Psychological adjustment of children with mild and moderately severe asthma

In chronic hepatitis B virus (HBV) infection seroconversion from hepatitis B e antigen (HBeAg) to hepatitis B e antibody (HBeAb) may be followed either by remission of the disease with low-level viraemia, or by continuing inflammation with high-level viraemia. In both situations the virus may acquire a mutation in the precore sequence which prevents it from encoding HBeAg. We now show that the number of amino acid substitutions in the HBV core is low in viral sequences from patients with HBeAg positive chronic liver disease and HBeAg negative HBeAb positive patients in remission, but the frequency of substitutions is high in HBeAg, negative HBeAb positive patients with active liver disease. Furthermore we show that these substitutions cluster in the promiscuous CD4+ T-helper-cell epitope and in HBV core/e antibody binding determinants, but are not found in regions recognized by major histocompatability complex (MHC) restricted cytotoxic T lymphocytes. Sequential viral sequences from patients before and after HBeAg/HbeAb seroconversion shows that core mutations arise either at the same time or after the precore stop mutation which prevents the virus from encoding HBeAg. These results are consistent with the hypothesis that after clearance of HBeAg, mutations in regions of the virus recognized by CD4+ helper T cells and B cells allow persistence of the HBe negative virus in HBeAb positive patients with viraemia and active hepatitis.     

Functional analysis of HBV genomes from patients with fulminant hepatitis

Two previous case reports suggest that hepatitis B virus (HBV) core promoter variants with a high replication competence contribute to the pathogenesis of fulminant hepatitis B (FHB). We recently found in HBV genomes from patients with FHB an accumulation of mutations within the core promoter region. Therefore, the aim of this study was to investigate the phenotype of these HBV variants. Replication competence and expression of hepatitis B surface antigen (HBsAg) and hepatitis B e antigen (HBeAg) of viral genomes from seven patients with FHB and one patient with fulminant recurrent hepatitis after liver transplantation were analyzed by transfection experiments in human hepatoma cells. Compared with wild-type virus, the HBV variants from the seven patients with FHB produced similar or slightly lower levels of intracellular replicative intermediates and extracellular viral particles. In contrast, the HBV genomes from the patient with fulminant recurrent hepatitis synthesized and secreted significantly more HBV DNA. All genomes tested expressed similar or even higher levels of HBeAg compared with wild-type virus, except for those from four patients with a precore stop codon mutation in the respective dominant viral populations. The level of HBsAg produced by all variant genomes was similar or reduced compared with wild-type virus. These data indicate that in some cases HBV variants with enhanced replication competence and/or a defect in HBeAg expression may contribute to the development of FHB. However, neither phenotype is an essential prerequisite; thus, an additional role of other viral or host factors in the pathogenesis of FHB is suggested.     

Association of mutations in the core promoter and precore region of hepatitis virus with fulminant and severe acute hepatitis in Japan

It was recently reported that mutations in the precore and core promoter region of hepatitis B virus (HBV) are associated with fulminant hepatitis. The aim of this study was to investigate the association of mutations in the precore and core promoter region of HBV with fulminant and severe acute hepatitis. We studied Japanese patients with acute HBV infection, including seven patients with fulminant hepatitis, 12 with severe acute hepatitis and 41 with acute self-limited hepatitis. The presence of HBV mutants was examined by using a point mutation assay to detect a G to A transition at position 1896 in the precore region and an A to T transition at position 1762 and a G to A transition at position 1764 in the core promoter region. Significant differences in the proportion of mutations in the precore or core promoter region were present between patients with fulminant hepatitis and self-limited acute hepatitis (7/7 (100%) vs 4/41 (9.8%), P<0.01) and between severe acute hepatitis and self-limited acute hepatitis (6/12 (50.0%) vs 4/41 (9.8%), P<0.01). The frequency of mutation increased proportionately with the severity of disease in patients with acute HBV infection. Fulminant hepatitis B in Japan is closely associated with mutations in the core promoter and precore gene of HBV. Point mutation assays for HBV precore and core promoter analysis may be useful to predict the outcome of liver disease in patients with acute HBV infection.     

