Use of pharmacological agents in elucidating the mechanism of insulin action

Hepatitis B virus (HBV) mutants have recently been identified in patients with acute or fulminant as well as chronic infections. Naturally occurring mutations have been identified in all viral genes and regulatory elements. Mutations in the gene coding for the hepatitis B surface antigen (HBsAg) may result in infection or viral persistence despite the presence of antibodies against HBsAg (anti-HBs) ("vaccine escape" or "immune escape"). Mutations in the gene encoding the pre-core/core protein (pre-core stop codon mutant) result in a loss of hepatitis B e antigen (HBeAg) and sero-conversion to antibodies to HBeAg (anti-HBe) with persistence of HBV replication (HBeAg minus mutant). Mutations in the core gene may lead among others to an immune escape due to a T cell receptor antagonism. Mutations in the polymerase gene can be associated with viral persistence or resistance to nucleoside analogues. Thus, HBV mutations may affect the natural course of infection, viral clearance and response to antiviral therapy. The exact contribution of specific mutations to diagnosis and therapy of HBV infection as well as patient management in clinical practice remain to be established.     

Point mutations in the S and pre-S2 genes observed in two hepatitis B virus carriers positive for antibody to hepatitis B surface antigen

Two hepatitis B virus (HBV) carriers who had antibodies to HBV surface antigen (anti-HBs) were studied. Case 1 was a 47 year old woman positive for hepatitis B e antigen (HBeAg), and case 2 was a 61 year old man positive for antibody to HBeAg (anti-HBe) and DNA-polymerase (DNA-p). Neither case had received the HBV vaccine. The nucleotide sequences of the HBV-DNA extracted from the patients' sera were determined within the pre-S2 and S genes. Seven out of nine S gene clones from case 1 and six out of nine S gene clones from case 2 had an amino acid replacement from Thr or Ile to Ser at codon 126 in the alpha-determinant of the S gene. Amino acid substitution of codon 145 of the S gene previously reported was not observed. Although two previous reports on HBV escape mutant carriers with both anti-HBs and HBeAg described some deletions in the pre-S2 gene, our cases did not show these deletions. Our analysis indicated that carriers with the HBV escape mutant did not always have pre-S2 gene deletions. We found two HBV escape mutant carriers who had amino acid substitutions at codon 126 in the S gene due to point mutation without any deletions in the pre-S2 gene.     

Distinguishing between acute and symptomatic chronic hepatitis B virus infection

BACKGROUND/AIMS: Differentiating between an acute hepatitis B (AH-B) infection and an acute exacerbation of a chronic hepatitis B (CH-B) infection can present a problem for the clinician. The only current serological method of distinguishing between acute and symptomatic chronic hepatitis B virus (HBV) infection is the immunoglobulin M antibody to hepatitis B core antigen (anti-HBc) assay, which can be problematic. Therefore, in an attempt to better distinguish between acute and chronic HBV infection, sera from 26 patients with AH-B and 53 patients with CH-B were compared in a variety of experimental immunoassays. METHODS: Experimental assays have been designed to detect free antibody to hepatitis B e antigen (anti-HBe), hepatitis B e antigen (HBeAg)/anti-HBe immune complexes (ICs), and hepatitis B surface antigens (HBsAg)/antibody to hepatitis B surface antigen (anti-HBs) in the presence of excess antigen. An additional assay was developed to detect a novel anti-HBc specificity, designated antibody to woodchuck hepatitis virus (anti-HBcW), which cross-reacts with the core antigen of the woodchuck hepatitis virus. RESULTS: Sera from patients with CH-B showed significantly higher levels of free anti-HBe, HBeAg/anti-HBe ICs, and HBsAg/anti-HBs ICs compared with AH-B patient sera. Furthermore, patients with CH-B consistently produced high titer anti-HBcW, whereas patients with AH-B produced little or no anti-HBcW antibody. CONCLUSIONS: The serology of AH-B infection and symptomatic CH-B infection can be distinguished using a variety of experimental immunoassays in addition to the immunoglobulin M anti-HBc assay.     

