Chronic HDV (hepatitis delta virus) hepatitis. Intrahepatic expression of delta antigen, histologic activity and outcome of liver disease

Advances and Challenges in Managing Hepatitis D Virus: Evolving Strategies

Purpose of Review

Hepatitis D Virus (HDV), although a small defective virus, poses a substantial public health challenge due to lack of awareness, underrecognized prevalence, and limited treatment options. Universal HDV screening within hepatitis B virus (HBV) cohorts is essential to address this issue. Despite its aggressive nature, effective HDV therapies have remained elusive for over four decades.

Recent Findings

Advances in understanding HDV's biology and clinical behavior offer potential therapeutic breakthroughs, fostering optimism. As insights grow, effective and targeted therapies are being developed to improve HDV management.

Summary

This review delves into HDV's intricate structure and biology, highlighting formidable hurdles in antiviral development. It emphasizes the importance of widespread screening, exploring noninvasive diagnostics, and examining current and emerging innovative therapeutic strategies. Moreover, the review explores models for monitoring treatment response. In essence, this review simplifies the complexities of effectively combating HDV.

Diagnosis of HDV: From virology to non-invasive markers of fibrosis

Hepatitis D viral infection in humans is a disease that requires the establishment of hepatitis B, relying on hepatitis B surface Ag and host cellular machinery to replicate and propagate the infection. Since its discovery in 1977, substantial progress has been made to better understand the hepatitis D viral life cycle, pathogenesis and modes of transmission along with expanding on clinical knowledge related to prevention, diagnosis, monitoring and treatment. The availability of serologic diagnostic assays for hepatitis D infection has evolved over time with current widespread availability, improved detection and standardized reporting. With human migration, the epidemiology of hepatitis D infection has changed over time. Thus, the ability to use diagnostic assays remains essential to monitor the global impact of hepatitis D infection. Separately, while liver biopsy remains the gold standard for the staging of this rapidly progressive and severe form of chronic viral hepatitis, there is an unmet need for clinical monitoring of chronic hepatitis D infection for management of progressive disease. Thus, exploration of the utility of non-invasive fibrosis markers in hepatitis D is ongoing. In this review, we discuss the virology, the evolution of diagnostics and the development of non-invasive markers for the detection and monitoring of fibrosis in patients with hepatitis D infection.

Distinct histological patterns in chronic hepatitis D with nucleos(t)ide analogue therapy

Background

Chronic hepatitis delta virus (HDV) infection leads to a more severe hepatitis than hepatitis B virus (HBV) infection alone. Specific histological staining patterns have been described in HBV mono-infection, however this has not been extensively investigated in HDV co-infection. This study evaluated whether the use of nucleos(t)ide analogs (NAs) for concurrent HBV infection has an impact on the histological appearance of chronic HDV.

Methods

Liver biopsies of all patients referred for management of HDV infection were reviewed and hepatitis-specific stains for HBV antigens were evaluated. Clinical and histological characteristics were compared between patients on and off-NA therapy.

Results

50 patients were included in our analysis, of which 26 (52%) were on NA therapy at the time of the biopsy. Overall, 8% stained for HBV core antigen and 86% stained for HBV surface antigen. On and off-NA groups had similar degrees of fibrosis and inflammation, however NA patients had an odds ratio of 7.15 for membranous staining and 0.13 for scattered granular staining (p = 0.001). No association was found with markers of disease severity or viral activity, with nonetheless a lower score of total inflammation noted in biopsies with a positive membranous stain (8.5 vs. 10.3 p = 0.04).

Conclusion

In chronic HDV infection, patients treated with nucleos(t)ide analogs demonstrate a unique membranous staining pattern for hepatitis B surface antigen, which is not associated with HBV or HDV replicative activity. These findings may help improve the understanding of the role of HBV directed therapy in HDV pathophysiology.

Highlights

Histological staining is associated with viral activity in chronic HBV, however this has been infrequently explored in HDV. In HDV, staining patterns differ based on HBV treatment status and do not appear to be associated with markers of viral activity.

Can Interferon therapy change natural course of Hepatitis Delta infection, A clinical and pathological study

Introduction: Chronic delta hepatitis (CDH) has a worser outcome than other viral hepatitis. High dose, long-term Interferon-α (IFNα) is the approved treatment and may ameliorate course. We evaluated long-term histological outcomes of CDH patients treated with IFNα. Method: Histologically proved non-cirrhotic CDH patients treated with high dose IFNα for at least 1 year were grouped as cirrhotic and non-cirrhotic at the end of treatment. Non-cirrhotic patients had also post-treatment liver biopsies. Patients were grouped as histologically responsive and non-responsive regarding fibrosis status. Histological, virological and biochemical courses were analyzed. Results: 48 patients were treated with IFNα (conventional and/or pegylated) for median 24 months with a post-treatment follow-up of 5 years. During the follow-up, cirrhosis developed in 24 patients, 5 of whom were decompensated. There was no difference between pre- and post-treatment fibrosis scores of 24 non-cirrhotic patients at the end of follow-up. Among patients; 13% (n:6) had decreased, 21%(n:10) had steady and 16% (n:8) had increased fibrosis scores. Persistent viral response (PVR) was achieved in 16 patients (33%). 20% of entire group was histologically responsive (decreasing or steady fibrosis scores with improved necro-inflammatory score) while near 80% had histological progression/cirrhosis. PVR was significantly associated with histological response. Conclusions: Long-term natural course of patients who were treated with high dose IFNα for at least one year was evaluated clinically and histologically. Despite the association of PVR with histological response, IFNα treatment didn't change the natural course of CDH, clinical and histological progression continued in two-thirds of the cases despite treatment.

HDV Pathogenesis: Unravelling Ariadne's Thread

Hepatitis Delta virus (HDV) lies in between satellite viruses and viroids, as its unique molecular characteristics and life cycle cannot categorize it according to the standard taxonomy norms for viruses. Being a satellite virus of hepatitis B virus (HBV), HDV requires HBV envelope glycoproteins for its infection cycle and its transmission. HDV pathogenesis varies and depends on the mode of HDV and HBV infection; a simultaneous HDV and HBV infection will lead to an acute hepatitis that will resolve spontaneously in the majority of patients, whereas an HDV super-infection of a chronic HBV carrier will mainly result in the establishment of a chronic HDV infection that may progress towards cirrhosis, liver decompensation, and hepatocellular carcinoma (HCC). With this review, we aim to unravel Ariadne’s thread into the labyrinth of acute and chronic HDV infection pathogenesis and will provide insights into the complexity of this exciting topic by detailing the different players and mechanisms that shape the clinical outcome.

