Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pretreatment with recombinant human granulocyte CSF (G-CSF) protected mice in two different models of septic shock. Intravenous injection of 250 micrograms/kg G-CSF to mice prevented lethality induced by 5 mg/kg LPS. Injection of 50 micrograms/kg G-CSF protected galactosamine-sensitized mice against LPS-induced hepatitis. In either case, this protection was accompanied by a suppression of LPS-induced serum TNF activity. In contrast, when galactosamine-sensitized mice were pretreated with 50 micrograms/kg murine recombinant granulocyte/macrophage CSF instead of G-CSF and subsequently challenged with LPS, serum TNF activity was significantly enhanced and mortality was increased. The suppressive effect of G-CSF on LPS-induced TNF production was also demonstrated in rats. In vivo, no TNF was detectable in the blood of LPS-treated rats, which had been pretreated with G-CSF. Ex vivo, alveolar macrophages, bone marrow macrophages, Kupffer cells, or peritoneal macrophages prepared from G-CSF-treated rats produced significantly less TNF upon stimulation with LPS than corresponding populations from control rats. However, when these macrophage populations were incubated with G-CSF in vitro, LPS-induced TNF production was unaffected. These data suggest that the G-CSF-mediated suppression of TNF production is not a direct effect of G-CSF on macrophages. To examine whether, independent of the protection against LPS, G-CSF treatment still activated neutrophils, it was demonstrated that granulocytes from G-CSF-treated rats were primed for PMA-induced oxidative burst and for ionophore/arachidonic acid-stimulated lipoxygenase product formation. The experiments of this study support the notion that G-CSF is a negative feedback signal for macrophage-derived TNF-alpha production during Gram-negative sepsis.
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PMID:Granulocyte colony-stimulating factor treatment protects rodents against lipopolysaccharide-induced toxicity via suppression of systemic tumor necrosis factor-alpha. 137 68

A number of naturally occurring hepatitis B virus mutants that cannot synthesize the virus precore protein have been identified. Such mutants have been associated with more severe forms of hepatitis, including fulminant hepatitis. The most common mutation observed is a substitution of G to A in the distal precore gene that converts a codon specifying Trp (TGG) to a termination codon (TAG). Using oligonucleotide-directed mutagenesis, we have produced the same point mutation in the precore gene of an infectious clone of woodchuck hepatitis virus (WHV). Transfection of mutant WHV DNA into the livers of adult woodchucks resulted in replication of the mutant in three of three susceptible animals. Levels of virus replication and transient elevations in liver enzymes in serum were similar to those of adult animals infected with wild-type WHV. Virions, found to possess mutant precore genes by polymerase chain reaction amplification and DNA sequencing, were recovered from the serum of one of the animals and inoculated subcutaneously into neonatal woodchucks. They produced infection in all five animals studied. The level of virus replication in neonatal animals infected with this mutant virus was comparable to that found in neonatal woodchucks infected with wild-type WHV, but none of five woodchucks infected with the precore mutant virus as neonates became chronic virus carriers. It was concluded that the precore gene of the WHV genome is not essential for virus replication in the natural host but may be important for chronic infection.
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PMID:The precore gene of the woodchuck hepatitis virus genome is not essential for viral replication in the natural host. 150

A precore defective variant of hepatitis B virus has been indicated to cause fulminant hepatitis in various instances such as intrahospital outbreaks or mother-to-child transmission of hepatitis B virus. To learn whether similar variants are involved in interspouse transmission, we analyzed three cases of fulminant hepatitis B that developed in formerly healthy subjects whose only exposure to hepatitis B virus was contact with their longtime spouses, who were carriers of HBV and positive for antibody to HBe. The DNA clones for precore and S genes were propagated from patients and spouses and sequenced. Because of the conservation of S-gene sequences and the identity of subtypes between patient and spouse, it was suggested that patients were infected with hepatitis B virus from their spouses, not from other sources. A TGG-to-TAG mutation at the 28th codon of the precore gene of hepatitis B virus was commonly observed in all DNA clones from patients with fulminant hepatitis and from their spouses. A 29th-codon GGC-to-GAC mutation was additionally evident in DNAs from one patient-and-spouse couple. A significant rise in the circulating hepatitis B virus concentration was transiently observed in the index spouse of this case just before development of fulminant hepatitis in her husband. The increase in circulating HBV DNA was associated with a rise in abundancy of variants with mutations at both the 28th and 29th codons, compared with variants with only a 28th-codon mutation. The double mutation in hepatitis B virus DNA may either help the virus escape immune surveillance or replicate at a higher rate than before.
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PMID:Fulminant hepatitis related to transmission of hepatitis B variants with precore mutations between spouses. 161 80