Variations of hepatitis B virus core gene sequence in Western patients with chronic hepatitis B virus infection

Heterogeneity of the hepatitis B virus (HBV) core gene has been reported to be associated with the presence of active liver disease in Japanese patients with chronic HBV infection. This study evaluated the significance of HBV core gene heterogeneity in Western patients with chronic HBV infection. The hepatitis B virus precore/core gene from 45 patients (inactive:active liver disease ratio 16:29) was amplified from serum by polymerase chain reaction (PCR). Gel electrophoresis was employed to detect large deletions. The PCR amplicons from 13 patients (all HBV serotype adw but with a different spectrum of liver disease) were cloned and sequenced. Hepatitis B surface antigen (HBsAg) serotypes were tested by enzyme immunoassay (EIA) and hepatic expression of HBV antigens was assessed by immunohistochemistry. The HBV core gene was amplified from the serum of all 45 patients. Three patients had mixed infection with both precore mutant and wild-type HBV and all three had active liver disease. No patient had a large deletion of the HBV core gene. Hepatitis B virus core gene sequence variations were more common in the midcore region and there was no difference in the number of silent and missense substitutions between those with inactive and active liver disease. There was no correlation between the nucleotide or encoded amino acid substitutions and the clinical and biochemical parameters, including the subsequent response to interferon-alpha therapy (n = 37) or hepatic HBV antigen expression. Variation of the HBV core gene was not found to be preferentially associated with active liver disease in Western patients with chronic HBV infection. The pattern of hepatitis B core gene variation is in accord with the genomic organization of HBV.     

Analysis of hepatitis B virus populations in an interferon-alpha-treated patient reveals predominant mutations in the C-gene and changing e-antigenicity

It is largely unknown whether hepatitis B virus (HBV) sequence variation during chronic infection hampers HBV immune recognition or the antiviral effect of cytokines on HBV production. Here we have analyzed which region of the HBV genome changes most drastically during an interferon-alpha (IFNalpha)-stimulated immune response. In addition, we have investigated whether the mutations affect viral replication, gene expression, and immune recognition of the mutant viral proteins. The study was performed with full-length HBV genomes taken longitudinally from a patient who transiently cleared HBV and seroconverted to anti-HBe during a long-term IFNalpha treatment. We found a replacement of the predominant virus population during IFNalpha therapy The virus populations differed mainly by a cluster of nucleotide changes in the C-gene and a pre-S2 deletion. Most of the newly emerging mutations localized within core/HBe B-cell epitopes, changed HBe antigenicity toward mono- and polyclonal antibodies, and also influenced the reactivity of the anti-HBc/e antibodies of the patient. All genomes tested expressed less HBeAg than wild-type HBV, while replication and IFNalpha susceptibility were similar. These data indicate that IFNalpha therapy can lead to the emergence of HBV variants with mutations mainly affecting recognition of the core/HBe proteins by antibodies. Taken together, the type of core/HBe-specific B-cell immune response, the sequence of the corresponding epitopes, and the HBe expression level appear to contribute to the decision on viral clearance or persistence.     

Core antigen mutations of human hepatitis B virus in hepatomas accumulate in MHC class II-restricted T cell epitopes

Despite the extensive molecular information on serum-derived human hepatitis B viruses (HBV), liver-derived replicative HBV genomes have remained largely uninvestigated. We have examined the sequences of the entire core antigen (nucleocapsid) of liver-derived HBVs in 15 different hepatoma patients. Bona fide mutations, rather than subtype polymorphism, have been identified based on the high-frequency occurrence of structural differences from wild type at the highly evolutionarily conserved positions, instead of at the positions known to contain genetic heterogeneity among different isolates from different geographic locations. The distribution of these naturally occurring mutations of HBV core gene appears to be nonrandom and is found predominantly within three major (I, IV, and V) and four minor domains (II, III, VI, and VII). In general, domain IV mutations correlate with domain V mutations. The replicative HBV DNAs tend to accumulate a higher number of mutated core domains than the integrated HBV DNAs. At the domain level, there is no significant difference in HBV core mutation frequencies between the liver tumors and the adjacent nontumorous livers. Strikingly, domains I, III, and V coincide with three major known T cell epitopes within the core protein in acute and chronic hepatitis B patients. Furthermore, these domains coincide with HLA class II-restricted T cell epitopes, rather than with the conventional HLA class I-restricted epitopes of cytotoxic T lymphocytes. Our results support the hypothesis that HBV core antigen variants can accomplish immunoevasion via accumulated escape mutations. In addition, they also provide a potential molecular explanation for the maintenance of persistent infection of human hepatitis B virus in chronic carriers.     