New insights into HDV persistence: The role of interferon response and implications for upcoming novel therapies

Chronic hepatitis D (CHD), a global health problem, manifests as the most severe form of viral hepatitis. The causative agent, HDV, is the smallest known human virus; it replicates its circular single-stranded RNA genome in the nucleus of hepatocytes. HDV requires HBV-encoded envelope proteins for dissemination and de novo cell entry. However, HDV can also spread through cell division. Following entry into hepatocytes, replicative intermediates of HDV RNA are sensed by the pattern recognition receptor MDA5 (melanoma differentiation antigen 5) resulting in interferon (IFN)-β/λ induction. This IFN response strongly suppresses cell division-mediated spread of HDV genomes, however, it only marginally affects HDV RNA replication in already infected, resting hepatocytes. Monotherapy with IFN-α/λ shows efficacy but rarely results in HDV clearance. Recent molecular insights into key determinants of HDV persistence and the accelerated development of specifically acting antivirals that interfere with the replication cycle have revealed promising new therapeutic perspectives. In this review, we briefly summarise our knowledge on replication/persistence of HDV, the newly discovered HDV-like agents, and the interplay of HDV with the IFN response and its consequences for persistence. Finally, we discuss the possible role of IFNs in combination with upcoming therapies aimed at HDV cure.

Hepatitis Delta Virus Acts as an Immunogenic Adjuvant in Hepatitis B Virus-Infected Hepatocytes

Hepatitis delta virus (HDV) requires hepatitis B virus (HBV) to complete its infection cycle and causes severe hepatitis, with limited therapeutic options. To determine the prospect of T cell therapy in HBV/HDV co-infection, we study the impact of HDV on viral antigen processing and presentation. Using in vitro models of HBV/HDV co-infection, we demonstrate that HDV boosts HBV epitope presentation, both in HBV/HDV co-infected and neighboring mono-HBV-infected cells through the upregulation of the antigen processing pathway mediated by IFN-β/λ. Liver biopsies of HBV/HDV patients confirm this upregulation. We then validate in vitro and in a HBV/HDV preclinical mouse model that HDV infection increases the anti-HBV efficacy of T cells with engineered T cell receptors. Thus, by unveiling the effect of HDV on HBV antigen presentation, we provide a framework to better understand HBV/HDV immune pathology, and advocate the utilization of engineered HBV-specific T cells as a potential treatment for HBV/HDV co-infection.

HDV infection affects viral antigen processing and presentation

HDV boosts HBV epitope presentation on HBV/HDV and mono-HBV-infected hepatocytes

Anti-HBV efficacy of T cells engineered with T cell receptors is enhanced by HDV

TNF-alpha inhibition ameliorates HDV-induced liver damage in a mouse model of acute severe infection

BACKGROUND & AIMS

HDV infection induces the most severe form of human viral hepatitis. However, the specific reasons for the severity of the disease remain unknown. Recently, we developed an HDV replication mouse model in which, for the first time, liver damage was detected.

METHODS

HDV and HBV replication-competent genomes and HDV antigens were delivered to mouse hepatocytes using adeno-associated vectors (AAVs). Aminotransferase elevation, liver histopathology, and hepatocyte death were evaluated and the immune infiltrate was characterized. Liver transcriptomic analysis was performed. Mice deficient for different cellular and molecular components of the immune system, as well as depletion and inhibition studies, were employed to elucidate the causes of HDV-mediated liver damage.

RESULTS

AAV-mediated HBV/HDV coinfection caused hepatocyte necrosis and apoptosis. Activated T lymphocytes, natural killer cells, and proinflammatory macrophages accounted for the majority of the inflammatory infiltrate. However, depletion studies and the use of different knockout mice indicated that neither T cells, natural killer cells nor macrophages were necessary for HDV-induced liver damage. Transcriptomic analysis revealed a strong activation of type I and II interferon (IFN) and tumor necrosis factor (TNF)-α pathways in HBV/HDV-coinfected mice. While the absence of IFN signaling had no effect, the use of a TNF-α antagonist resulted in a significant reduction of HDV-associated liver injury. Furthermore, hepatic expression of HDAg resulted in the induction of severe liver damage, which was T cell- and TNF-α-independent.

CONCLUSIONS

Both host (TNF-α) and viral (HDV antigens) factors play a relevant role in HDV-induced liver damage. Importantly, pharmacological inhibition of TNF-α may offer an attractive strategy to aid control of HDV-induced acute liver damage.

LAY SUMMARY

Chronic hepatitis delta constitutes the most severe form of viral hepatitis. There is limited data on the mechanism involved in hepatitis delta virus (HDV)-induced liver pathology. Our data indicate that a cytokine (TNF-α) and HDV antigens play a relevant role in HDV-induced liver damage.

New treatment options for delta virus: Is a cure in sight?

Current treatment of chronic hepatitis D viral infection with interferons is poorly tolerated and effective only in a minority of patients. Despite delta virus causing the most severe form of chronic viral hepatitis, no other treatments are available. After many years of inactivity, there is now hope for new treatment approaches for delta virus and some are likely to enter clinical practice in the near future. Four new treatment approaches are currently being evaluated in phase 2 studies. These involve the hepatocyte entry inhibitor myrcludex B, the farnesyl transferase inhibitor lonafarnib, the nucleic acid inhibitor REP 2139 Ca and pegylated interferon lambda. Results obtained so far are promising, and phase 3 studies are expected shortly. This review summarizes the available data on the efficacy and safety of these new drugs.

Enveloped viruses distinct from HBV induce dissemination of hepatitis D virus in vivo

Hepatitis D virus (HDV) doesn't encode envelope proteins for packaging of its ribonucleoprotein (RNP) and typically relies on the surface glycoproteins (GPs) from hepatitis B virus (HBV) for virion assembly, envelopment and cellular transmission. HDV RNA genome can efficiently replicate in different tissues and species, raising the possibility that it evolved, and/or is still able to transmit, independently of HBV. Here we show that alternative, HBV-unrelated viruses can act as helper viruses for HDV. In vitro, envelope GPs from several virus genera, including vesiculovirus, flavivirus and hepacivirus, can package HDV RNPs, allowing efficient egress of HDV particles in the extracellular milieu of co-infected cells and subsequent entry into cells expressing the relevant receptors. Furthermore, HCV can propagate HDV infection in the liver of co-infected humanized mice for several months. Further work is necessary to evaluate whether HDV is currently transmitted by HBV-unrelated viruses in humans.