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.     

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.     

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.     

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.     

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.     

High degree of conservation in the hepatitis B virus core gene during the immune tolerant phase in perinatally acquired chronic hepatitis B virus infection

BACKGROUND: Mutations in the hepatitis B virus genome have been implicated in the persistence of hepatitis B virus infection and the pathogenesis of hepatitis B virus related liver disease. In view of the heterogeneity in published sequences, data from cross-sectional studies of unrelated subjects cannot differentiate true mutations from infections with variant sequences. AIMS/METHODS: We compared the hepatitis B virus core gene sequences of 42 HBsAg positive subjects from 11 Chinese families with those of the index patients (maternal carriers) to determine the frequency and rate of true hepatitis B virus core gene mutations in patients with chronic hepatitis B virus infection. RESULTS: Completely identical nucleotide sequences were present in all the family members and index patients in two families, suggesting that the hepatitis B virus core gene can be conserved for more than 20 years. The high degree of sequence conservation in these families is related to the young age of the subjects (mean 19.2+/-8.9 years), the fact that they were all HBeAg positive and that 75% of them had persistently normal aminotransferase levels. Longitudinal studies confirmed that mutations were rare in those who remained HBeAg positive with normal aminotransferase levels (immune tolerant phase), but significantly more common in HBeAg positive subjects who had elevated aminotransferase levels and in those who cleared HBeAg (immune clearance phase), the rates of nucleotide and amino acid changes were respectively: 0.28+/-0.12 vs 1.30+/-0.26/10(3) nt position/yr and 0.04+/-0.01 vs 0.18+/-0.5/10(2) codon/yr. CONCLUSIONS: Identical nucleotide differences could be found in the sequences of all the subjects in some families. These differences were more likely to be due to intra-familial transmission of stable variants. Sequence analysis based on comparisons with published sequences would have led to over-reporting of mutations. The hepatitis B virus core gene can remain highly conserved for more than two decades during the immune tolerant phase of perinatally acquired chronic hepatitis B virus infection. However, significant changes can occur within 2-3 years during the immune clearance phase.     

Tacrolimus (FK506): validation of a sensitive enzyme-linked immunosorbent assay kit for and application to a clinical pharmacokinetic study

OBJECTIVES: Hepatitis B virus (HBV) with a stop mutation at precore codon 28 (TGG-->TAG, tryptophan-->stop) was investigated to clarify if such a mutant virus might play a role in hepatocarcinogenesis. METHODS: A total of 73 patients with HBV-related hepatocellular carcinoma were included in this study. Polymerase chain reaction (PCR) was performed in DNA samples extracted from 73 sera to amplify a HBV-DNA segment involving the precore and proximal core regions, and sequences of PCR products were analyzed to see the presence of the mutations at precore codon 28 by a direct sequencing method. RESULTS: HBV-DNA was detectable in 64 (88%) patients by PCR. The stop mutation at precore codon 28 was identified in 50 of 58 PCR products (86%), in which direct sequencing was performed. Among patients with this mutant HBV, 21/50 (42%) patients were co-infected with wild-type HBV. The mutant virus was found in 23/28 (82%) patients with hepatitis B e antigen (HBeAg) and 27/30 (90%) patients without HBeAg. The mutant HBV alone was found in 10/28 (36%) patients with HBeAg and 19/30 (63%) without HBeAg. Among those patients on whom laparoscopy was performed, 22/24 (92%) with the precore codon 28 stop mutant alone had cirrhosis, compared to 12/19 (63%) co-infected by both the mutant and the wild-type (p < 0.05). The association of this mutant virus with both the presence and absence of HBeAg, and its association with cirrhosis when there is no co-infection with wild-type HBV, suggests an evolving pattern of liver pathology. CONCLUSION: The high prevalence of a stop mutation at precore codon 28 in these patients with hepatocellular carcinoma suggests that HBV with this mutation may contribute to the development of hepatocellular carcinoma.     