Perinatal transmitted acute icteric hepatitis B in infants born to hepatitis B surface antigen-positive and anti-hepatitis Be-positive carrier mothers

Three infants born to mothers who were hepatitis B surface antigen (HBsAg) positive and had antibody to hepatitis Be antigen (anti-HBe), developed acute icteric hepatitis B within three months of birth. All three infants clinically recovered and developed circulating anti-HBs. Contrary to previous studies, these three cases indicate that mother-infant transmission of the hepatitis B virus (HBV) does occur in infants born to HBsAg-positive, HBe-Ag-negative carrier mothers, and these infants may develop severe acute icteric hepatitis. Therefore, immunoprophylaxis in such newborns may be indicated.     

Pre-core mutants of hepatitis B virus in patients receiving immunosuppressive treatment after orthotopic liver transplantation

Orthotopic liver transplantation (OLT) is a possible treatment for acute or chronic liver failure due to hepatitis B virus (HBV) infection, but reinfection of the graft can be a serious complication. The aim of this study was to monitor HBV markers, to analyse pre-core-/core-mutations as well as to identify the viral population causing reinfection after OLT, and to investigate the emergence or disappearance of these mutants in patients receiving immunosuppressive treatment. Fifty-four pre-and posttransplant serum samples of 17 patients were analysed. All patients underwent OLT for HBV-related liver disease and had HBV-DNA before and after OLT. Total DNA was extracted from all sera and a 240 bp fragment comprising the pre-core region of HBV was amplified by polymerase chain reaction (PCR). Pre-core mutants of HBV were determined by direct sequencing of these PCR products and by sequencing of PCR clones. Eight of 17 patients were infected with pre-core wildtype HBV before OLT (group A). Seven of eight patients of group A were reinfected by pre-core wildtype HBV after OLT. In one of eight patients in addition to wildtype HBV a mutant strain (nt. 1899 G-->A) was detected. Nine of 17 patients were infected with pre-core mutant HBV before OLT (group B). Six of nine patients of group B were reinfected with the same mutant population; in one, an additional pre-core mutation emerged; two patients lost pre-core mutant HBV (nt. 1896 and 1899 G-->A). In one of the latter two, a pre-core start-codon mutant (nt. 1816 G-->T), not detectable before OLT, emerged, in the other a nt. 1897 G-->A stop-codon mutant persisted. Five patients of each group were followed-up for more than 24 (25 to 58) months on immunosuppressive therapy. In all five patients of group A, pre-core wildtype of HBV persisted during long-term follow up. Two of five patients of group B were infected stably with a stop-codon HBV-mutant nt. 1896. In three patients, the nt. 1896 stop-codon mutant disappeared during immunosuppressive therapy. However, in one of the latter three, an HBV stop-codon mutant nt. 1897 persisted. In conclusion, most patients who underwent OLT for HBV-related disease were reinfected with the same virus population that existed before OLT. In rare cases, new mutants emerged after OLT or preexisting mutants were lost. During long-term follow-up on immunosuppressive therapy, in the majority of patients pre-core mutants disappeared and wildtype HBV became the predominant virus strain.     

Fibrosing cholestatic hepatitis in a transplant recipient with hepatitis B virus precore mutant

A patient with hepatitis B virus (HBV) precore mutant (seropositive for hepatitis B surface antigen [HBsAg], anti-hepatitis B e antigen [HBeAg], and HBV DNA) who underwent orthotopic liver transplantation for end-stage liver disease is described. Sequencing of the HBV precore region of the pretransplant serum sample confirmed the presence of the precore stop-codon mutant (G-->A mutation in codon 1896) only. The patient received HBV immunoglobulin prophylaxis for 6 months but HBV recurred thereafter with a mild hepatitic flare, and he remained seropositive for HBsAg, anti-HBe, and HBV DNA. The initial hepatitic illness resolved in 3 months. The patient remained well for another 16 months before presenting with fibrosing cholestatic hepatitis (FCH). During his entire initial hepatitic flare, quiescent period, and final FCH phase, he remained seropositive for HBsAg, anti-HBe, and HBV DNA. Moreover, sequencing of the serum HBV DNA in final FCH phase showed the presence of the identical HBV precore mutant. Immunohistochemical staining showed extensive expression of HBsAg/pre-S1, pre-S2, and hepatitis B core antigen, but HBeAg was scarcely detectable. This case illustrates that (1) recurrence of HBV precore mutant infection can occur in liver; (2) it can give rise to FCH; and (3) hepatic accumulation of HBeAg is not essential for the development of FCH.     

