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)

Tumor necrosis factor (TNF)-alpha-induced hepatitis and apoptosis, as respectively assessed by serum enzyme activities and hepatic DNA fragmentation were effectively suppressed by a single force-feeding of caffeine (100 mg/kg) 1.5 h before injecting the drug. In contrast, caffeine had no significant effect on anti-Fas antibody-induced hepatitis and apoptosis. These results suggest that caffeine differentially affected TNF-alpha receptor- and Fas-mediated hepatitis and apoptosis.
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PMID:Suppressive effect of caffeine on hepatitis and apoptosis induced by tumor necrosis factor-alpha, but not by the anti-Fas antibody, in mice. 1133 Jun 88

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL)/Apo2 ligand (Apo2L) has been identified as important in promoting programmed cell death in breast and colon cancer xenografts. More importantly, normal liver tissue appears not to be susceptible to the cytotoxic effects of TRAIL/Apo2L, although activation of the related Fas ligand receptor system is known to promote massive liver apoptosis terminating in fulminant hepatitis. In the present study, we investigated the therapeutic potential of TRAIL/Apo2L gene therapy in hepatocellular carcinoma (HCC) and evaluated its side effects in an immune-competent mouse model. Intratumoral administration of the TRAIL/Apo2L vector by electroporation elevated serum TRAIL/Apo2L through at least day 28 after gene therapy and significantly inhibited the growth not only of the HCC directly administered TRAIL/Apo2L vector, but also of distant subcutaneous HCC. In addition, intratumoral administration of the TRAIL/Apo2L vector inhibited spontaneous lung metastasis. Serum alanine aminotransferase was mildly elevated by TRAIL/Apo2L gene therapy, but without showing such histological signs as TUNEL staining. These results demonstrate that TRAIL/Apo2L gene therapy for HCC by electroporation in vivo is efficient without significant side effects, and is thus promising for use in future clinical trials.
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PMID:Electroporation-mediated tumor necrosis factor-related apoptosis-inducing ligand (TRAIL)/Apo2L gene therapy for hepatocellular carcinoma. 1181 83

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is able to kill a broad spectrum of tumor cells but appears to be nontoxic to most normal cells. Because there are conflicting data about the hepatotoxicity of TRAIL, we investigated the physiological function of TRAIL and its receptors in the liver. Hepatocytes are sensitive for FasL- and TRAIL-mediated apoptosis in vitro, but TRAIL induces no apoptosis in healthy livers in vivo. Using mouse models of adenoviral hepatitis and livers of patients with hepatitis infection, we could demonstrate that apoptosis in virally infected hepatocytes is mediated by TRAIL receptor DR5 and TRAIL. In contrast to FasL, TRAIL-mediated apoptosis of hepatocytes in vivo is triggered through viral infection. The TRAIL receptor/ligand system enables the organisms to specifically kill virus-infected hepatocytes, whereas normal uninfected hepatocytes in vivo are resistant to TRAIL-mediated apoptosis. Overexpression of TRAIL in the liver after viral infection is not dependent on lymphocytes, natural killer, or Kupffer cells, which indicates that the TRAIL receptor/ligand system is a paracrine mechanism of hepatocytes against virally infected cells. Our results suggest that TRAIL might be used not only for cancer therapy but also for therapy of patients with viral hepatitis to selectively eliminate infected hepatocytes and limit viral replication.
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PMID:Involvement of TRAIL and its receptors in viral hepatitis. 1247 2