X gene and precore region mutations in the hepatitis B virus genome in persons positive for antibody to hepatitis B e antigen: comparison between asymptomatic "healthy" carriers and patients with severe chronic active hepatitis

Hepatitis B virus (HBV) carriers with antibody to hepatitis e antigen comprise asymptomatic carriers (ASCs), who have low replication levels of HBV, and patients with chronic active hepatitis (CAH), who have high levels of viral replication. To investigate whether defects in the X protein might be responsible for this difference in the level of viral replication, nucleotide sequences of X and precore gene regions in serum HBV were analyzed in 19 ASCs and 9 CAH patients. All patients had a point mutation creating a stop codon in the precore region. Seventeen ASCs (87.3%) had identical mutations consisting of 4 noncontiguous 1-bp deletions or an 8-bp deletion, both of which truncate the normal X protein, whereas no CAH patient had an X gene mutation (P < .001). Thus, deletion of the X protein might be responsible for the low levels of viral replication in ASCs.     

Evaluation of pedicle screw insertion monitored by intraoperative evoked electromyography

The clinical importance of hepatitis B virus (HBV) genome variability has been reported recently. One example is the occurrence of hepatitis B virus pre-core mutants, which arise during spontaneous or interferon-induced seroconversion from HBeAg to anti-HBe and are thought to be selected by immune pressure. A survey of HBV pre-core mutants and viral genotypes in 35 HBeAg negative patients during interferon therapy was carried out to understand viral pathogenesis in this form of chronic hepatitis B. Seventeen patients responded to interferon therapy as assessed by the sustained normalization of serum ALT levels and the significant decrease of viremia levels. The response rate to interferon was independent of both initial serum viral DNA level and interferon doses. During interferon therapy, a significant decrease of M0 (wild-type pre-core sequence at pos. 1887-1908), M1 (TGG to TAG at pos. 1896) or M2 (TGG to TAG at pos. 1896, and GGC to GAC at pos. 1899) positive viral genomes was found in 48%, 42%, and 33% of patients, respectively. A higher response rate to interferon therapy was observed in patients infected with HBV genotype A (70%) or M0 positive strains (75%) as compared to patients infected with genotype D/E (40%) or M1/M2 positive strains (44%). The data support the hypothesis that pre-core defective HBV represent viral mutants with an increased capacity to resist exogenous alpha interferon. These findings emphasize that characterization of HBV genome variability prior to interferon therapy may help to predict antiviral response in HBeAg negative patients.     

Self-expanding metal oesophageal endoprostheses: which is best?

The main problem of children with HBeAg positive hepatitis B and associated hepatitis D is progression to liver cirrhosis with decompensation of liver function and need for liver replacement therapy within 15-20 years after infection. To determine whether interferon-alpha (IFN-alpha) therapy has a positive effect on HBV replication and inflammatory activity, we evaluated clinical and serological data of 8 children treated with IFN-alpha and 6 historic control patients without treatment. 4 of the nontreated patients seroconverted from HBeAg to anti-HBe between 7 to 17 years after initial diagnosis and showed decreased inflammatory activity in the liver. In the treatment group, the rate of seroconversion to anti-HBe (3 early, 2 late seroconverters) corresponded well to former trial results obtained in patients exclusively infected by HBV. Serum aminotransferase levels decreased or normalized in seroconverted children. In chronic HBV infection with associated hepatitis D (HDV) infection--compared to the spontaneous course of the disease--IFN-alpha therapy reduced inflammatory activity by earlier seroconversion to anti-HBe in responding patients. Moreover, viral replication and infectivity of hepatitis B was markedly reduced, but no effect on replication of HDV could be documented. Although long-term effects cannot be exactly estimated, at present IFN-alpha remains the only available treatment for HBeAg and anti-HDV positive children and seems to be of benefit for responding patients.     

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.     

