Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05231 (interleukin-6)
 23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ethanol alters many metabolic processes within the liver. Both ethanol abuse and the inability to mount an acute phase response (APR) have been associated with an increased morbidity and mortality in critically ill patients. To determine if ethanol influences the hepatic APR, relative amounts of two different human acute phase protein mRNA's were examined in the human hepatoma cell line Hep 3B before and after exposure to ethanol. Hep 3B cells were treated with one or more of the following: ethanol ((E) 150 mM); interleukin-1 beta ((IL-1) 200 units/ml); or interleukin-6 ((IL-6) 50 units/ml). After a 12-20 hr incubation relative amounts of mRNA for a1-protease inhibitor (PI) or beta fibrinogen were determined by Northern blot hybridization. Both ethanol and IL-6 were found to induce a1-PI mRNA. Fibrinogen mRNA was induced by IL-6 but not by ethanol, and no induction of PI or fibrinogen mRNA was found with IL-1. This suggests that under certain conditions, ethanol may influence acute phase protein metabolism. To our knowledge, this is the first description of an ethanol induced alteration of acute phase protein mRNA.
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PMID:Ethanol induces a1-protease inhibitor mRNA in Hep 3B cells. 165 92

Chronic ethanol ingestion predisposes to tuberculosis and bacterial pneumonia. Mycobacterium avium complex organisms cause bacteremia in patients with AIDS. Human macrophages and murine Kupffer cells exposed to ethanol are more permissive towards intracellular growth of M. avium than control mononuclear phagocytes. Ethanol also has been shown to impair the ability of human macrophages and murine Kupffer cells to respond to stimulation with tumor necrosis factor (TNF) and granulocyte macrophage colony stimulating factor (GM-CSF), and to produce cytokines such as interleukin-1, interleukin-6, and TNF when properly stimulated. The impairment is dependent in part on a downregulation in the number of TNF receptors on the macrophage's membrane. Recent evidence suggests that ethanol in nonlethal concentrations induces stress-related proteins in M. avium, leading to the inhibition of intracellular pathways in the macrophage and, consequently, impairing some of its functions. In summary, ethanol acts both on the host and on the mycobacterium in a complex sequence of events that influence the outcome of the infection.
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PMID:Effect of ethanol on the interaction between the macrophage and Mycobacterium avium. 820 5

The pathogenesis of chronic alcoholic liver disease is uncertain, but it may reflect an impaired wound healing response to ethanol-induced liver injury. Cell-to-cell communication such as that mediated by the cytokine tumor necrosis factor is necessary for successful liver regeneration and complete recovery from liver injury. Hence disruption of intercellular regenerative signaling may contribute to the pathogenesis of chronic alcoholic liver disease. To test this hypothesis, the cytokine and regenerative responses triggered by partial hepatectomy were compared in ethanol-fed rats and isocalorically maintained, pair-fed controls. To further clarify the effect of ethanol on tumor necrosis factor-modulated regenerative effects, we evaluated some of the rats in each feeding group after pretreatment with antibodies to tumor necrosis factor. As expected, ethanol inhibited DNA synthesis and liver cell proliferation after partial hepatectomy. Ethanol-associated inhibition of liver regeneration occurred despite apparently similar serum concentrations of the tumor necrosis factor-inducible cytokine interleukin-6. Treatment with antibodies to tumor necrosis factor 1 hr before partial hepatectomy inhibited post-partial hepatectomy induction of interleukin-6 and liver regeneration in ethanol-fed and pair-fed rats. However, serum interleukin-6 was reduced more in ethanol-fed rats than in control rats (93% vs. 66%; p < 0.05). Antibodies to tumor necrosis factor also inhibited hepatic DNA synthesis more in ethanol-fed rats than in controls (85% vs. 50%; p < 0.05). In ethanol-fed rats, the increased effect of tumor necrosis factor antibody on post-partial hepatectomy DNA synthesis suggests heightened sensitivity of hepatocytes to tumor necrosis factor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Long-term ethanol consumption alters the hepatic response to the regenerative effects of tumor necrosis factor-alpha. 851 56

