Patrizia Pontisso

Natural history and prognostic factors for chronic hepatitis type B.

One hundred and five hepatitis B surface antigen (HBsAg) positive patients presenting with chronic persistent hepatitis (n = 46) or chronic active hepatitis without cirrhosis (n = 59) were followed longitudinally for one to 16 years (mean 5.5 years) and underwent follow up biopsy. During a mean histological follow up of 3.7 years, active cirrhosis developed in 21 (20%) patients one to 13 years after entry to the study with a calculated annual incidence of 5.9%. The probability of evolution to cirrhosis was significantly higher in patients with chronic active hepatitis and bridging hepatic necrosis than in those with moderate chronic active hepatitis or chronic persistent hepatitis (p less than 0.0001). Cox multiple regression analysis showed that the following three variables independently implied poor prognosis: older age, presence of bridging hepatic necrosis, and persistence of hepatitis B virus DNA in serum (p less than 0.0001). These findings indicate that patients with severe chronic active hepatitis and persistent hepatitis B virus replication are at very high risk of rapid progression to cirrhosis.

HCV-associated liver cancer without cirrhosis

Chronic infection with hepatitis C virus (HCV) is regarded as a risk factor for hepatocellular cancer, mostly in patients with liver cirrhosis. We looked for HCV genomes in the livers of patients with hepatocellular cancer who did not have cirrhosis to see whether HCV was directly oncogenic. Cancerous and non-cancerous liver tissue, and serum samples from 19 patients negative for hepatitis B surface antigen were analysed by polymerase chain reaction for the presence of HCV genome, HCV replication, HCV genotyping, and HBV genome. 13 of 19 patients were HCV RNA-positive in cancerous and non-cancerous liver tissue; 8 of 17 tested were anti-HCV positive. Among the 13 HCV RNA-positive patients, 11 had genotype 1b and 2 had genotype 2a. 7 of 13 serum samples were HCV RNA positive. 7 of 19 patients were HBV DNA positive in cancerous and non-cancerous liver tissue, 5 of them anti-HBc positive. 4 patients were both HCV RNA and HBV DNA positive and 3 were both HCV RNA and HBV DNA negative. Our results provide evidence for the association of HCV, mostly genotype 1b, with hepatocellular cancer without the intermediate step of cirrhosis.

Longitudinal evaluation reveals a complex spectrum of virological profiles in hepatitis B virus/hepatitis C virus–coinfected patients†‡

Hepatitis B virus (HBV) and hepatitis C virus (HCV) coinfection is often associated with severe forms of liver disease. However, comprehensive studies are lacking, and scant information is available regarding the virological behavior over time in coinfected patients. This study enrolled 133 untreated HBV/HCV‐positive patients (male/female = 102/31; median age 51 years [range: 22‐83 years]) who were longitudinally followed up for 1 year with bimonthly evaluation of HBV/HCV viremia levels and liver biochemistry. Thirty of these patients had triple infection with hepatitis Delta virus (HDV), while 103 patients were HDV‐negative. In the HDV‐negative group, active infection with both HBV and HCV was revealed in 24 cases, inactive infection by both viruses was seen in 15 cases, active HBV/inactive HCV was seen in 15 cases, and inactive HBV/active HCV was seen in 49 cases. However, 32 subjects (31%) presented dynamic virological profiles characterized by fluctuation of HBV and/or HCV viremia levels that at different time points were over or under the cutoff limits. Consequently, a correct diagnosis could be performed in these subjects only by serially repeating the virological tests 1 year apart. Similarly, 15 of the 30 HDV‐positive subjects showed active HBV and/or HCV infection, with fluctuating virological patterns in 8 cases. In conclusion, this study showed that the virological patterns in HBV/HCV coinfection are widely divergent and have dynamic profiles. A careful longitudinal evaluation of the viremia levels of both viruses is essential for making a correct diagnosis and tailoring the appropriate therapeutic schedule in coinfected patients. (HEPATOLOGY 2005.)

Identification of an attachment site for human liver plasma membranes on hepatitis B virus particles

The surface antigen of hepatitis B virus (HBsAg) exposes three protein domains: preS1, preS2, and S. In a previous study we have shown that preS1 sequences expressed in transfected yeast cells bind specifically to plasma membranes of human liver. In this study we show that purified virus particles from a virus carrier bind also specifically to such membranes. Subviral HBsAg filaments which are rich in preS1 bind well too, while HBsAg 20-nm particles which contain small amounts of preS1 bind to a much lesser degree. The binding can be inhibited by a monoclonal antibody which recognizes a sequential epitope between amino acids 27 and 49 of the preS1 domain.