Hepatitis B virus genomic sequence in the circulation of hepatocellular carcinoma patients: comparative analysis of 40 full-length isolates

We determined full-length nucleotide sequence of hepatitis B virus (HBV) genome in sera from 40 Japanese patients with HBsAg-positive hepatocellular carcinoma (HCC), in order to obtain information on HCC-specific characteristics, if any, of the HBV genome. Direct sequencing of the long distance PCR products starting from 50 microliters of serum samples revealed that 95% of our isolates were of genotype C, and that mutations and deletions/insertions were very common. With respect to envelope protein genes, deletions and missense mutations were frequent in preS2, and the determinant a domain of HBsAg was rich in "antibody-escape" mutations. Within the precore/core region, the most remarkable mutation was the replacement of proline of wild type by other amino acids at codon 130 of the core gene, which was found in 58% of our isolates, while precore-stop mutation was found in 45%. Most interestingly, however, about 90% of our isolates had mutations at nt positions 1762 (A-to-T) and 1764 (G-to-A) within the core promoter, which had been implicated in "e-suppressive" phenotype of HBV genome. G-to-A at nt 1613 and C-to-T at nt 1653 within enhancer II and T-to-C/A at nt 1753 within core promoter were also evident: 38%, 53%, and 40%, respectively. It was interesting that some of the characteristics observed in our isolates form HCC patients had been previously implicated in fulminant hepatitis and/or acute exacerbation of chronic hepatitis.     

Prevalence of mutations in core promoter/precore region in Japanese patients with chronic hepatitis B virus infection

We examined the frequency and significance of mutations in the core promoter and precore region in 103 Japanese patients with chronic hepatitis B virus (HBV) infection. HBV DNAs from the patients' sera were amplified by polymerase chain reaction and were directly sequenced. A double mutation (T1762 A1764) in the core promoter was frequently observed in the patients regardless of HBeAg status except for asymptomatic carriers with HBeAg. Furthermore, a mutation at nucleotide 1753 from T to C or G was frequently found in anti-HBe positive patients and was often accompanied by the double mutation. The A1896 mutation was found in only about one fourth of the patients with anti-HBe. These data suggest that the patients with chronic liver diseases frequently had a double mutation regardless of HBeAg status and a mutation at nucleotide 1753 might be associated with HBeAg-negative chronic hepatitis B virus infection.     

Changes in ceftazidime concentration in the CSF following overdose in acute kidney failure]

The diagnosis of liver diseases induced by hepatitis B virus (HBV) is supported by the detection of HBV surface antigen (HBsAg) in serum. The present study aimed to investigate the presence of HBV deoxyribonucleic acid (DNA) in patients with liver cirrhosis using a polymerase chain reaction (PCR) based on primers derived from the pre-S1 and pre-core regions. HBsAg was detected in 10 of 48 patients (21%), total anti-hepatitis B core antigen (HBc) antibodies in 54%, anti-hepatitis B e antigen (HBeAg) in 14.6%, anti-HBc immunoglobulin M in 8%, and anti-HBs in 26%; none had detectable HBeAg. HBV DNA was detected in 73% of the cirrhotic patients. All cirrhotic patients with HBsAg also had HBV DNA; HBV DNA was detected in 64.5% of those without HBsAg. We conclude that the clearance of HBsAg does not necessarily indicate termination of viraemia in patients with liver cirrhosis and the detection of HBV DNA using a PCR based on primers from the pre-S1 and pre-core regions should be included in the diagnosis of HBV infection.     