Several studies were performed in female rats to determine dose and time course changes in mRNA levels for matrix proteins in bone after a single administration of ethanol. As expected, dose-dependent transient increases in blood ethanol were measured. Additionally, there was mild hypocalcemia with no change in immunoreactive parathyroid hormone. Coordinated dose-dependent increases in mRNA for type 1 collagen, osteonectin, and osteocalcin were noted in the proximal tibial metaphysis 6 hr after ethanol was given, with the peak values occurring at a dose of 1.2 g/kg (0.4 ml). Similar increases in mRNA levels for matrix proteins were noted in lumbar vertebrae after ethanol treatment. The changes were specific for bone; ethanol had no effect on mRNA levels for matrix proteins in the uterus or liver, although the mRNA concentrations tended to be reduced in uterus. Message levels for several cytokines implicated in the regulation of bone turnover were also assayed; mRNA levels for transforming growth factor-beta1, transforming growth factor-beta2, interferon-gamma, and interleukin-6 were unchanged at doses ranging from 0.14 to 1.7 g/kg. At the highest dose of ethanol, the mRNA level for tumor necrosis factor-alpha was elevated while the level for insulin-like growth factor-1 was reduced. The time course effects of ethanol (0.4 ml dose) were determined in a separate experiment. Ethanol resulted in a transient increase in mRNA levels for the three bone matrix proteins assayed. However, matrix protein synthesis, as determined by incorporation of 3H-proline into the proximal tibial metaphysis, was not changed after 6 hr. The changes in mRNA levels for the matrix proteins were preceded by brief, transient decreases in mRNA levels for interleukin-1beta, interferon-gamma, and migration inhibitory factor, and followed by a more prolonged decrease in the mRNA level for insulin-like growth factor-1. A subsequent study was performed to determine the effects of repetitive daily treatment with ethanol on rat bone. After 7 days, there were highly significant decreases in the mRNA level for type 1 collagen, as well as decreased bone formation. These results suggest that ethanol may alter bone metabolism by disturbing signal transduction pathways that regulate the expression of genes for bone matrix proteins, skeletal growth factors, and cytokines.
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PMID:Effects of ethanol on gene expression in rat bone: transient dose-dependent changes in mRNA levels for matrix proteins, skeletal growth factors, and cytokines are followed by reductions in bone formation. 980 46

Alcoholics frequently suffer from moderate to severe bone loss that results in bone fractures. Both decreased bone production and increased bone resorption have been postulated to contribute to ethanol (ETOH)-mediated bone loss. Bone resorption is induced by several proinflammatory cytokines such as interleukin-1 and -6. The expression of these cytokines is induced by the transcription factor NFkappaB, which, in turn, is activated by several kinases. It follows that protein kinase and NFkappaB activation may contribute to ETOH-induced bone loss. Accordingly, we sought to determine if ETOH activates protein tyrosine kinases (PTK) and NFkappaB DNA binding in a human osteoblast-like cell line (HOBIT). Ethanol at 50 and 100 mmol/L (reflective of blood ethanol levels reached in chronic alcoholics) for 24 h did not alter HOBIT cell viability. In contrast, 200 mmol/L ethanol decreased cell viability by 40%. Treatment of HOBIT cells with 100 mmol/L ETOH induced nuclear NFkappaB:DNA complex formation and NFkappaB activity. Incubation of HOBIT cells with ETOH at 50 and 100 mmol/L for 30 min induced a 2.5- and 4.2-fold increase in PTK activity, respectively. Preincubation of HOBIT cells with damnacanthal (DAM), which inhibits p56lck, blocked ETOH-mediated PTK activity; whereas, preincubation with herbimycin A, which inhibits pp60src, did not. DAM inhibited both ethanol-induced NFkappaB activation in HOBIT cells and interleukin-6 expression in primary human osteoblasts. Finally, preincubation with the protein kinase C inhibitor, bisindolylmaleimide I HCl (BIS), diminished ETOH-mediated PTK activity; whereas, preincubation with the protein kinase A inhibitor, H89, did not. These data demonstrate that ETOH induces NFkappaB nuclear translocation through p56lck in HOBIT cells. BIS' inhibition of PTK activation suggests that ETOH activates PTK through a protein kinase C-dependent pathway. These data suggest that ETOH may contribute to bone loss through activation of signal transduction that results in production of an osteoclastogenic cytokine (i.e., interleukin-6) in osteoblasts.
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PMID:Ethanol activates NFkappaB DNA binding and p56lck protein tyrosine kinase in human osteoblast-like cells. 1118 74