Overexpression of squamous cell carcinoma antigen variants in hepatocellular carcinoma

Pathogenetic mechanisms of hepatocellular carcinoma (HCC) are still unclear and new tools for diagnostic and therapeutic purposes are ongoing. We have assessed whether squamous cell carcinoma antigen (SCCA), a serpin overexpressed in neoplastic cells of epithelial origin, is also expressed in liver cancer. Squamous cell carcinoma antigen was evaluated by immunohistochemistry in 65 HCCs of different aetiology and in 20 normal livers. Proliferative activity was assessed using MIB-1 antibody. In 18 surgical samples, tumour and nontumour liver tissue was available for SCCA cDNA amplification and sequencing. Squamous cell carcinoma antigen was detected in 55 out of 65 (85%) tumour specimens, but in none of the 20 controls. In the majority of the cases, the positive signal was found in the cytoplasm of more than 50% of the hepatocytes. Low or undetectable SCCA (score⩽1) was associated to lower MIB-1 labelling index, compared to cases with SCCA score ⩾2 (mean±s.d.: 2%±2.4 vs 7.5%±10.3, P<0.05). Squamous cell carcinoma antigen mRNA could be directly sequenced in 14 out of 18 liver tumours but in none of the corresponding nontumour samples. From sequence alignment, a novel SCCA1 variant (G351 to A) was identified in five cases, while SCCA1 was revealed in six cases and SCCA2 in three cases. In conclusion, SCCA variants are overexpressed in HCC, independently of tumour aetiology. A novel SCCA1 variant has been identified in one third of liver tumours.Pathogenetic mechanisms of hepatocellular carcinoma (HCC) are still unclear and new tools for diagnostic and therapeutic purposes are ongoing. We have assessed whether squamous cell carcinoma antigen (SCCA), a serpin overexpressed in neoplastic cells of epithelial origin, is also expressed in liver cancer. Squamous cell carcinoma antigen was evaluated by immunohistochemistry in 65 HCCs of different aetiology and in 20 normal livers. Proliferative activity was assessed using MIB-1 antibody. In 18 surgical samples, tumour and nontumour liver tissue was available for SCCA cDNA amplification and sequencing. Squamous cell carcinoma antigen was detected in 55 out of 65 (85%) tumour specimens, but in none of the 20 controls. In the majority of the cases, the positive signal was found in the cytoplasm of more than 50% of the hepatocytes. Low or undetectable SCCA (score⩽1) was associated to lower MIB-1 labelling index, compared to cases with SCCA score ⩾2 (mean±s.d.: 2%±2.4 vs 7.5%±10.3, P<0.05). Squamous cell carcinoma antigen mRNA could be directly sequenced in 14 out of 18 liver tumours but in none of the corresponding nontumour samples. From sequence alignment, a novel SCCA1 variant (G351 to A) was identified in five cases, while SCCA1 was revealed in six cases and SCCA2 in three cases. In conclusion, SCCA variants are overexpressed in HCC, independently of tumour aetiology. A novel SCCA1 variant has been identified in one third of liver tumours.

Serum and liver HCV RNA levels in patients with chronic hepatitis C: correlation with clinical and histological features

Background—Liver disease in chronic hepatitis C virus (HCV) infection ranges from minimal lesions to liver cirrhosis, eventually evolving to hepatocellular carcinoma. Whether and how HCV determines the different clinical and histological manifestations of the disease is not fully understood. Aims—To verify whether the amount of virus in individual patients could be related to the severity of liver injury. Patients and methods—Levels of HCV RNA were measured in serum in 96 consecutive patients with chronic hepatitis type C using a signal amplification assay. The relation between viraemic values and the corresponding viral load in the liver was assessed in a subgroup of 21 patients in whom HCV RNA was measured in serum samples and liver specimens obtained at the same time. Results—A positive correlation was observed between the amount of viral nucleic acid in the two compartments, indicating that levels of viraemia reflect the amount of virus present in the liver. Viral load did not correlate with aminotransferase activities nor with histological diagnosis, and serum and liver levels of HCV RNA were not significantly different in patients infected by the various HCV genotypes. Conclusions—Measurement of HCV replication in serum is a mirror of viral replication in the liver. The extent of replicative activity of HCV does not seem to play a role in the modulation of the associated hepatic disease.