Hepatitis delta virus and hepatocellular carcinoma: an update

Hepatitis delta virus (HDV) is a defective RNA virus that depends on the presence of hepatitis B virus (HBV) for the creation of new virions and propagation of the infection to hepatocytes. Chronic infection with HDV is usually associated with a worsening of HBV infection, leading more frequently to cirrhosis, increased risk of liver decompensation and hepatocellular carcinoma (HCC) occurrence. In spite of a progressive declining prevalence of both acute and chronic HDV infection observed over several years, mainly due to increased global health policies and mass vaccination against HBV, several European countries have more recently observed stable HDV prevalence mainly due to migrants from non-European countries. Persistent HDV replication has been widely demonstrated as associated with cirrhosis development and, as a consequence, development of liver decompensation and occurrence of HCC. Several treatment options have been attempted with poor results in terms of HDV eradication and improvement of long-term prognosis. A global effort is deemed urgent to enhance the models already existing as well as to learn more about HDV infection and correlated tumourigenesis mechanisms.

Hepatocarcinogenesis associated with hepatitis B, delta and C viruses

Globally, over half a billion people are persistently infected with hepatitis B (HBV) and/or hepatitis C viruses. Chronic HBV and HCV infection frequently lead to fibrosis, cirrhosis and hepatocellular carcinoma (HCC). Co-infections with hepatitis delta virus (HDV), a subviral satellite requiring HBV for its propagation, accelerates the progression of liver disease toward HCC. The mechanisms by which these viruses cause malignant transformation, culminating in HCC, remain incompletely understood, partially due to the lack of adequate experimental models for dissecting these complex disease processes in vivo.

The hepatitis delta virus: Replication and pathogenesis

Hepatitis delta virus (HDV) is a defective virus and a satellite of the hepatitis B virus (HBV). Its RNA genome is unique among animal viruses, but it shares common features with some plant viroids, including a replication mechanism that uses a host RNA polymerase. In infected cells, HDV genome replication and formation of a nucleocapsid-like ribonucleoprotein (RNP) are independent of HBV. But the RNP cannot exit, and therefore propagate, in the absence of HBV, as the latter supplies the propagation mechanism, from coating the HDV RNP with the HBV envelope proteins for cell egress to delivery of the HDV virions to the human hepatocyte target. HDV is therefore an obligate satellite of HBV; it infects humans either concomitantly with HBV or after HBV infection. HDV affects an estimated 15 to 20 million individuals worldwide, and the clinical significance of HDV infection is more severe forms of viral hepatitis--acute or chronic--, and a higher risk of developing cirrhosis and hepatocellular carcinoma in comparison to HBV monoinfection. This review covers molecular aspects of HDV replication cycle, including its interaction with the helper HBV and the pathogenesis of infection in humans.

Hepatitis D virus coinfection and superinfection

HDV is a defective RNA pathogen requiring the simultaneous presence of HBV to complete its life cycle. Two major specific patterns of infection have been described: the coinfection with HDV and HBV of a susceptible, anti-HBs-negative individual, or the HDV superinfection of a chronic HBV carrier. Coinfection mostly leads to the eradication of both agents, whereas the majority of patients with HDV superinfection evolve to chronic HDV infection and hepatitis. Chronic HDV infection worsens the preexisting HBV-related liver damage. HDV-associated chronic liver disease (chronic hepatitis D) is characterized by necroinflammation and the relentless deposition of collagen culminating, within a few decades, into the development of cirrhosis and hepatocellular carcinoma.

Hepatitis D virus: an update

Hepatitis D virus (HDV) infection involves a distinct subgroup of individuals simultaneously infected with the hepatitis B virus (HBV) and characterized by an often severe chronic liver disease. HDV is a defective RNA agent needing the presence of HBV for its life cycle. HDV is present worldwide, but the distribution pattern is not uniform. Different strains are classified into eight genotypes represented in specific regions and associated with peculiar disease outcome. Two major specific patterns of infection can occur, i.e. co-infection with HDV and HBV or HDV superinfection of a chronic HBV carrier. Co-infection often leads to eradication of both agents, whereas superinfection mostly evolves to HDV chronicity. HDV-associated chronic liver disease (chronic hepatitis D) is characterized by necro-inflammation and relentless deposition of fibrosis, which may, over decades, result in the development of cirrhosis. HDV has a single-stranded, circular RNA genome. The virion is composed of an envelope, provided by the helper HBV and surrounding the RNA genome and the HDV antigen (HDAg). Replication occurs in the hepatocyte nucleus using cellular polymerases and via a rolling circle process, during which the RNA genome is copied into a full-length, complementary RNA. HDV infection can be diagnosed by the presence of antibodies directed against HDAg (anti-HD) and HDV RNA in serum. Treatment involves the administration of pegylated interferon-α and is effective in only about 20% of patients. Liver transplantation is indicated in case of liver failure.

Natural history and treatment of chronic delta hepatitis

Chronic delta hepatitis (CDH) represents a severe form of chronic viral hepatitis, induced by the hepatitis delta virus (HDV) in conjunction with the hepatitis B virus (HBV). Delta hepatitis may lead to disease in humans through co-infection. The former leads to acute hepatitis which clinically can range from mild hepatitis to fulminant hepatitis and death. Severe or fulminant hepatitis is more often observed with HBV-HDV co-infection compared to HBV mono-infection. Chronic infection after acute hepatitis B + D co-infection is infrequent and similar to the rate in mono-infected patients. CDH develops in 70-90% of patients with superinfection. CDH runs a more progressive course than chronic hepatitis B and may lead to cirrhosis within 2 years in 10-15% of patients. However, as with any immune-mediated disease, different patterns of progression, ranging from mild to severe progressive disease, are observed. Active replication of both HBV and HDV may be associated with a more progressive disease pattern. Further, different HDV and HBV genotypes may contribute to various disease outcomes. CDH may be frequently associated with hepatocellular carcinoma development although recent studies provided conflicting results. The only established therapy for CDH is treatment with interferons for a duration of at least 1 year. On treatment, 6 month HDV RNA assessment may give clues as to whether to stop treatment at 1 year or continue beyond 1 year. New approaches to treatment of CDH are an urgent need of which the use of prenylation inhibitors appears the most promising.