After orthotopic liver transplantation (OLT), allograft rejection remains an important problem and is the major reason that immunosuppressive therapy must be administered. Tumor necrosis factor-alpha (TNF-alpha) is a proinflammatory mediator that is central to the immune response, and intragraft expression of this cytokine is increased during acute cellular rejection (ACR). Polymorphisms within the TNF promoter have been identified and correlated with alterations in production. The aims of this study were to determine if an individual patient's propensity to develop ACR is related to the presence of these genetic polymorphisms (either alone or in combination) within donor and recipient tissue and to determine if these polymorphisms affect patient survival after OLT. The study group consisted of 210 patients who underwent OLT between 1989 and 1999 with at least 6 months survival, including 42 cases who had evidence of acute cellular rejection (biopsy-proven, elevated enzymes, and response to increased immunosuppression) and were matched 4:1 to controls (n = 168) with similar age, gender, underlying liver disease, date of transplant, and baseline immunosuppression. The underlying liver diseases were hepatisis C virus (HCV)/alcohol (70), HCV alone (50), alcohol (30), primary biliary cirrhosis (15), primary sclerosing cholangitis (15), autoimmune hepatitis/cirrhosis (10), cryptogenic (15), and hepatitis B virus (HBV) (5). DNA was extracted from paraffin-embedded donor and recipient liver tissue (total 420 samples), amplified, and sequenced for TNF single-nucleotide polymorphisms (TNFA-308 A/G and TNFA-238 A/G). We found no differences between the TNF allelic distributions among donors without liver disease (presumably representative of a normal control population) and patients with end-stage liver disease undergoing OLT. Multivariate analysis revealed no association with TNF polymorphisms (within donor or recipient tissue) and rejection risk or patient survival after transplantation. In this large case control analysis of patients undergoing liver transplantation for diverse etiologies, TNF promoter polymorphisms were not independently associated with rejection or survival.
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PMID:Tumor necrosis factor-alpha promoter polymorphisms and the risk of rejection after liver transplantation: a case control analysis of 210 donor-recipient pairs. 1268 90

Tumor necrosis factor (TNF) plays a key role in several types of fulminant and acute hepatitis, and induces massive apoptosis and necrosis of hepatocytes. Our previous studies described the central role played by several matrix metalloproteinases (MMPs) and one or more unknown serine proteases. The aim of this study was to investigate the involvement of serine proteases of the fibrinolytic pathway, known to be activators of several MMPs, in TNF-induced hepatitis and fibrinogen (FG) breakdown. Experiments were performed in a model of TNF-induced hepatitis, consisting of administration of TNF in combination with D-(+)-galactosamine (GalN) to mice deficient in urokinase-type plasminogen (PG) activator (u-PA), tissue-type PG activator (t-PA) or PG. Lethality, transaminase release, increased plasma clotting time and FG levels were measured. In PA- and PG-deficient mice, TNF/GalN still induced hepatitis, as well as increased clotting time and FG breakdown. MMP-9 activation still occurred in the liver despite the lack of plasmin. The data suggest that the serine proteases involved in TNF-induced lethal hepatitis are no constituents of the fibrinolytic cascade.
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PMID:Serine proteases of the fibrinolysis pathway are not involved in lethal hepatitis and fibrinogen breakdown induced by tumor necrosis factor. 1282 1

Tumor necrosis factor (TNF) is a potent cytokine exerting critical functions in the activation and regulation of immune and inflammatory responses. Due to its pleiotropic activities, the amplitude and duration of TNF function must be tightly regulated. One of the mechanisms that may have evolved to modulate TNF function is the proteolytic cleavage of its cell surface receptors. In humans, mutations affecting shedding of the p55TNF receptor (R) have been linked with the development of the TNFR-associated periodic syndromes, disorders characterized by recurrent fever attacks and localized inflammation. Here we show that knock-in mice expressing a mutated nonsheddable p55TNFR develop Toll-like receptor-dependent innate immune hyperreactivity, which renders their immune system more efficient at controlling intracellular bacterial infections. Notably, gain of function for antibacterial host defenses ensues at the cost of disbalanced inflammatory reactions that lead to pathology. Mutant mice exhibit spontaneous hepatitis, enhanced susceptibility to endotoxic shock, exacerbated TNF-dependent arthritis, and experimental autoimmune encephalomyelitis. These results introduce a new concept for receptor shedding as a mechanism setting up thresholds of cytokine function to balance resistance and susceptibility to disease. Assessment of p55TNFR shedding may thus be of prognostic value in infectious, inflammatory, and autoimmune diseases.
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PMID:Tumor necrosis factor (TNF) receptor shedding controls thresholds of innate immune activation that balance opposing TNF functions in infectious and inflammatory diseases. 1528 5

Tumor necrosis factor (TNF, TNFalpha) is implicated in various pathophysiological processes and can be either protective, as in host defense, or deleterious, as in autoimmunity or toxic shock. To uncover the in vivo functions of TNF produced by different cell types, we generated mice with TNF ablation targeted to various leukocyte subsets. Systemic TNF in response to lipopolysaccharide was produced mainly by macrophages and neutrophils. This source of TNF was indispensable for resistance to an intracellular pathogen, Listeria, whereas T-cell-derived TNF was important for protection against high bacterial load. Additionally, both T-cell-derived TNF and macrophage-derived TNF had critical and nonredundant functions in the promotion of autoimmune hepatitis. Our data suggest that T-cell-specific TNF ablation may provide a therapeutic advantage over systemic blockade.
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PMID:Distinct and nonredundant in vivo functions of TNF produced by t cells and macrophages/neutrophils: protective and deleterious effects. 1566 62