Persistent Hepatitis C Viremia Predicts Late Relapse after Sustained Response to Interferon-α in Chronic Hepatitis C

Chronic infection with the hepatitis C virus (HCV) is a major cause of cirrhosis and hepatocellular carcinoma worldwide. In many countries, interferon- therapy is the only licensed method for treating this condition. It has been licensed on the basis of randomized, controlled trials that have shown its effectiveness in reducing disease activity and virus replication [1, 2]. However, few treated patients achieve a complete response that is maintained after therapy, and many others have a transient response or no response at all [3, 4]. Serum alanine aminotransferase activity is the conventional marker used to monitor response to therapy, and sustained biochemical response is defined as normalization that lasts for 6 to 12 months after cessation of interferon- therapy. More recently, serum HCV RNA testing has been recognized as an important component of assessing response to treatment; patients who respond at the biochemical level and maintain normal alanine aminotransferase levels after therapy may remain viremic, indicating that interferon- has suppressed liver disease activity but has not eradicated the virus [5]. There is increasing agreement that patients with biochemical response should be tested for serum HCV RNA to more accurately define the effect and efficacy of treatment. However, little is known of the clinical significance and long-term outcome of persistent viremia with normal alanine aminotransferase activity after interferon- therapy. It is still unclear whether this profile reflects delayed virus clearance or persistence of a noncytopathic type or load of HCV or whether it should instead be regarded as a predictor of reactivation of liver damage and progression of disease. To clarify these issues, we investigated the long-term outcome of a large series of consecutive patients with chronic hepatitis C who had persistently maintained normal alanine aminotransferase activity for at least 1 year after cessation of interferon- therapy. Methods Patients Between January 1990 and November 1993, 440 consecutive patients with chronic hepatitis C were treated with interferon- therapy in three consecutive randomized trials [6, 7] using different schedules of treatment. Inclusion and exclusion criteria were identical for the three studies, and the clinical characteristics of patient subgroups were similar [8]. Enrolled patients were between 18 and 65 years of age and had a persistent (lasting more than 6 months) elevation of alanine aminotransferase levels of more than twice the upper limit of normal positive result on testing for antibody to HCV, and histologic evidence of chronic hepatitis with or without Child grade A cirrhosis. Patients who were also infected with hepatitis B virus or human immunodeficiency virus who had autoimmunity or comorbid conditions were not included. The total interferon- dose ranged from 234 MU to 740 MU, administered for 6 or 12 months. Alanine aminotransferase levels were tested monthly during therapy. Complete biochemical response was defined as normalization of liver enzyme levels during therapy, maintained until withdrawal of therapy. After cessation of interferon- therapy, patients who had responded were monitored for serum alanine aminotransferase at 3-month intervals; sustained biochemical response was defined as enzyme levels that were normal for as long as 12 months after therapy. Of 440 treated patients, 259 (59%) showed complete biochemical response during treatment, but 141 (54%) of the 259 had relapse within 12 months after therapy was discontinued. Of the 118 patients with alanine aminotransferase levels that were normal for as long as 12 months after therapy, 107 could be tested for serum HCV RNA and followed prospectively for an additional 6 to 36 months (mean follow-up after therapy, 35 18 months). In the remaining 11 patients who had responded to interferon-, serum samples were not available for HCV RNA testing 1 year after therapy. Testing Serum HCV RNA was tested using nested polymerase chain reaction [9]; the sensitivity limit of the assay was between 103 and 104 copies/mL. The virus genotype was identified using spot hybridization with genotype-specific oligonucleotide probes [9] and was classified according to the system of Simmonds and colleagues [10]. Liver biopsies were done during the 6 months before therapy. Sixty-three of the 107 patients with persistently normal alanine aminotransferase levels consented to have liver biopsy, done 8 to 12 months after cessation of interferon therapy. The histologic evaluation was made by a pathologist who was blinded to clinical data and to the sequence in which biopsy specimens had been obtained. Continuous variables were compared by using the t-test, and proportions were compared by using the chi-square test. The probability of maintaining a sustained response to therapy in different groups was analyzed by using the Kaplan-Meier