Although the precore region defective hepatitis B virus variants have been implicated in chronic liver disease and fulminant hepatitis, our knowledge on the molecular biology of these variants is still limited. Using an in vitro transfection assay, we confirmed the replication competent but HBeAg-negative nature of the major variants containing a TAG stop codon in the distal precore region associated with one or two point mutations. Transfection of the two-point-mutated variant into a chimpanzee induced serological responses including anti-HBc and anti-HBs. Interestingly, anti-HBe response was found in the absence of HBeAg antigenemia, suggesting that anti-HBe can be stimulated by degraded HBc. Using the rabbit reticulocyte system the possible effect of the different precore region mutations on the expression of HBcAg from precore- and core-mRNAs was also studied.
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PMID:In vitro and in vivo replication capacity of the precore region defective hepatitis B virus variants. 166 33

We studied the precore DNA sequences of hepatitis B viral genomes in five patients with fulminant hepatitis B and in five with acute self-limited hepatitis B from Japan. Using the polymerase chain reaction, three to four independent HBV DNA clones from each patient were obtained and analyzed. We demonstrated that patients with fulminant hepatitis B carried HBV genomes with a G to A mutation at nucleotide positions 1898 (five of five patients; 18 of 18 clones, 100%) and 1901 (five of five patients; 12 of 18 clones, 66%) in the precore region. The first mutation results in an in-phase stop codon (TAG) in the precore open reading frame and the absence of HBeAg production. In contrast, a G to A mutation was found in 6 of 16 clones (37%) in position 1898 and in 0 of 16 clones (0%) in position 1901 from patients with acute self-limited hepatitis. We concluded that both of the precore mutations are commonly associated with fulminant hepatitis B and may contribute to the pathogenesis of fulminant hepatitis. A hypothetical model for the biological significance of these two mutations is proposed.
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PMID:Association of hepatitis B viral precore mutations with fulminant hepatitis B in Japan. 192 86

Clones of hepatitis B virus were propagated from 10 cases of fulminant hepatitis B after amplification by polymerase chain reaction and their nucleotide sequences of the precore region were determined. All 113 clones from 9 cases had a point mutation from guanine to adenine at nucleotide 83 in the precore region, which converted codon 28 for tryptophan (TGG) to a stop codon (TAG) and prohibited the synthesis and secretion of hepatitis B e antigen. Precore-region defects were not detected in any of 23 clones from the remaining 1 case. By contrast, precore-region defects were not found in any of 180 clones from 8 cases of acute hepatitis B without hepatic failure serving as controls. The source of infection was traceable in 3 cases. The same precore-region defect, along with the sequence identity of 435 nucleotides, was observed in clones from the case of a baby and his grandmother, who carried the virus and was implicated in the transmission, and also in clones from two pediatricians and the carrier patients they attended. These findings support the hypothesis that precore-defective mutants have stronger activity to induce fulminant hepatitis than nondefective viruses.
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PMID:Fulminant hepatitis B: induction by hepatitis B virus mutants defective in the precore region and incapable of encoding e antigen. 200 7