Massive liver cell death provoked in silica-treated mice subsequently infected with herpes simplex virus (HSV)-1 is very similar pathohistologically to the cell death observed in human fulminant hepatitis. Previously, we have shown this liver cell death to be extensive apoptosis. In the present study, we examined various factors related to liver damage patho- and immunologically, as well as by reverse transcription-polymerase chain reaction. Tumor necrosis factor (TNF)-alpha, inducible nitric oxide synthase (iNOS), interferon (IFN)-alpha, and interleukin-6 mRNAs were detected to a much greater extent in silica-treated mice compared with control mice after HSV-1 infection, and excessive expression of iNOS mRNA and cytokine mRNAs in the liver may be closely related to massive liver cell apoptosis. The apoptosis was less related to the fas ligand than to TNF-alpha. Silica blockage of macrophages makes the liver cell extremely vulnerable to HSV-1 infection, and it induced expression of E-selectin and neutrophil margination in the liver. Subsequent HSV-1 infection induced excessive production of iNOS and cytokines, particularly TNF-alpha, but administration of anti-TNF-alpha antibody or NG-monomethyl-L-arginine was not completely efficacious for the survival of the mice. Overproduction of free radicals in combination with cytokines, such as TNF-alpha, IL-6 and IFN-alpha, may result in hepatic cell apoptosis.
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PMID:Pathogenesis of herpes simplex hepatitis in macrophage-depleted mice: possible involvement of tumor necrosis factor-alpha and inducible nitric oxide synthase in massive apoptosis. 1633 16

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) may play important roles during hepatitis B virus (HBV) infection. In this study, we used a recombinant human soluble death receptor 5 (sDR5) to explore its effect in a mouse model of HBV-induced acute hepatitis. By measuring blood transaminase activity and hepatocyte apoptosis, we found that sDR5 could alleviate liver damage by blocking TRAIL-induced apoptosis of HBV-transfected hepatocytes. sDR5 injection at 16 mg/kg 24h before HBV transfection was the most effective. Additionally, we showed that sDR5 was equally effective in protecting liver injury as the Stronger Neo-Minophagen C (SNMC), a commonly used drug for patients with liver diseases. Thus, sDR5 represents a potential novel therapeutic drug for patients with fulminant hepatitis.
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PMID:Blockade of TRAIL pathway ameliorates HBV-induced hepatocyte apoptosis in an acute hepatitis model. 1712 90

Tumor necrosis factor-alpha (TNF) induces inflammatory response predominantly through the TNF receptor-1 (TNFR1). Thus, blocking the binding of TNF to TNFR1 is an important strategy for the treatment of many inflammatory diseases, such as hepatitis and rheumatoid arthritis. In this study, we identified a TNFR1-selective antagonistic mutant TNF from a phage library displaying structural human TNF variants in which each one of the six amino acid residues at the receptor-binding site (amino acids at positions 84-89) was replaced with other amino acids. Consequently, a TNFR1-selective antagonistic mutant TNF (R1antTNF), containing mutations A84S, V85T, S86T, Y87H, Q88N, and T89Q, was isolated from the library. The R1antTNF did not activate TNFR1-mediated responses, although its affinity for the TNFR1 was almost similar to that of the human wild-type TNF (wtTNF). Additionally, the R1antTNF neutralized the TNFR1-mediated bioactivity of wtTNF without influencing its TNFR2-mediated bioactivity and inhibited hepatic injury in an experimental hepatitis model. To understand the mechanism underlying the antagonistic activity of R1antTNF, we analyzed this mutant using the surface plasmon resonance spectroscopy and x-ray crystallography. Kinetic association/dissociation parameters of the R1antTNF were higher than those of the wtTNF, indicating very fast bond dissociation. Furthermore, x-ray crystallographic analysis of R1antTNF suggested that the mutation Y87H changed the binding mode from the hydrophobic to the electrostatic interaction, which may be one of the reasons why R1antTNF behaved as an antagonist. Our studies demonstrate the feasibility of generating TNF receptor subtype-specific antagonist by extensive substitution of amino acids of the wild-type ligand protein.
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PMID:Creation and X-ray structure analysis of the tumor necrosis factor receptor-1-selective mutant of a tumor necrosis factor-alpha antagonist. 1800 10


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