method and was compared by using the log-rank test. Results One year after therapy, serum HCV RNA was detectable in 27 (25%) of the 107 patients with sustained biochemical response; 80 patients were negative for HCV RNA. Retrospective analysis of stored serum samples showed that 13 of 27 (48%) patients positive for HCV RNA were viremic at completion of therapy. In the remaining 14 patients (52%), HCV RNA had reappeared either during the first 6 months (6 patients) or the second 6 months (8 patients) after therapy. Patients who were positive for HCV RNA differed substantially from those who were negative for HCV RNA; the former were older and were treated with a smaller total dose of interferon-. Furthermore, a statistically significant difference was seen in the distribution of virus genotypes; HCV RNA-positive patients had a higher prevalence of HCV genotype 2 and a lower prevalence of HCV genotype 3 than did HCV RNA-negative patients. After treatment, a liver biopsy could be done while alanine aminotransferase levels were normal in 14 HCV RNA-positive patients and 49 nonviremic patients. Chronic hepatitis with piecemeal necrosis was seen in 8 of 14 (57%) HCV RNA-positive patients; the remaining patients had chronic hepatitis with portal inflammation but no periportal necrosis (4 patients) or minimal changes (2 patients). In contrast, active histologic findings were seen in only 6 of 49 (12%) HCV RNA-negative patients (P = 0.01); the remaining patients had chronic hepatitis with portal inflammation but no piecemeal necrosis (25 patients) or either normal liver histologic findings or minimal changes (18 patients). When the 107 patients were followed prospectively beyond the first year after therapy had been discontinued, the outcomes in viremic and nonviremic patients clearly differed. All HCV RNA-negative patients maintained normal alanine aminotransferase levels and remained negative for HCV RNA, whereas a biochemical relapse was seen in 8 of the 27 (30%) viremic patients. The estimated probability of a return of elevated alanine aminotransferase levels 4 years after cessation of treatment was 53% in viremic patients and 0% in the negative patients (P < 0.001) (Figure 1). No characteristics could be used to distinguish patients with early (within 12 months) or late (beyond 12 months) relapse after therapy. However, when all patients who had relapse were compared with all patients who had sustained biochemical and virologic long-term responses, the former were older (P < 0.01), had a longer duration of disease (P < 0.01), and had a different distribution of HCV genotype (P < 0.05) with increased prevalence of genotype 1 and decreased prevalences of genotypes 2 and 3. Figure 1. Probability of maintaining normal serum alanine aminotransferase levels at long-term follow-up (Kaplan-Meier curves). P Discussion Our study shows that serum HCV RNA testing is clinically useful when done 1 year after interferon- therapy in patients with chronic hepatitis C who have responded to therapy with persistently normal aminotransferase levels. If the test result is negative 1 year after therapy, the response is permanent; in patients who are still viremic 1 year after therapy, liver disease is often still histologically active and the risk for a late reactivation of hepatitis is substantial (53% of patients in our study had probability of reactivation by 4 years after therapy). Our results are consistent with previous reports on the discrepancy between biochemical and virologic responses to interferon- in chronic hepatitis C and on the possibility of late relapse after a prolonged biochemical response [11, 12]. Only one HCV RNA test was done 1 year after therapy, and we cannot exclude the possibility of some false-negative results caused by intermittent viremia or HCV-RNA levels below the sensitivity of our assay. Furthermore, viremia may not accurately reflect the presence or absence of the virus in the liver. Despite these limitations and the fact that not all of our patients who responded to interferon could have a liver biopsy done after treatment, our results clearly indicate that serum HCV RNA should be tested in all patients who have developed a sustained biochemical response to interferon- to establish whether the response is complete and permanent. Patients who are negative for HCV RNA may be considered cured. Viremic patients with normal alanine amino-transferase levels should be followed carefully well beyond the first year after cessation of therapy, because many will eventually relapse. Studies must be done to determine whether treatment with larger interferon- doses could reduce the prevalence of residual viremia after therapy and whether patients who remain positive for HCV RNA after interferon- therapy could benefit from early retreatment. Dr. Belussi: Divisione Malattie Infettive, O. Le Grazie, 5501 San Marco, 30124 Venezia, Italy. Dr. Martinelli: Divisione Medica, O.C. Cittadella (PD), via Circonvallazione, 35013 Cittadella (PD), Italy.