Infectivity of hepatic allografts with antibodies to hepatitis B virus

BACKGROUND: Since suitable recipients for hepatic allografts from donors with antibodies to hepatitis B virus (HBV) have not been determined, a review of our 7-year experience with donors positive for hepatitis B surface antibody (anti-HBs), hepatitis B core antibody (anti-HBc), or both was undertaken. METHODS: Recipients of hepatic allografts from donors with antibodies to HBV were identified by a retrospective review of procurement records and screened for HBV infection. RESULTS: From January 1, 1990, to January 1, 1997, 2578 liver transplants were performed and 140 (5.4%) recipients received an allograft from a donor with antibodies to HBV. Twenty-five of 48 recipients of a hepatic allograft from a donor positive only for anti-HBs were screened and none developed HBV infection. Twenty-five of 41 naive recipients of a hepatic allograft from an anti-HBc positive donor were screened and 18/25 (72%) developed HBV infection. Four of these 18 naive recipients with HBV infection received an allograft from a donor positive for both anti-HBc and anti-HBs. Seven of 13 anti-HBs-positive recipients of an allograft from an anti-HBc-positive donor were screened and none developed HBV infection. Fifteen of 16 recipients positive only for anti-HBc who received a hepatic allograft from an anti-HBc-positive donor were screened and 2/15 (13%) developed HBV infection. CONCLUSIONS: Hepatic allografts from donors positive only for anti-HBs do not transmit HBV infection. Hepatic allografts from anti-HBc-positive donors frequently transmit HBV infection to naive recipients regardless of the donor anti-HBs status, and antiviral prophylaxis may be indicated. Anti-HBs-positive recipients appear resistant to HBV infection after orthotopic liver transplantation with an allograft from an anti-HBc-positive donor. Recipients positive only for anti-HBc infrequently develop HBV infection when transplanted with an allograft from an anti-HBc-positive donor; however, HBV prophylaxis may be justified.     

Kinetics of hepatitis B surface antigen-specific immune responses in acute and chronic hepatitis B or after HBs vaccination: stimulation of the in vitro antibody response by interferon gamma

Because cellular and humoral immune responses against the hepatitis B virus (HBV) surface antigen (HBs) might be crucial to overcome HBV infection, HBs-specific B- and T-cell responses of HBV patients and HBs vaccine recipients were analyzed quantitatively and functionally. In patients with acute hepatitis B (AHB), transient high anti-HBs-secreting B-cell frequencies were observed early after clinical onset, whereas 1 patient who probably developed chronic infection and chronic HBV carriers had absent or weak B- and T-cell responses. In HBs vaccine recipients, maximal HBs-specific B- and T-cell responses were detected after the first injection that decreased gradually before anti-HBs antibodies appeared in serum. Years after vaccination, anti-HBs-secreting B cells were enriched in the bone marrow. After in vitro stimulation with HBsAg, peripheral blood mononuclear cells (PBMC) of only 1 of 5 acute and 1 of 6 chronic HBV patients, but of all 6 vaccine recipients, secreted varying amounts of interferon gamma (IFN-gamma), but no interleukin-4 (IL-4) or IL-5. Furthermore, the addition of IFN-gamma, but not of IL-2, -4, -12, or IFN-alpha, resulted in strong increases of anti-HBs-secreting B cells in vaccine recipients and chronic carriers. In conclusion, circulating anti-HBs-secreting B cells were significantly higher in early acute hepatitis B or early after HBs vaccination than in chronic hepatitis B and decreased in the follow-up as a result of compartmentalization to lymphoid tissues. Release of IFN-gamma by antigen-stimulated T cells might be critical for anti-HBs formation.     

The sequential occurrence of viral mutations in a liver transplant recipient re-infected with hepatitis B: hepatitis B immune globulin escape, famciclovir non-response, followed by lamivudine resistance resulting in graft loss