Natural Course and Treatment of Hepatitis D Virus Infection

Hepatitis D virus (HDV) is a subviral satellite with hepatitis B virus (HBV) as its natural helper virus. After entry into hepatocytes, it utilizes host cellular enzymes to replicate by a double-rolling-circle mechanism. HDV is most often transmitted by contact with contaminated blood and body fluid, similar to HBV infection. Approximately 5% of the global HBV carriers are coinfected with HDV, leading to a total of 10-15 million HDV carriers worldwide. HDV infection can occur concurrently with HBV infection (coinfection) or in a patient with established HBV infection (superinfection). The pathogenesis of HDV remains controversial. A decline in the prevalence of both acute and chronic hepatitis D (CHD) has been observed worldwide. At present, therapy for chronic HDV infection is by the use of interferon-alpha. Compared to chronic hepatitis B or C, CHD treatment requires a higher dosage and a longer duration of treatment, and post-treatment relapses are common. In order to prevent the progression of CHD and its related morbidity and mortality, more effective treatments are needed.

Human CD4+ T-cell response to hepatitis delta virus: identification of multiple epitopes and characterization of T-helper cytokine profiles

The T-cell-mediated immune response plays a crucial role in defense against hepatotropic viruses as well as in the pathogenesis of viral chronic hepatitides. However, very little is known about the role of specific T cells during hepatitis delta virus (HDV) infection in humans. In this study, the T-cell response to HDV in chronic hepatitis B virus (HBV) carriers with HDV superinfection was investigated at different levels. Analysis of peripheral blood mononuclear cell (PBMC) proliferation in response to a recombinant form of large hepatitis delta antigen (HDAg) revealed that 8 of 30 patients studied (27%) specifically responded to HDAg. By employing synthetic peptides spanning the entire HDAg sequence, we found that T-cell recognition was directed against different antigenic determinants, with patient-to-patient variation in the pattern of response to peptides. Interestingly, all responders had signs of inactive HDV-induced disease, while none of the patients with active disease and none of the control subjects showed any significant proliferation. More accurate information about the specific T-cell response was obtained at the clonal level. A panel of HDAg-specific CD4+ T-cell clones from three HDV-infected individuals and fine-specificity analysis revealed that the clones tested individually recognized four epitopes corresponding to amino acids (aa) 26 to 41, 50 to 65, 66 to 81, or 106 to 121 of HDAg sequence. The study of human leukocyte antigen (HLA) restriction revealed that peptides 50 to 65 and 106 to 121 were presented to specific T cells in association with multiple class II molecules. In addition, peptide 26 to 41 was efficiently generated after processing of HDAg through the endogenous processing pathway. Cytokine secretion analysis showed that all the CD4+ T-cell clones assayed were able to produce high levels of gamma interferon (IFN-gamma), belonging either to T helper-1 (Th1) or Th0 subsets and that some of them were cytotoxic in a specific assay. This study provides the first evidence that detection of a specific T-cell response to HDAg in the peripheral blood of individuals with hepatitis delta is related to the decrease of HDV-induced disease activity. The HDAg epitopes identified here and particularly those recognized by CD4+ T cells in association with multiple major histocompatibility complex class II molecules may be potentially exploited for the preparation of a vaccine for prophylaxis and therapy of HDV infection.

Autoantibodies in hepatitis delta

Hepatitis delta virus infection is associated with a wide range of different autoantibodies. The humoral immune response in chronic hepatitis D is directed against the cytoskeleton, the nucleus, the nuclear lamina and the endoplasmic reticulum. Smooth muscle antibodies (SMA), basal cell layer antibodies (BCLA), stellate epithelial cell antibodies (SECA), thymic reticular cell antibodies (TRA), perithymocytic cell antibodies (PTA), and anti-calmodulin antibodies are reactive with constituents of the cytoskeleton. Antinuclear antibodies (ANA) and anti-lamin C antibodies recognize antigens of the nucleus and the nuclear lamina, respectively. Autoantibodies directed against antigens of the endodoplasmic reticulum (LKM) are also common in chronic hepatitis D. Recently, the major molecular target of LKM-3 autoantibodies was described as an epitope on UDP-glucuronosyltransferases of family 1. In view of the important role of UGTs in drug metabolism, LKM-3 autoantibodies represent a new model to study virus induced autoimmunity in man. Future studies should focus on the role of the host immune response and the clinical relevance of these autoantibodies in chronic hepatitis D.

The role of interferon in the treatment of viral hepatitis

Chronic viral hepatitis, frequently an asymptomatic disease, can persist for decades. Despite the lack of symptoms, prolonged infection can lead to the complications of cirrhosis, liver failure and hepatocellular carcinoma. The goal of therapy is to reduce the risk of developing these complications and to eradicate the infectious pool. Patients with ongoing viral replication appear to be at greatest risk for developing complications. These patients have been targeted for treatment. Numerous randomized studies of interferon treatment of chronic hepatitis B and C have been published in the last 8 years. The experience from these studies and more recent developments will be reviewed.

Introduction of hepatitis delta virus into animal cell lines via cationic liposomes

Cationic liposomes are known to facilitate efficient transfection of animal cells with DNA and even some viruses. As reported here, we have been able to use such a commercially available formulation (Lipofectamine) and introduce human hepatitis delta virus (HDV) into lines of cultured cells and demonstrate replication of the HDV genome both by immunofluorescence and by Northern (RNA) analysis. As much as 10% of the human hepatoma cell line Huh7 was transfected with HDV. Also transfected were the baby hamster kidney cell line BHK-21 and the Morris rat hepatoma line 7777. Two initial applications of HDV transfection have been made. (i) The ribonucleoprotein structure of HDV was isolated from disrupted virions and demonstrated as being sufficient to transfect Huh7 cells. In contrast, naked HDV RNA was not sufficient. (ii) From a study of cells transfected with HDV particles, it was found that, even after as long as 7 weeks and the associated replication of the transfected cells, the HDV RNA genome was still replicating. Apparently, HDV, in the absence of helper virus and in the absence of virus assembly, can maintain persistent replication and expression of the HDV genome. Transfection was also achieved with woodchuck hepatitis virus introduced into Huh7 cells. In summary, this transfection procedure should be of use for the study of these and maybe other recalcitrant animal viruses.