Evidence for an association between the aetiology of cirrhosis and pattern of hepatocellular carcinoma development.

BACKGROUND Patients with liver cirrhosis are at significant risk of hepatocellular carcinoma (HCC) that may develop as well defined nodular lesions or as more aggressive infiltrating tumours. AIM To compare prospectively risk factors associated with nodular or infiltrating HCC in cirrhotic patients. PATIENTS AND METHODS We studied 370 patients with cirrhosis, followed prospectively by periodic ultrasound (US) of the liver, for a mean period of 74.6 (SD 32.4) months to define the incidence and patterns of HCC development. Patients who developed HCC were compared according to tumour pattern using univariate and multivariate analysis. RESULTS Sixty one (16.5%) patients developed HCC: HCC was classified as nodular in 49 (80.3%) and infiltrating in 12 (19.7%) according to US and computerised tomography (CT) imaging. The five and 10 year cumulative probabilities were 8.1% (95% confidence interval (CI) 5.2%-11%) and 25.2% (15.0–35.4%) for nodular HCC and 2.1% (0.5–3.7%) and 6.9% (2.1–11.7%) for infiltrating HCC. Patients with infiltrating HCC were younger than those with nodular HCC (59.5 v66.2 years, 95% CI 55.2–63.8 and 64.1–68.3 years; p=0.014). Using multivariate analysis, development of nodular HCC was associated with older age (p=0.0002; relative risk (RR) 3.1; 95% CI 1.6–5.2), longer duration (p=0.09; RR 2.6; 95% CI 1.8–3.4), and more advanced stage (p=0.002; RR 2.5; 95% CI 1.3–4.5) of cirrhosis but not with the aetiology of liver disease. In contrast, development of infiltrating HCC appeared to be unrelated to age or disease duration or stage, while it was associated with hepatitis B virus infection (p=0.07; RR 3.96; 95% CI 1.1–5.2) and with hepatitis B/hepatitis C virus coinfection (p=0.0007; RR 16.9; 95% CI 3.8–36.7). CONCLUSIONS In liver cirrhosis, we identified two patterns of HCC developing with distinct risk factors. Nodular HCC was related to the cirrhotic process per se independent of aetiological factors and may depend on the proliferative activity within regenerative nodules, while the infiltrating form of HCC was linked to hepatitis B virus infection and may reflect more direct virus induced carcinogenesis.

Distribution of three major hepatitis C virus genotypes in Italy. A multicentre study of 49 5 patients with chronic hepatitis C

SUMMARY. Different genotypes of hepatitis C virus (HCV) have been shown to have distinct geographical distribution and to associate with variable clinical features. To evaluate their role in chronic hepatitis in Italian patients, we studied 495 consecutive cases with chronic hepatitis C seen in nine sentinel centres homo geneously distributed over Italy. HCV genotyping was carried out using a dot‐blot hybridization assay with genotype‐specific probes. Four hundred and eleven patients were viraemic and could be evaluated: 57% were found to be infected with HCV‐1,31% with HCV‐2, 8% with HCV‐3. 1% showed mixed infection and 3% were ascribed to HCV‐2b or HCV‐4 by direct sequencing. Geographical distribution showed discrete territorial variations. A history of drug addiction was commoner in patients infected with HCV‐3. There were no signifi cant differences in activity of liver disease among different HCV genotypes but the response to interferon therapy was reduced in patients infected with HCV‐1 compared to HCV‐2 or HCV‐3.

Genotypes of hepatitis C virus in Italian patients with chronic hepatitis C

Abstract To assess the prevalence of different hepatitis C virus genotypes in an European population of patients with chronic hepatitis C, 79 consecutive Italian patients were studied. After having cloned and sequenced part of the 5′ untranslated region of the virus in 21 patients, oligonucleotide probes were synthesized to be used in a more rapid dot-blot hydridization test. Using this method, 42% of patients were found infected by HCV type 1, 45% by HCV type 2 and 4% by HCV type 3, while seven patients remained unclassified. Patients infected by HCV type 3 were significantly younger and had a milder form of liver disease, compared to those infected by HCV type 1 or HCV type 2. Patients with HCV type 2 or HCV type 3 responded to interferon therapy much better than those with HCV type 1. These results provide information on the prevalence of different HCV genotypes in our region, and indicate the usefulness of the dot-blot hybridization procedure for rapid screening of HCV genotypes.