic patterns of recovery (serum: WHsAg-, anti-WHs+, anti-WHs+, WHV DNA-) from acute WHV infection were analyzed in parallel by in situ hybridization and Southern and Northern blot techniques. WHV nucleic acids were detected in several individual tissues from each animal examined, although not all tissues in every animal contained WHV. Substantial differences were observed among the various tissues and animals with respect to the frequency, level, and intratissue distribution of WHV nucleic acids, as well as the presence of different viral genomic forms. Active WHV DNA replication was present only in the liver and spleen of the chronically infected animals. No evidence of ongoing WHV DNA replication was found in any of the tissues from the recovered animals. WHV DNA was homogeneously distributed among all hepatocytes in the livers of the chronic carriers. By contrast, WHV DNA in all the extrahepatic tissues, and in the livers of the recovered animals, was detected only in scattered foci of cells.