Delta hepatitis: molecular biology and clinical and epidemiological features

Hepatitis delta virus, discovered in 1977, requires the help of hepatitis B virus to replicate in hepatocytes and is an important cause of acute, fulminant, and chronic liver disease in many regions of the world. Because of the helper function of hepatitis delta virus, infection with it occurs either as a coinfection with hepatitis B or as a superinfection of a carrier of hepatitis B surface antigen. Although the mechanisms of transmission are similar to those of hepatitis B virus, the patterns of transmission of delta virus vary widely around the world. In regions of the world in which hepatitis delta virus infection is not endemic, the disease is confined to groups at high risk of acquiring hepatitis B infection and high-risk hepatitis B carriers. Because of the propensity of this viral infection to cause fulminant as well as chronic liver disease, continued incursion of hepatitis delta virus into areas of the world where persistent hepatitis B infection is endemic will have serious implications. Prevention depends on the widespread use of hepatitis B vaccine. This review focuses on the molecular biology and the clinical and epidemiologic features of this important viral infection.

Experimental transmission of human hepatitis delta virus to the laboratory mouse

Human hepatitis delta virus (HDV), obtained from the serum of an experimentally infected woodchuck, was injected into either the peritoneal cavity or the tail vein of both adult CB17 mice and mice with a severe combined immunodeficiency (CB17-scid mice). Three lines of evidence indicated that the virus was able to reach the liver and infect hepatocytes: (i) the amount of HDV genomic RNA detected in the liver by Northern (RNA) analysis increased during the first 5 to 10 days postinoculation, reaching a peak that was about threefold the amount in the original inoculum; (ii) also detected in the liver was the viral antigenomic RNA, which is complementary to the genomic RNA found in virions, and is diagnostic for virus replication; and (iii) by immunoperoxidase staining of liver sections, the delta antigen was detected in the nuclei of scattered cells identifiable as hepatocytes. In all of the mice, clearance of the infection occurred between 10 and 20 days after inoculation. The half-life for clearance was about 3 days in CB17-scid mice, indicating that clearance of infection did not involve a T- and B-cell-dependent immune response. Cell-to-cell spread of the initial infection was not detected. One possible interpretation of our results is that HDV infection of hepatocytes is directly cytopathic. Also, the results imply that chronic infection of the liver in humans may require continuous spread of virus within the liver. Alternatively, HDV in the absence of helper virus may be unable to cause a chronic infection of hepatocytes in vivo.

Detection of hepatitis delta virus RNA in human liver tissue by non-radioactive in situ hybridization

Several studies have demonstrated the presence of serum HDV-RNA by molecular hybridization in patients with chronic D infection, but there is scarce information about the presence of HDV-RNA in hepatic tissue. The presence of HDV-RNA by in situ hybridization (ISH) with a non-radioactive probe in paraffin-embedded hepatic tissue was studied in 29 patients with chronic delta hepatitis (20 with and 9 without intrahepatic delta antigen) and correlate their presence with the expression of hepatic delta antigen and serum HDV-RNA by dot-blot hybridization. HDV-RNA was detected by in situ hybridization in 18 cases: 16 of the 20 (80%) biopsies with intrahepatic delta antigen and 2 of the 9 (22%) without. HDV-RNA was not detected in any of the control cases. Serum HDV-RNA was found in 19 cases: 18 (90%) of 20 chronic delta hepatitis cases with tissular delta antigen and one of the 9 without intrahepatic delta antigen. All patients except one, who was positive for intrahepatic HDV-RNA, showed serum HDV-RNA. However, in two cases ISH detected hepatic HDV-RNA without tissular HDAg; one of these also had serum HDV-RNA and in the other positivity for hepatic HDV-RNA by ISH was the only marker of viral delta replication. In conclusion, detection of HDV-RNA in hepatic tissue by in situ hybridization with a digoxygenin-labelled probe is a rapid and sensitive method that could be a useful tool for diagnosis of HDV infection in clinical laboratories.

Pathobiology of hepatitis delta virus

Early observations in humans and infectivity studies in the chimpanzee suggested a direct cytotoxic effect as the major pathogenetic factor in delta hepatitis. Data acquired in liver transplant patients, as well as additional experimental and clinical evidence, have modified this view and indicate instead that liver damage depends on several factors. To explain the array of different clinical presentations, the replication strategy of hepatitis delta virus, the helper function and genetic heterogeneity of the co-infecting Hepadnavirus, and the response of the host immune system should all be taken into consideration.

Significance of low HDV replication levels during the natural history of HDV infection. Long-term follow-up

The use of genetic amplification of the hepatitis delta virus (HDV) genome reveals the existence of different HDV replicative behaviours during the natural history of chronic HDV infection. While some of the patients (8/19, 42%) presented high and long-term maintained levels of HDV replication, as detected by slot-blot hybridization, others showed fluctuations from positive to negative, and in 5/7 (71%) polymerase chain reaction (PCR) demonstrated the presence of the HDV genome. Finally, 4 patients were persistently slot-blot-negative and in 3 of them HDV-RNA was detected by PCR in all samples tested. The correlation observed between the low levels of HDV replication and the ALT values, as well as the reactivation observed in one of the patients, suggests that PCR is useful in the virological surveillance of HDV infection, and indicates its usefulness in evaluating the effectiveness of antiviral therapy for chronic hepatitis D.

Intrahepatic expression of hepatitis B core and surface antigens in chronic hepatitis delta-virus infection

To evaluate the interference of hepatitis B virus (HBV) protein expression in the liver in chronic hepatitis delta-virus (HDV) infection, the intrahepatic expression of hepatitis B core and surface antigens (HBcAg and HBsAg) was studied in 36 HBsAg carriers who were seropositive for anti-HDV and in 36 anti-HDV negative controls [18 with serum hepatitis B e-antigen (HBeAg) and 18 with anti-HBe]. Of 18 HBeAg-positive patients with anti-HDV, 12 had HDV antigen (HDAg) in the liver. HBcAg was positive in 66.7% (8/12) of the HbeAg-positive patients with HDAg in the liver, and in 94.4% (17/18) of controls (p = 0.14). The distribution of HBcAg was exclusively cytoplasmic in 75% (6/8) of HDV-infected patients, but was mixed nuclear and cytoplasmic in 70.6% (12/17) of the controls. The prevalence and quantitative expression of HBcAg in the nucleus, but not in the cytoplasm, were significantly decreased in chronic HDV infection. HBsAg was positive in 91.6% (11/12) of HBeAg-positive patients with HDV infection and in all controls. Membranous expression of HBsAg was detected less frequently in HDV-infected patients than in controls (7/12 vs. 17/18, p = 0.05), while the prevalence and quantitative expression of HBsAg in the cytoplasm showed little or no difference. HDAg was detected in all of the anti-HBe-positive patients with anti-HDV. Of these, none had HBcAg detectable in the liver, nor did controls, while HBsAg was detected exclusively in the cytoplasm in 94.4% (17/18). The prevalence and quantitative expression of HBsAg in the cytoplasm was not different for HDV-infected patients or controls.(ABSTRACT TRUNCATED AT 250 WORDS)