Interleukin-6 (IL-6)-deficient mice are prone to ethanol-induced apoptosis and steatosis in the liver; however, the underlying mechanism is not fully understood. Mitochondrial dysfunction caused by oxidative stress is an early event that plays an important role in the pathogenesis of alcoholic liver disease. Therefore, we hypothesize that the protective role of IL-6 in ethanol-induced liver injury is mediated via suppression of ethanol-induced oxidative stress and mitochondrial dysfunction. To test this hypothesis, we examined the effects of IL-6 on ethanol-induced oxidative stress, mitochondrial injury, and energy depletion in the livers of IL-6 (-/-) mice and hepatocytes from ethanol-fed rats. Ethanol consumption leads to stronger induction of malondialdehyde (MDA) in IL-6 (-/-) mice compared to wild-type control mice, which can be corrected by administration of IL-6. In vitro, IL-6 treatment prevents ethanol-mediated induction of reactive oxygen species (ROS), MDA, mitochondrial permeability transition (MPT), and ethanol-mediated depletion of adenosine triphosphate (ATP) in hepatocytes from ethanol-fed rats. Administration of IL-6 in vivo also reverses ethanol-induced MDA and ATP depletion in hepatocytes. Finally, IL-6 treatment induces metallothionein protein expression, but not superoxide dismutase and glutathione peroxidase in cultured hepatocytes. In conclusion, IL-6 protects against ethanol-induced oxidative stress and mitochondrial dysfunction in hepatocytes via induction of metallothionein protein expression, which may account for the protective role of IL-6 in alcoholic liver disease.
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PMID:IL-6-deficient mice are susceptible to ethanol-induced hepatic steatosis: IL-6 protects against ethanol-induced oxidative stress and mitochondrial permeability transition in the liver. 1621 69

Several recent studies have documented that signaling can be fundamentally different in vivo and in vitro. However, studies of signaling and cytokine production by macrophages are often conducted in vitro, without confirmation in vivo. In addition, the direct effects of drugs and chemicals, including ethanol, on these processes are also often investigated in vitro. The purpose of the present study was to compare production of interleukin-6 (IL-6), IL-10, and IL-12 by macrophages in response to two different ligands for toll-like receptors and the effects of acute ethanol exposure on these responses in vivo and in vitro. The macrophage-like cell line RAW 264.7 is also widely used in cytokine and signaling studies, so these cells were also evaluated in this study. The results indicate that IL-6 production and the effects of Ethanol on IL-6 were similar in vivo and in vitro. In contrast, IL-10 was produced to a much greater extent in vitro than in vivo, and IL-12 was often undetectable in vitro even though it was produced at greater concentrations than IL-10 in vivo. To determine the role of altered secretion of preformed IL-10 as compared to new synthesis, cells were treated in vitro with protein and mRNA synthesis inhibitors. The results suggest that preformed IL-10 is released in vivo, but almost all IL-10 secreted in vitro is newly synthesized. Ethanol suppressed IL-12 and enhanced or had no effect on IL-10 production in vivo, whereas it decreased IL-10 production in vitro. These effects were similar at different times and using different concentrations of toll-like receptor ligands. In general, RAW 264.7 cells responded similarly to peritoneal macrophages in vitro. This suggests that results for cytokine studies and probably signaling studies as well that are conducted in vitro should be interpreted with caution and confirmed in vivo, particularly if they involve IL-10 and IL-12.
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PMID:Differences in IL-10 and IL-12 production patterns and differences in the effects of acute ethanol treatment on macrophages in vivo and in vitro. 1647 14

Alleviative effects of histidine and carnosine in mice against ethanol-induced oxidative and inflammatory was examined. After chronic alcoholic liver injury was induced, histidine and carnosine at 0.5, 1, 2g/L were added to the drinking water for 3 weeks. Results showed that the post-intake of histidine or carnosine markedly decreased alanine aminotransferase and aspartate aminotransferase activities (P<0.05). Ethanol treatment increased malondialdehyde (MDA) level, decreased glutathione (GSH) content and catalase and glutathione peroxidase (GPX) activities, and increased cytochrome P450 2E1 (CYP2E1) activity in liver (P<0.05). The post-intake of histidine and carnosine significantly decreased MDA formations, increased GSH content, enhanced catalase and GPX activities, and suppressed CYP2E1 activity (P<0.05), in which the effects on catalase and CYP2E1 activities were dose-dependent (P<0.05). Ethanol treatment elevated hepatic levels of c-reactive protein (CRP), interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-alpha) (P<0.05), the post-intake of histidine and carnosine significantly and dose-dependently diminished the release of CRP, IL-6, and TNF-alpha (P<0.05). Ethanol treatment caused down-regulation in both catalase and GPX mRNA expression, and up-regulated both IL-6 and TNF-alpha mRNA expression (P<0.05). Histidine and carnosine post-treatments significantly and dose-dependently upregulated catalase mRNA, and down-regulated mRNA expression of IL-6 and TNF-alpha (P<0.05). Based on the observed anti-oxidative and anti-inflammatory effects, the supplement of histidine or carnosine might be helpful for the treatment of chronic alcoholic liver injury.
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PMID:Beneficial effects of histidine and carnosine on ethanol-induced chronic liver injury. 1822 27