Mutational analysis of residues forming hydrogen bonds in the Rieske [2Fe-2S] cluster of the cytochrome bc1 complex in Paracoccus denitrificans

A retrospective case-control study was conducted to determine why some infants born full-term without obstetric intervention to hepatitis B e antigen (HBeAg)-seropositive mothers become infected by hepatitis B virus (HBV) despite having received passive-active immunoprophylaxis. Cases and controls comprised 12 hepatitis B surface antigen (HBsAg)-seropositive infants and 22 HBsAg-seronegative infants, respectively. Infants infected by putative vaccine-escape mutants were excluded. Risk factors, after adjustment for the level of maternal viremia, were the following allelic base changes in maternal HBV:C158, A328, G365, and A479 (P = .017, .005, .003, and .005, respectively). High-level maternal viremia (i.e., > or = 10(8) genome equivalents/mL) was a significant factor only after adjustment for G365 (P = .027). HBV DNA sequences recovered from one of the cases, the case's mother, and three infected contacts all had the high-risk mutations. Specific allelic mutations in maternal HBV and level of maternal viremia are potential predictors of vertical breakthrough infection.     

Relativistic density-dependent Hartree-Fock approach for finite nuclei

Two precore predominant mutations of human hepatitis B virus (HBV) at either nucleotide (nt) 1896 or nt 1899 often occur in combination. At nt 1896, a G to A mutation creates a TAG stop codon at codon 28 of precore protein. At nt 1899, a G to A mutation changes glycine at codon 29 to aspartic acid. To assess the effect of each individual mutation as well as any interaction between these two mutations, HBV derivatives bearing one or both precore predominant mutations have been constructed. HBV e-Ag-negative mutants bearing a TAG stop codon mutation at codon 28 uniformly replicate at least 20-fold better than mutants bearing a TGA stop codon at the same amino acid position, irrespective of the sequence context at nt 1899. A single mutation at nt 1899, changing the wild-type G to a pyrimidine (T or C) is deleterious to viral RNA encapsidation and DNA replication. Our results explain in part why only a purine (G or A) at nt 1899, never a pyrimidine, is observed in natural HBV genomes. The effects caused by these two closely linked mutations on viral replication are not independent of each other. The stringent selection for a highly efficient RNA encapsidation element may play a crucial role in the natural occurrence of these two closely linked precore mutations. The putative 27-amino-acid peptide resulting from the truncation of precore by the nt 1896 mutation has no apparent effect on viral replication. The preferential occurrence of the G to A mutation at nt 1896 and 1899, instead of at other nonpredominant positions, is likely to be a combined consequence of both selection and higher intrinsic mutation frequency at these positions.     

A newly identified pattern of K-ras mutations at codons 12 and 13 is associated with long-term survival in colorectal cancer

BACKGROUND/AIMS: Hepatitis B virus (HBV) core gene heterogeneity may influence the outcome of liver disease and the response to interferon (IFN) therapy in adult HBV carriers. The aim of this study was to evaluate the possible association between HBV core gene variability and evolution of chronic hepatitis in children. METHODS: We examined serum samples from 25 children with HBV chronic hepatitis and HBe antigen (HBeAg) positivity who were followed-up for a mean of 7.4 years. Seven cases spontaneously seroconverted to anti-HBe, becoming HBV healthy carriers; nine cases were successfully treated with IFN; nine cases were non-responders to IFN therapy. HBV-DNA was extracted from one serum sample ("I") collected during the HBeAg positive phase, and from a second sample ("II") collected after the anti-HBe seroconversion or, in non-responders, after stopping therapy. The entire core gene of the HBV isolates was amplified and sequenced. RESULTS: Each isolate showed single or no missense mutation independently of the clinical behavior of the patients. HBeAg-defective viruses were detected in one case in both samples and in two cases only in sample "II". CONCLUSIONS: Core gene variability does not seem to be involved either in the outcome of infection or in the response to IFN treatment in children with HBV chronic hepatitis. Considering that most of the HBV carriers in our area acquire the infection in childhood, our data suggest that core gene heterogeneity is not a major cause of progression to chronicity.