Concurrent hepatitis C virus and hepatitis delta virus superinfection in patients with chronic hepatitis B virus infection

Since hepatitis C virus (HCV) and hepatitis delta virus (HDV) are transmitted by the same routes as hepatitis B virus (HBV), simultaneous or concurrent HCV and HDV infection in patients with chronic HBV infection may occur. To test this hypothesis and to examine the clinicohistological and immunopathological presentations of such multiple hepatitis virus infections, acute and/or convalescent serum specimens from 86 patients with acute HDV superinfection were tested by enzyme immunoassay for antibodies to HCV. Of the 86 patients, 18 (20.9%) were associated with HCV infection. Although patients with early mortality cannot be evaluated by the HCV markers used in this study, the results showed that the clinical and histologic features were similar except that patients with HCV infection were older than those without HCV infection (P less than 0.01). Immunopathological studies carried out within 2 months after the onset of acute HDV superinfection demonstrated that hepatitis B core antigen (HBcAg) was not detected in any patient and HDV antigen was detected in 18.2% of the patients with HCV infection whereas HBcAg and HDAg were found in 7% and 65.1%, respectively, of those without HCV coinfection (P less than 0.02). It is concluded that concurrent HCV and HDV superinfections can and do occur in patients with chronic HBV infection. In these triple viral infections, HCV may even transiently suppress HDV and HBV.

Evolution of hepatitis delta virus RNA during chronic infection

The complete RNA sequences of hepatitis delta virus (HDV) isolated at three different time points from a chronic delta hepatitis patient were determined. These time points represented three different periods of clinical flare-ups. The sequence analysis showed that these three different HDV isolates evolved at a rate ranging from 3.0 x 10(-2) to 3.0 x 10(-3) substitutions/nucleotide/year, depending on the period of infection. The evolution rates appeared to correlate with the changes of clinical pictures of hepatitis, i.e., the more drastic the change in the symptom of hepatitis was, the more nucleotide changes were detected. Except during the transition from the acute phase to chronic phase of delta hepatitis, when there was a much larger number of changes in HDV RNA sequence, the overall evolution rate of HDV RNA in the chronic phase appeared to be similar to those of other RNA viruses. Sequence relationship of these HDV RNAs suggested that acute exacerbations in chronic delta hepatitis were associated with the evolution of the persistently infected HDV, rather than resulting from new viral infections. However, some of the mutations were not cumulative, suggesting that HDV isolated at a later time was not directly evolved from the immediately previous one. Thus, HDV at any time point was a mixture of viruses with slight sequence variations, and a specific HDV RNA species was selected from this virus population under different environments. These findings indicate that HDV RNA is heterogeneous and evolves at a fast rate. The evolution rates in different parts of HDV RNA also varied. The evolution rate of HDV RNA determined here was higher than the ones determined previously from partial RNA sequences of two Japanese HDV isolates.

Expression of intrahepatic hepatitis D viral antigen in chronic hepatitis D virus infection

To elucidate the biological importance of intrahepatic hepatitis D virus antigen, its expression was correlated with biochemical and histological inflammatory activity in 98 biopsy specimens from 68 patients seropositive for total antibody to the virus. Seventy five specimens were positive for intrahepatic nuclear antigen for HDV antigen accompanied by cytoplasmic HDV antigen in only one biopsy specimen. This group had significantly higher serum transaminase activities and inflammatory activity than the remaining cases that were negative for HDV antigen. Among the group positive for HDV antigen, there was no correlation between the proportion of hepatocytes containing HDV antigen and either serum transaminase activity or histological inflammatory indices. In 22 HDV antigen positive patients who had follow up biopsy specimens taken at a median of two years, the proportion with cirrhosis increased from 36% to 73%. Serum transaminase activities remained the same during this period, but the proportion of HDV antigen positive cells dropped. Follow up of 51 patients showed that 21 died or underwent liver transplantation within three years. The absence of an association between intrahepatic HDV antigen expression and progression of histological liver damage does not support the view that HDV is directly cytopathic to hepatocytes. Immune mediated mechanisms may have a role in the pathogenesis of chronic liver disease related to HDV infection.

Hepatitis delta virus (HDV) infections. Epidemiological and clinical heterogeneity

Heterogeneity is a feature of all aspects of HDV infection and biology. Epidemiological studies indicate wide variations in the global distribution of the virus, often with different and bizarre rates of prevalence within apparently homogeneous populations. The medical expression of the infection is likewise manifold, ranging from the asymptomatic carrier of HDV to terminal cirrhosis. The clinical variability is matched at the biological level by extensive molecular heterogeneities, as expected with a small RNA virus such as the HDV.

Detection of HDV-RNA by PCR in serum of patients with chronic HDV infection

In this paper, we studied the usefulness of polymerase chain reaction (PCR) in HDV-RNA detection. Using serial dilutions of serum samples of known concentrations of HDV-RNA, PCR was 10,000-times more sensitive than slot-blot hybridization. PCR was used for the detection of HDV-RNA in 33 serum samples negative to HDV-RNA by conventional slot-blot hybridization. HDV-RNA was detected in 18/33 (54%) of the samples included in this study using PCR. When positivity to a viral genome was related to other viral replication markers, it was found that among the 18 patients positive to the viral genome, 13 (72%) had hepatitis delta antigen in the liver, and five (28%) were negative. In conclusion, HDV-RNA detection by gene amplification is 10,000-times more sensitive than slot-blot hybridization, and allows the detection of viral replication in patients without other viral replication markers.

Different outcomes of chronic hepatitis delta virus infection in woodchucks

Hepatitis delta virus (HDV) superinfection of woodchuck chronic carriers of woodchuck hepatitis virus (WHV) results in acute and chronic disease. The different courses of disease mimicked the outcome of human HDV superinfection, making woodchucks valuable models for clinical studies of HDV. Ten of 11 woodchuck chronic carriers of WHV superinfected with HDV developed acute HDV infection with markers of viral replication in the serum and liver. One animal (DW128) had no serological markers of acute HDV infection. Nine of 11 (82%) superinfected animals developed chronic HDV infection. An unusual course of chronic HDV infection occurred in one woodchuck (DW128): no serum markers of acute or chronic HDV infection appeared but HDV RNA was detected in the liver, indicating that chronic HDV infection can occur without serological markers.