BACKGROUND/AIMS: The purpose of this study was to characterize the clinical, histological and virological events in an orthotopic liver transplant (OLT) recipient with recurrent hepatitis B infection who was initially managed with hepatitis B immune globulin (HBIg) and when viral recurrence occurred, with nucleoside analogue salvage therapy. The aims were to document the mutations occurring in the hepatitis B virus (HBV) polymerase gene as a consequence of HBIg escape, famciclovir non-response and subsequent lamivudine resistance. METHODS: Throughout the follow-up of 796 days, the patient was seen at least at 4-week intervals. Clinical, biochemical and virological data were registered according to protocol. HBV DNA was quantified throughout the treatment period. The viral polymerase gene was sequenced from serum samples collected at representative time intervals. Consecutive liver biopsies were scored according to the modified Knodell classification. RESULTS: Clinically, the patient was in excellent condition until the development of acute hepatitis during the lamivudine therapy period, 765 days post-OLT. Until this terminal event, serum transaminase activity was only 1-2 times the upper limit of normal with serum bilirubin and prothrombin time within the normal range. Subsequent liver biopsies showed chronic active hepatitis with no signs of fibrosis. The post-mortem biopsy showed severe acute hepatitis B with massive necrosis. The HBV polymerase gene was sequenced during HBIg, famciclovir and lamivudine treatment. One mutation I533L was detected during HBIg treatment. No amino acid changes were selected during famciclovir treatment. Three amino acid changes were selected while the patient was on lamivudine treatment, which include L533I, S559T and M550I. CONCLUSIONS: We have documented HBV recurrence in a liver transplant recipient with the emergence of a multidrug resistant HBV which caused graft loss. The primary resistance to famciclovir in spite of therapeutic penciclovir levels may be as a result of a combination of the mutations found in the polymerase region. After 300 days of lamivudine treatment, a drug-resistant population emerged which was associated with a greater than three log increase in HBV DNA and contributed to loss of graft function. This is the first report of such an adverse clinical outcome due to the emergence of a mutant virus as a consequence of immunoprophylactic and antiviral therapy in a liver transplant recipient.     

Hepatitis B virus with X gene mutation is associated with the majority of serologically "silent" non-b, non-c chronic hepatitis

Hepatitis B virus (HBV) with X gene mutations has been a putative pathogen of chronic hepatitis without serological markers of known hepatitis viruses. The aim of this study was to reconfirm whether the HBV with the X gene mutation is associated with these serologically "silent" non-B, non-C (NBNC) chronic hepatitis, alcoholic liver disease (ALD) and autoimmune hepatitis (AIH). HBV DNA was amplified from serum and sequenced in 30 patients with NBNC chronic hepatitis in comparison with 20 patients with ALD and 5 patients with AIH. HBV DNA was identified in 21 patients (70%) in NBNC chronic hepatitis by nested polymerase chain reaction while only one patient (5%) in ALD and none in AIH showed HBV DNA. Eighteen (85.7%) of the 21 identified HBV DNAs had an identical 8-nucleotide deletion mutation at the distal part of the X region. This mutation affected the core promoter and the enhancer II sequence of HBV DNA and created a translational stop codon which truncated the X protein by 20 amino acids from the C-terminal end. All the HBV DNAs had a precore mutation at the 83rd nucleotide resulting in disruption of HBe antigen synthesis. These results indicate that HBV mutants are closely associated with the majority of serologically "silent" NBNC chronic hepatitis cases and the population of such mutant HBV DNAs is not uniform.     

Spontaneous seroconversion in chronic hepatitis B: role of mutations in the precore/core gene

The mechanism underlying spontaneous clearance of hepatitis B e antigen (HBeAg) and the appearance of antibodies (anti-HBe seroconversion) in chronic hepatitis B is not known. Previous studies have demonstrated mutations within the precore/core gene before, during, and after seroconversion, suggesting that the emergence of mutations in the core gene may abrogate tolerance and that this event may act as a general principle for the initiation of the clearance of HBeAg. To investigate this hypothesis, we studied three patients with adult-acquired chronic hepatitis B virus (HBV) infection before spontaneous seroconversion by sequential sequencing and single-stranded conformation polymorphism (SSCP) analysis of the entire precore/core genome. In one patient, a new viral strain appeared six months before seroconversion, but no mutations or new viral strains could be detected in the other two patients. SSCP analysis confirmed the sequencing results and revealed no evidence for the emergence of new viral subpopulations before seroconversion. These results suggest that the appearance of nucleotide changes within the precore/core region of the dominant viral strain is not a prerequisite for the induction of seroconversion in patients with chronic hepatitis B virus infection acquired during adulthood.