Fetal exposure to maternal alcohol intake can be harmful to the developing brain but the effects of acute exposures are less well documented. Our objective was to determine the effects of acute alcohol exposure on developing white matter and to investigate the potential role of pro-inflammatory cytokines. Fifteen pregnant ewes underwent surgery at 110.0+/-1.0 days of the 147 day gestation for fetal catheterization. Ethanol (1g/kg maternal weight) was administered intravenously to 8 ewes for 1h on 3 consecutive days at 116.0+/-1.0 days of gestation (0.8 of full term); 7 pregnant control ewes received saline. Fetal brains were collected at necropsy 5 days after the initial ethanol exposure and processed for structural analysis. Maternal and fetal blood ethanol concentrations reached maximal values (0.11+/-0.01 g/dL) 1h after infusions commenced, declining to zero thereafter. Ethanol exposure did not cause fetal hypoxemia, acidemia, hypercapnia, hypoglycemia or hypotension. Subcortical white matter injury, defined as microglia/macrophage infiltration, axonal disruption, increased apoptosis, astrogliosis and altered glial cell morphology, was observed in 4 of the 8 ethanol-exposed fetuses. The injury occupied 6.6-18.3% of the cross-sectional area of cerebral white matter examined and was substantial in 2/8 and modest in 2/8 ethanol-exposed fetuses. Three remaining fetuses exhibited astrogliosis and elevated levels of apoptosis in cerebral white matter. There was a positive correlation between maternal and fetal blood ethanol concentrations and the extent of brain damage. There was no significant elevation in concentrations of the pro-inflammatory cytokines tumor necrosis factor-alpha, interleukin-1beta and interleukin-6 in fetal plasma. Developing white matter in the late gestation fetus is vulnerable to acute alcohol exposure, but mechanisms remain unclear.
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PMID:Injurious effects of acute ethanol exposure during late gestation on developing white matter in fetal sheep. 1845 53

Ethanol metabolism in the liver induces oxidative stress and altered cytokine production preceding myofibroblast activation and fibrogenic responses. The purpose of this study was to determine how ethanol affects the fibrogenic response in precision-cut liver slices (PCLS). PCLS were obtained from chow-fed male Wistar rats (200-300 g) and were cultured up to 96 h in medium, 25 mM ethanol, or 25 mM ethanol and 0.5 mM 4-methylpyrazole (4-MP), an inhibitor of ethanol metabolism. Slices from every time point (24, 48, 72, and 96 h) were examined for glutathione (GSH) levels, lipid peroxidation [thiobarbituric acid-reactive substance (TBARS) assay], cytokine production (ELISA and RT-PCR), and myofibroblast activation [immunoblotting and immunohistochemistry for smooth muscle actin (SMA) and collagen]. Treatment of PCLS with 25 mM ethanol induced significant oxidative stress within 24 h, including depletion of cellular GSH and increased lipid peroxidation compared with controls (P < 0.05). Ethanol treatment also elicited a significant and sustained increase in interleukin-6 (IL-6) production (P < 0.05). Importantly, ethanol treatment accelerates a fibrogenic response after 48 h, represented by significant increases in SMA and collagen 1alpha(I) production (P < 0.05). These ethanol-induced effects were prevented by the addition of 4-MP. Ethanol metabolism induces oxidative stress (GSH depletion and increased lipid peroxidation) and sustained IL-6 expression in rat PCLS. These phenomena precede and coincide with myofibroblast activation, which occurs within 48 h of treatment. These results indicate the PCLS can be used as in vitro model for studying multicellular interactions during the early stages of ethanol-induced liver injury and fibrogenesis.
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PMID:Exposure of precision-cut rat liver slices to ethanol accelerates fibrogenesis. 2059 23


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