Hepatitis B virus clearance from serum and liver after acute hepatitis delta virus superinfection in chronic HBsAg carriers

Clinical, virological, and histological findings in four HBsAg chronic carriers who cleared HBV markers from both serum and liver following HDV superinfection are described. The patients were long-term HBsAg carriers and all were HBV-DNA/HBeAg positive. Liver biopsy, obtained from three of the patients between 5 and 15 months prior to HDV superinfection, showed chronic persistent hepatitis in two and chronic active hepatitis in one. During the follow-up of 9-19 months, the patients completely recovered from acute delta hepatitis with termination of HBsAg carriage and regression of the histological feature of chronic liver damage. These data demonstrate that sometimes HDV is able to induce a permanent inhibition of its helper virus. HDV superinfection probably enhances the immune clearance of infected cells during the replicative phase of chronic HBV infection.

Serum hepatitis delta virus RNA in patients with delta hepatitis and in liver graft recipients

We have investigated the usefulness of serum hepatitis delta virus (HDV) RNA detection using a slot hybridization analysis of serum samples from ten patients with acute hepatitis and delta markers (group I), from 28 patients with chronic delta hepatitis (group II) and from seven liver graft recipients with hepatitis B virus (HBV) and HDV related cirrhosis or fulminant hepatitis (group III). The slot-blots were hybridized with both HDV-complementary DNA and single-stranded RNA probes. With the single-stranded RNA probe, HDV RNA was detected in the first serum sample available in 9/10 of the patients with acute hepatitis (group I). In addition, HDV RNA was detected in 8/9 and 7/8 of the samples obtained within and after 1 month of the onset of hepatitis. Five of the ten patients scored positive for HDV RNA and negative for hepatitis delta antigen (HDAg) while one was negative for HDV RNA and positive for HDAg. The same RNA probe enabled the detection of serum HDV RNA in 21/28 chronic hepatitis patients (liver HDAg and/or IgM anti-HD positive) (group II). Among the liver graft recipients (group III), 7/7 had a recurrent delta infection. Serum HDAg, liver HDAg and anti-HD IgM were identified in 3/7, 6/7 and 5/7 of the patients, respectively. HDV RNA was detected in the seven patients with either persistent (4/7) or transient (3/7) positivity. In addition, HBsAg and HBV RNA were persistently shown in 4/7 patients with continuous HDV replication. In the remaining three patients, HDV RNA was detectable despite the absence of HBsAg.(ABSTRACT TRUNCATED AT 250 WORDS)

Immuno-light and electron microscopic features of chronic hepatitis D

A morphologic study with immunohistochemical detection of the viral antigens of hepatitis B and Delta was performed on 36 liver specimens from patients with delta positive chronic viral hepatitis B. Electron microscopy was performed in 9 cases. No light microscopic or ultrastructural features specific for hepatitis D were observed. Lymphocytic infiltration occurred more often close to hepatocytes containing either hepatitis Delta antigen or hepatitis B core antigen in the cytoplasm, suggesting an involvement of cellular immune mechanisms in chronic hepatitis D as well as in hepatitis B. The simultaneous expression of both HBcAg and Delta antigen in occasional specimens over longer time periods indicates the possible co-existence of both viruses without mutual inhibition.

Acute hepatitis delta virus superinfection in patients with liver cirrhosis

A clinicopathologic study in a total of 164 patients with acute hepatitis delta virus (HDV) infection showed that nine male patients (5.5%) had evidence of liver cirrhosis prior to or during the episode of acute hepatitis. All nine patients had typical clinical presentations and laboratory findings of acute viral hepatitis. Four of them had prolonged prothrombin time, three developed ascites and one finally died of hepatic failure. Clinical ascites occurred more frequently in cirrhotic patients with severe but non-fulminant hepatitis than their non-cirrhotic counterparts (p less than 0.05). In addition, histologic studies in five patients with cirrhosis disclosed diffuse lobular necrotizing inflammatory activity, with four showing bridging hepatic necrosis, which also occurs more frequently in cirrhotic than in non-cirrhotic patients (p less than 0.05). The data suggest that HBsAg positive patients with cirrhosis are susceptible to acute HDV infection which may lead to extensive necrosis or even decompensation and failure, simulating decompensation of the underlying liver disease. Therefore, careful clinicopathologic work-ups are required for accurate diagnosis and correct assessment of their outcomes.

Intrahepatic markers of hepatitis delta virus infection: a study by in situ hybridization

The intrahepatic distribution of hepatitis delta virus RNA was studied by in situ hybridization in 33 formalin-fixed, paraffin-embedded biopsies from 17 chronic hepatitis B virus carriers superinfected with hepatitis delta virus. The findings were correlated with the expression of the hepatitis delta antigen, the duration of the hepatitis delta virus infection and the eosinophilic degeneration of the hepatocytes. Intranuclear hepatitis delta virus RNA and antigen were found in 28 specimens, whereas the remaining five were negative for both markers. Hepatitis delta virus RNA and antigen were mostly found within the same cell. In 20 specimens, however, a variable number of hepatocytes showed the presence of hepatitis delta virus RNA alone. The percentage of these over the total number of infected cells was higher in the specimens taken within 1 year from the acute delta hepatitis, whereas their absence was invariably associated with a long-established hepatitis delta virus infection. Interestingly, the vast majority of hepatocytes undergoing eosinophilic degeneration, a change significantly associated with hepatitis delta virus infection, did not show the presence of either hepatitis delta virus RNA or the viral antigen, suggesting a lack of association, at the cellular level, between viral replication and cytopathological change. The specificity of the detection of hepatitis delta virus RNA was confirmed by negative findings in nine specimens from seven chronic hepatitis B virus carriers without evidence of past or current hepatitis delta virus infection. The loss in sensitivity due to the formalin fixation was estimated to be 50% of that obtained in frozen biopsies, as determined by counting autoradiographic grains over infected cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Studies on the composition of the mononuclear cell infiltrates in liver from patients with chronic active delta hepatitis

