UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role that inflammatory cytokines may play in the life cycle of the hepatitis B virus and in the pathogenesis of its associated liver disease has not been carefully delineated. In this report, we demonstrate that bacterial lipopolysaccharide, a potent inducer of inflammatory cytokines in vivo, causes a severe acute liver disease in transgenic mice whose hepatocytes produce the hepatitis B virus large envelope polypeptide and retain HBsAg within the endoplasmic reticulum. In contrast, 100-fold higher doses of bacterial lipopolysaccharide do not induce liver cell injury in nontransgenic littermate controls or in transgenic mice whose hepatocytes secrete HBsAg rather than retain it. Coincident with the hepatocellular injury and the influx of inflammatory cells into the liver, a marked reduction occurs in the intrahepatic content of hepatitis B virus steady-state messenger RNA, thereby confirming the selectivity of this process for the HBsAg-positive hepatocyte. Bacterial lipopolysaccharide-induced hepatocellular injury appears to be principally mediated by interferon-gamma because it can be markedly reduced by the prior administration of neutralizing interferon-gamma-specific monoclonal antibodies and because recombinant interferon-gamma is also selectively cytotoxic for the HBsAg-positive transgenic hepatocyte in vivo. Tumor necrosis factor-alpha is also involved in this process because bacterial lipopolysaccharide-induced liver cell injury is significantly reduced by tumor necrosis factor-alpha specific monoclonal antibodies. The role of tumor necrosis factor-alpha in bacterial lipopolysaccharide-induced liver cell injury is less clear than interferon-gamma, however, because unlike interferon-gamma it is also toxic for nontransgenic hepatocytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HBsAg retention sensitizes the hepatocyte to injury by physiological concentrations of interferon-gamma. 150 8

Tumor necrosis factor (TNF), prostaglandin (PG) E2 and 6-keto-PGF1 alpha production by murine peritoneal macrophages was monitored following in vitro stimulation with lipopolysaccharide. Macrophages were obtained from mice fed diets containing increasing ratios of (n-3) to (n-6) fatty acids by addition of (n-3) polyunsaturated fatty acids (PUFA) to the (n-6) fatty acids in the diet, or by substituting (n-3) PUFA for the (n-6) fatty acids in the diet. Increasing the dietary (n-3) to (n-6) fatty acid ratio from 0 to 1 increased both cell-associated and secreted TNF production by resident peritoneal macrophages but did not affect TNF production by macrophages elicited with Complete Freund's Adjuvant (CFA). With increasing dietary (n-3): (n-6) ratio there was a decrease in the prostaglandin production by resident peritoneal macrophages, which may partly explain the increased TNF production. The CFA-elicited macrophages produced less prostaglandin than the resident macrophages, and the lower prostaglandin production may partly explain the lack of effect of dietary (n-3) PUFA on TNF production by CFA-elicited macrophages. Increasing the TNF production by resident macrophages with dietary (n-3) PUFA may be beneficial in enhancing antitumor actions and antipathogenicity; by not increasing the high TNF production of inflammatory macrophages, (n-3) PUFA may protect against undesirable systemic inflammatory effects of overproduction.
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PMID:Increasing the dietary (n-3) to (n-6) polyunsaturated fatty acid ratio increases tumor necrosis factor production by murine resident peritoneal macrophages without an effect on elicited peritoneal macrophages. 152 36

Alveolar macrophages (Am phi s), resident peritoneal macrophages (RPm phi s), and thioglycolate-elicited peritoneal macrophages (TGPm phi s) were isolated from C57BL/6 mice and incubated with lipopolysaccharide (LPS), stimulated cell supernatant, or recombinant interferon gamma (IFN-gamma) for 24 h. Tumor necrosis factor (TNF) in cell-free supernatants was measured by enzyme-linked immunosorbent assay. Amo phi s incubated with 10(3) ng/ml LPS produced 50 times more TNF than RPm phi s and 5 times more than TGPm phi s, and LPS alone induced maximum TNF production by Am phi s. Stimulated cell supernatant or recombinant IFN-gamma alone did not induce TNF production. A combination of LPS with stimulated cell supernatant or IFN-gamma had only a limited synergistic effect on TNF production by Am phi s. However, both LPS and stimulated cell supernatant or recombinant IFN-gamma induced maximum TNF production by RPm phi s and TGPm phi s. TGPm phi s showed greater sensitivity to LPS and stimulated cell supernatant or IFN-gamma with regard to TNF production than the other macrophage populations investigated.
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PMID:Production of tumor necrosis factor alpha by resident and activated murine macrophages. 154 8