Hepatitis B virus DNA clones were propagated from sera of six patients with chronic hepatitis B who seroconverted from HBeAg to antibody to HBeAg either spontaneously or after administration of alpha-interferon. Defects in the precore region blocking synthesis and secretion of HBeAg were detected in all 46 hepatitis B virus DNA clones from three patients who remained positive for antibody to HBeAg and in whom hepatitis resolved. Defective clones had point mutations from guanine to adenine at nucleotide 83 in the precore region, converting codon 28 from tryptophan (TGG) to a stop codon (TAG). In contrast, this defect was not found in any of 39 hepatitis B virus DNA clones from three patients who seroconverted to antibody to HBeAg but then redeveloped HBeAg with reactivation of hepatitis. Using these results, the G-to-A point mutation at nucleotide 83 in the precore region would predict sustained positivity for antibody to HBeAg and remission of hepatitis in patients who have seroconverted either spontaneously or with interferon therapy.
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PMID:Defects in the precore region of the HBV genome in patients with chronic hepatitis B after sustained seroconversion from HBeAg to anti-HBe induced spontaneously or with interferon therapy. 225 45

The G-->A mutation of nucleotide (nt) 1896 in the precore region of hepatitis B virus (HBV) prevents production of hepatitis B e antigen (HBeAg) by creating a TAG stop codon. This mutation is often found in anti-HBe-positive patients with productive HBV infection and has been associated with severe chronic and fulminant hepatitis in some geographic areas. Emergence of the TAG mutation during HBe seroconversion was studied as was its relationship with nt 1858, which forms a base pair with nt 1896 in the pregenomic RNA loop. A TAG mutant evolved in 18 (72%) of 25 patients with a T-1858 strain but in only 1 (8%) of 13 with a C-1858 strain. Viremia with C-1858 strains was, despite their limited ability to develop the TAG mutation, as persistent as with T-1858 strains. Generally, T-1858-infected patients in whom a TAG mutant did not emerge were HBV DNA-negative by polymerase chain reaction on follow-up, whereas patients who developed the TAG mutation had prolonged viremia.
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PMID:Emergence of precore TAG mutation during hepatitis B e seroconversion and its dependence on pregenomic base pairing between nucleotides 1858 of 1896. 759 74

A new method for detecting the hepatitis B virus (HBV) precore 1896 G-->A mutation is described. This mutation prevents hepatitis B e antigen production by introducing a TAG stop codon and has been associated with severe chronic and fulminant hepatitis. The method is based on a polymerase chain reaction (PCR) that creates a restriction enzyme (Bsu36I) cleavage site if the mutation is present. After incubation of the PCR product with Bsu36I and a subsequent agarose gel electrophoresis, the presence of the TAG mutant is revealed by an altered position of the DNA band. The method was compared with direct sequencing on 36 serum samples and correctly identified all samples containing mutant HBV. The TAG mutant was present in 17 cases (as mixed wild type and mutant virus in 4). Twelve of 18 patients with advanced liver disease confirmed by biopsy carried mutant HBV. This method of detecting HBV precore 1896 G-->A should be useful for evaluation and follow-up of patients and for prevalence studies.
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PMID:Detection of hepatitis B virus precore TAG mutant by an amplification-created restriction site method. 779 63

None of the mutations so far discovered in several hepatitis delta virus (HDV) isolates appears to determine important changes in HDV specific protein (HDAg) expression, except for a putative mutation at nucleotide 1012 converting an amber stop codon (TAG) to a codon for tryptophan (TGG). Here we present the characterization of an HDV obtained from the liver of a woodchuck inoculated with sera from fulminant HDV patients in Central African Republic (CAR). By restriction enzyme analysis and sequencing of HDAg-coding region cDNA clones, we found that this HDV isolate bears a novel mutation (T to A) at nucleotide 1013 which converts the amber stop codon (TAG) to a codon for lysine (AAG). Comparison of these nucleotide sequences with those available from American, Japanese, Taiwanese, French, Italian and Nauru isolates showed a variability of 1.7 to 21.5% and 1.9 to 28.7% at the nucleic acid and amino acid levels, respectively. The HDAg-encoding sequence of the CAR isolate is closely related to that of the Italian HDV isolate. The in vitro expression of this HDV isolate resulted in a unique HDAg species (28K) which was identical with that characterized in vivo.
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PMID:Discovery of a novel point mutation changing the HDAg expression of a hepatitis delta virus isolate from Central African Republic. 837 62


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