To evaluate the immune process involved in the pathogenesis of liver cell damage in chronic hepatitis delta virus infection, a panel of monoclonal antibodies against pan T cells (Leu 4), inducer/helper T cells (Leu 3a+3b), suppressor/cytotoxic T cells (Leu 2a), B cells (Leu 12), monocytes/macrophages (Leu M3) and NK/K cells Leu 7) was used to characterize the subsets of the mononuclear cell infiltrates in livers from 12 patients with chronic type D hepatitis, with special emphasis on the areas of periportal piecemeal necrosis and intralobular necrosis. A control group of 12 patients with chronic type B hepatitis was also studied for comparison. The results revealed that the livers from patients with chronic type D hepatitis showed a prominent mononuclear cell infiltration in portal/periportal and intralobular areas. Furthermore, the vast majority of the mononuclear cell infiltrates in liver were T cells, which constituted more than 80% of the cells in the areas of periportal piecemeal necrosis and intralobular necrosis and about 60% of the cells in the portal tract, whereas B cells, monocytes/macrophages and NK/K cells were relatively uncommon. Among T cell populations, the inducer/helper T cells were predominant in the portal were predominant in the areas of piecemeal necrosis and intralobular necrosis. The distribution of the mononuclear cell subsets in relation to the different topographical areas of the liver in patients with chronic type B hepatitis was essentially the same as that observed in chronic type D hepatitis. Our findings therefore suggest that T cell-mediated immunity might play a role in the pathogenesis of chronic type D hepatitis, similar to that suggested for chronic type B hepatitis.

Treatment of chronic delta infection with recombinant human interferon alpha 2c at high doses

Superinfection by hepatitis delta virus (HDV) in hepatitis B virus chronic carriers is normally associated with a progressive liver injury. For this reason, the aim of the present study was to determine the efficacy of recombinant interferon alpha (rIFN-alpha) treatment of chronic delta hepatitis, by giving high doses of rIFN-alpha 2c during a prolonged period. A total of 20 HBsAg, anti-HD carriers with a chronic active hepatitis were randomly allocated in two groups: (I) n = 10, control and (II) n = 10, treated with 10 MU/m2 body surface of rIFN-alpha, twice weekly, intramuscularly (im) during 6 months. Basally, all patients presented HDAg in the liver and serum IgM anti-HD. Serum HDV-RNA was positive in 8 and 7 patients from groups I and II, respectively. The interferon therapy was well tolerated and all patients finished the treatment period. During the first 6 months, a decrease in ALT levels among treated patients (255 +/- 98 vs. 193 +/- 117) was observed. In addition, a transient drop in HDV-RNA levels was also observed. No changes in anti-HD titer, IgM anti-HD and HBsAg concentration were detected. At the end of the follow-up period (15 months) two treated patients had lost IgM anti-HD. In addition, another two patients were HDV-RNA negative. In conclusion, no permanent antiviral effects of rIFN-alpha 2c in chronic delta hepatitis, using this schedule, was achieved.

Study of reactivation of chronic hepatitis delta infection

Five patients with chronic hepatitis delta virus (HDV) infection suffered spontaneous episodes of liver enzyme elevation on a background of otherwise biochemically stable liver disease. In all five patients these episodes were accompanied by a rise in serum levels of anti-HDV IgM, HDV antigen and HDV RNA. These episodes of increased HDV replication accompanied by biochemical evidence of liver injury are reminiscent of reactivation in chronic hepatitis B. Surges of increased HDV replication may be important in the progression of liver disease in chronic HDV infection.

Natural course and response to interferon of chronic hepatitis B accompanied by antibody to hepatitis B e antigen

The course of chronic hepatitis B was studied in 30 patients who had antibody to hepatitis e antigen and hepatitis B virus DNA in the serum and hepatitis B core antigen in the liver. Over a 2-year period, no patient experienced a sustained spontaneous remission of disease, and follow-up liver histology revealed worsening of the disease in four patients. After 2 years of observation, 24 patients were allocated randomly to one of two groups: 12 patients served as untreated controls and 12 received recombinant human alpha-interferon-2a in a dose of 9 million units intramuscularly three times weekly for 16 weeks. Patients who remained viremic after 16 weeks received 3 million units three times weekly for an additional 8 weeks. Abnormal amino-transferases and serum hepatitis B virus DNA persisted without appreciable changes in all untreated patients. Hepatitis B virus DNA rapidly became undetectable and serum aminotransferases fell to normal in eight treated patients. After the end of treatment, hepatitis B virus DNA became detectable once again in seven patients, in six of whom a peak of aminotransferases (range: 256 to 850 units per liter) ensued; subsequently, hepatitis B virus DNA disappeared, and serum aminotransferases again fell to normal in two of the seven. Overall, hepatitis B virus DNA was no longer detectable in serum and liver histology improved in three treated patients.(ABSTRACT TRUNCATED AT 250 WORDS)

Chronic hepatitis D in intravenous drug addicts and non-addicts. A comparative clinico-pathological study

In recent years chronic infection by the hepatitis delta virus (HDV) has become an important cause of chronic liver disease among drug addicts. To evaluate the influence of addiction to i.v. drugs on the course of this disease we have analyzed the clinical, histopathological, virological and evolutive features in 18 addicts and 11 non-addicts with chronic delta infection. Recent acute hepatitis D, documented as HDV superinfection, was observed in 14 addicts (77%) and in 2 non-addicts (18%) (P less than 0.02). At the time of evaluation for chronic liver disease, the frequency of symptoms, the degree of biochemical disturbances and the histopathological severity were similar in the two groups but the duration of HDV infection was probably shorter in drug addicts. HBV replication, as indicated by the presence of HBeAg and HBV-DNA in serum and HBcAg in liver, was more frequent in addicts. The amount of HDAg in liver tissue was also greater in addicts (P less than 0.005). Antibodies against the human immunodeficiency virus were detected in all of the addicts (P less than 0.001). Although most patients remained asymptomatic, significant histological worsening occurred in one half of the cases after a relatively short period of follow-up (25.1 +/- 16.3 months). The tendency to deteriorate in addicts (61% of cases) was greater than in non-addicts (36%). These observations suggest that the prognosis of chronic HDV infection is particularly poor in drug addicts in whom rapid deterioration may be related to simultaneous and inadequately controlled replication of hepatotropic viruses.

The impact of molecular biology in the diagnosis and management of viral hepatitis

In recent years molecular biology techniques allowed an extraordinary progress in knowledge of hepatitis viruses. New informations have accumulated on the mechanisms of virus replication and on the pathogenesis of liver damage. In the clinical setting, simple noninvasive methods that use the same technological approach provide a useful diagnostic tool for infections of hepatitis B virus (HBV) and hepatitis delta virus (HDV). Using these tests we may define whether a carrier of hepatitis B surface antigen has a liver damage due to HBV or HDV or to other, non-virological causes. Detection of HBV-DNA and HDV-RNA in serum and liver can also be used as a guide for prognosis and therapy.