Tumor necrosis factor (TNF) was produced in mice bearing Ehrlich ascites tumor (EAT) by priming with zymosan and subsequently challenging with lipopolysaccharide. The optimal conditions for the in vivo production of TNF in treating EAT bearing mice were established. The endotoxin shock induced in mice during TNF production could be minimized by the combined administration of sulindac and mannoheptulose. The endogenous TNF produced could suppress proliferation of EAT cells as well as prolong the survival time of mice bearing small tumors.
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PMID:In vivo production of tumor necrosis factor for the treatment of mice bearing Ehrlich ascites tumor. 155 9

We examined the effect of lipopolysaccharide (LPS) treatment on the expression of manganese and copper/zinc superoxide dismutase (MnSOD and Cu/ZnSOD) mRNA and protein in resident peritoneal macrophages and lung endothelial cells derived from LPS-sensitive (LPS-s) and LPS-resistant (LPS-r) mice. Macrophages from both LPS-s and LPS-r mice treated with LPS for 24 h produced increased levels of MnSOD mRNA and protein. In contrast, levels of lung endothelial cell MnSOD mRNA and protein from LPS-s mice were increased by LPS treatment, while no increases in these parameters were observed in endothelial cells from LPS-r mice. Tumor necrosis factor-alpha (TNF alpha) treatment, however, did increase levels of MnSOD mRNA in both LPS-s and LPS-r endothelial cells to an equal extent. Both macrophage and endothelial cell Cu/ZnSOD mRNA and protein levels were not significantly affected by LPS treatment. These results demonstrate that the mutation that affects susceptibility to LPS in LPS-r mice exerts a differential influence on MnSOD inducibility in a cell specific manner.
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PMID:Mn and Cu/Zn SOD expression in cells from LPS-sensitive and LPS-resistant mice. 155 15

Tumor necrosis factor-alpha (TNF-alpha), a product of both mononuclear phagocytes and T lymphocytes, is an important proximal mediator of a number of acute and chronic inflammatory disease states. In this investigation we examine the regulatory effects of the lymphocyte product interleukin-4 (IL-4) on the gene expression of TNF-alpha from stimulated human peripheral blood monocytes (PBM) and T lymphocytes. We demonstrated the dose-dependent suppression of TNF-alpha mRNA and protein synthesis from lipopolysaccharide-treated PBM by IL-4. The suppressive effects of IL-4 appear to be dependent upon de novo protein synthesis, as cycloheximide abrogated the IL-4-induced reduction in TNF-alpha mRNA levels from PBM. In contrast to the suppressive effects of IL-4 on PBM-derived cytokine expression, IL-4 did not alter TNF-alpha mRNA expression from alpha-Cd3 or PMA + alpha-CD-28-treated T lymphocytes. Moreover, IL-2 mRNA expression from similarly treated T lymphocytes was unaltered by IL-4. Our findings demonstrate that disparity exists in the regulation of TNF-alpha gene expression from different immune cell populations which may have important implications in the evolution of acute and chronic inflammatory responses.
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PMID:Interleukin-4 differentially regulates tumor necrosis factor-alpha gene expression by human T lymphocytes and monocytes. 157 Oct 90

Tumor necrosis factor-alpha (TNF alpha) is a cytokine produced by mononuclear cells that amplifies inflammation and modulates expression of Class I and Class II histocompatibility antigens. Because of these properties, this cytokine may exert a central role in both the defense and the rejection of the transplanted lung. Utilizing an ELISA technique, we measured TNF alpha in vivo and in vitro in several compartments of lung transplant recipients and in normal subjects that included serum, bronchoalveolar lavage fluid (BAL), and media conditioned by alveolar macrophages (AM) and by autologous peripheral blood monocytes (PBM). Overall, stimulated production of TNF alpha by AM from lung recipients in vitro was less than that of cells from normal subjects in response to lipopolysaccharide (LPS) challenge, and stimulated production of TNF alpha by AM harvested during conditions of infection or acute and chronic rejection was less than that by cells from healthy lung recipients. AM from normal subjects and allograft recipients produced substantially more TNF alpha than autologous PBM, but release in vitro by PBM from recipients was the same as that from cells of normal subjects who were not immunosuppressed. Thus, systemic immunosuppression does not seem to affect the production of TNF alpha by PBM in vitro, but it may reduce production by AM, indicating different effects of immunosuppression on different compartments of mononuclear cells. This mediator was not detected at elevated levels in serum, and it was undetectable in BAL fluid. We conclude that AM from lung recipients are capable of producing TNF alpha, which would influence the defense and immunogenicity of the allograft.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tumor necrosis factor-alpha production by alveolar macrophages in heart-lung transplant recipients. 158 43

Tumor necrosis factor-alpha (TNF), a cytokine produced by mononuclear phagocytes in response to lipopolysaccharide stimulation, is a potent mediator of the inflammatory cascade. However, the immunomodulatory signals regulating TNF expression in the host are poorly defined. Recently, metabolites of the prostaglandin E series have been shown to inhibit TNF production in vitro. In order to determine if PGE1 alters TNF activity in vivo, rats were given misoprostol, a synthetic PGE1 analogue, or saline by gavage and subsequently challenged with either intravenous or intratracheal Escherichia coli lipopolysaccharide. These in vivo data show that PGE1 is a potent inhibitor of TNF production by systemic mononuclear phagocytes. In contrast, alveolar macrophages appear to be refractory to misoprostol's suppressive effects on LPS-induced TNF. This study supports in vitro observations that mononuclear phagocytes within different compartments exhibit differential responsiveness to immunomodulators.
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PMID:Contrasting effects of misoprostol on systemic and intrapulmonary lipopolysaccharide-induced tumor necrosis factor-alpha. 159 73

Tumor necrosis factor (TNF) is a macrophage-derived mediator responsible for many of the pathophysiologic manifestations of endotoxic shock. We now demonstrate that amrinone, a noncatechol inotrope, strongly inhibits lipopolysaccharide (LPS)-induced TNF production at concentrations readily achieved in vivo. This inhibition is apparent in murine macrophages, in macrophage cell lines, in vivo, and in cell lines containing a reporter gene construct that substitutes the chloramphenicol acetyl transferase (CAT) coding sequence for the TNF coding sequence and introns. Inhibition by amrinone (like inhibition by pentoxifylline) is manifested at the level of mRNA accumulation, in contrast to inhibition caused by dexamethasone. Combined application of dexamethasone and amrinone caused additive inhibition of TNF biosynthesis in vitro. Furthermore, treatment of mice with amrinone immediately prior to endotoxin challenge led to significantly improved survival. These findings suggest that amrinone possesses antiinflammatory as well as inotropic properties that may make it an appropriate agent for use in septic shock or other serious bacterial infections. Abrupt removal of amrinone or pentoxifylline from the culture medium prior to LPS stimulation, however, caused significantly augmented TNF production. Therefore, amrinone and other phosphodiesterase inhibitors may also enhance sensitivity to LPS during a period of time following discontinuation of therapy.
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PMID:Effect of amrinone on tumor necrosis factor production in endotoxic shock. 161 5

Tumor necrosis factor-alpha (TNF-alpha), produced predominantly by activated monocytes/macrophages, inhibits leukemic cell growth and may contribute to a graft-versus-leukemia effect after marrow transplantation. We examined the recombinant cytokines interferon (IFN)-alpha, IFN-gamma, granulocyte- macrophage colony-stimulating factor (GM-CSF), and macrophage colony-stimulating factor (M-CSF), alone or in combination, for their ability to induce monocytes from normal donors and patients after marrow grafting to express TNF-alpha mRNA and secrete TNF-alpha bioactivity. Monocytes were isolated from peripheral blood by Percoll separation of E-rosette-negative cells, and cultured with cytokines under non-adherent, endotoxin-free conditions. TNF-alpha transcripts were undetectable in freshly isolated monocytes from normal donors. Only the combination of IFN-gamma/GM-CSF was consistently capable of inducing substantial TNF-alpha mRNA transcript levels and protein secretion. Levels of TNF-alpha transcripts induced by IFN-gamma/GM-CSF were maintained for at least 36 h, in contrast to lipopolysaccharide (LPS) stimulation which caused TNF-alpha mRNA levels to peak after 2 h and decline rapidly thereafter. IFN-gamma/GM-CSF was also capable of inducing a prolonged (at least 48 h) secretion of TNF-alpha bioactivity. In contrast, greater than 80% of the total TNF-alpha bioactivity secreted by LPS-stimulated monocytes was secreted in the first 8 h. When monocytes were incubated with IFN-gamma alone ('priming'), washed and then exposed to GM-CSF, both TNF-alpha mRNA expression and TNF-alpha protein production occurred.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of tumor necrosis factor-alpha production and gene expression in monocytes. 161 21

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