UNIPROT:P43026 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Drug disposition, including hepatic drug metabolism, is markedly affected by infection, inflammation and other conditions that invoke the acute phase response. In the present study, an Escherichia coli lipopolysaccharide (LPS)-induced acute phase response model was developed in pigs. This model was used to study the effects of the acute phase response on drug disposition and hepatic drug metabolism in vivo and in microsomal preparations. The results obtained were compared with those from Actinobacillus pleuropneumoniae-infected pigs. Intermittent intravenous administration of LPS induced a mild acute phase response as evidenced by increased rectal body temperatures, anorexia and increased cytokine (TNF-alpha and IL-6) serum levels within 1-2 h after the first LPS injection. The acute phase response is associated with a pronounced decrease of antipyrine plasma clearance (control 8.5 +/- 0.8 vs. LPS 2.2 +/- 0.7 mL/min.kg). Furthermore, total cytochrome P450 content and microsomal cytochrome P450-dependent activities were significantly decreased after 24 h. The decrease in cytochrome P450 activities was accompanied by losses of cytochrome P4501A and P4503A apoproteins. The microsomal glucuronidation rate of 1-naphthol was not affected in LPS-treated pigs. Comparing the LPS model with our previous findings in the Actinobacillus pleuropneumoniae model showed a remarkable similarity with regard to the effects on hepatic drug metabolism.
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PMID:A lipopolysaccharide-induced acute phase response in the pig is associated with a decrease in hepatic cytochrome P450-mediated drug metabolism. 890 73

Several recent reports have investigated the possibility that nitric oxide (-NO) can regulate prostaglandin H synthase (PHS) activity. The potential significance of -NO regulation of PHS is considerable, when one considers the numerous important biological processes that are influenced by PHS. In this study, we used microsomal and purified PHS to investigate the direct effect of -NO and -NO-generating compounds on PHS catalytic activity. We found that -NO neither significantly inhibited nor enhanced prostaglandin (PG) formation, despite the fact that -NO stimulated PHS peroxidase activity. We also investigated the effect of -NO and -NO generators on PHS product, protein, and mRNA levels in the RAW264.7 murine macrophage cell line. We found that -NO or -NO generators had little or no effect on PG formation, PHS expression, or PHS mRNA expression in unstimulated RAW264.7 cells. The same results were obtained with macrophages that were stimulated by 18 h pretreatment with lipopolysaccharide, a known inducer of PHS-2 in macrophages. These data clearly indicate that -NO acts as a cosubstrate for PHS peroxidase. However, -NO does not enhance or inhibit either cyclooxygenase activity or expression of PHS in the model systems used in this study.
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PMID:Nitric oxide: a prostaglandin H synthase 1 and 2 reducing cosubstrate that does not stimulate cyclooxygenase activity or prostaglandin H synthase expression in murine macrophages. 891 34

We determined whether dietary ascorbic acid (0.3 or 3 g/kg diet) modulates hepatic microsomal mixed function oxidase (MFO) system and plasma alpha 1 acid glycoprotein (AGP) concentration in chicks treated with Escherichia coli lipopolysaccharide (LPS). Injection of LPS (250 micrograms/kg body weight every other day) intraperitoneally for 14 days decreased cytochromes P450 and b, content and NADPH-cytochrome c reductase activity in hepatic microsomes in male broilers. Content of cytochromes P450 and b5 was negatively correlated with plasma AGP concentration. Feeding ascorbic acid partly alleviated the reduction of cytochromes P450 and b5 in males. Plasma AGP concentration also increased with the LPS injection and was partly lowered by feeding ascorbic acid. The results indicate that dietary ascorbic acid modulates the responses of the microsomal MFO system and of plasma AGP concentration against repeated injection of LPS in male broiler chicks.
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PMID:Effect of dietary ascorbic acid on the hepatic microsomal mixed function oxidase system in liver of chicks treated with Escherichia coli lipopolysaccharide. 946 82

Acyl-CoA synthetase (ACS) catalyzes the activation of fatty acids (FA) to acyl-CoA esters, which are further metabolized in either anabolic or catabolic pathways. Endotoxin [lipopolysaccharide (LPS)], tumor necrosis factor (TNF), and interleukin-1 (IL-1) enhance hepatic FA synthesis and reesterification and inhibit FA oxidation. LPS also decreases triglyceride storage in adipose tissue and inhibits the uptake of FA by heart and muscle. Therefore, in this study we examined the effects of LPS and cytokines on ACS (now also known as ACS1) mRNA expression and activity in multiple tissues in Syrian hamsters. LPS markedly decreased ACS1 mRNA levels in liver, adipose tissue, heart, and skeletal muscle. The inhibitory effects of LPS on ACS1 mRNA levels in liver and adipose tissue were observed as early as 2-4 h after administration, became maximal by 4-8 h, and were sustained for >/=24 h. Very low doses of LPS (0.1-1 microg/100 g body wt) were needed to reduce ACS1 mRNA levels in liver and adipose tissue. TNF and IL-1 mimicked the effect of LPS on ACS1 mRNA levels in liver and adipose tissue. LPS decreased ACS activity in adipose tissue, heart, and muscle. In liver, where ACS is localized in several subcellular organelles, both LPS and cytokines decreased mitochondrial ACS activity, whereas they increased microsomal ACS activity. Taken together, these results indicate that LPS and cytokines decrease ACS1 mRNA expression and ACS activity in tissues where FA uptake and/or oxidation is decreased during sepsis. In liver, where FA oxidation is decreased during sepsis but the reesterification of FA is increased, LPS and cytokines decrease ACS1 mRNA and mitochondrial ACS activity, which may inhibit FA oxidation, but increase microsomal ACS activity, which may support the reesterification of peripherally derived FA for triglyceride synthesis.
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PMID:In vivo regulation of acyl-CoA synthetase mRNA and activity by endotoxin and cytokines. 968 75

The activation of host defense mechanisms down-regulates microsomal cytochrome P450 in cell culture, humans, and animals. Investigation into various aspects of this effect using in vivo models has yet to define clearly the role that cytokines play in this phenomenon. The mechanism of down-regulation by immunostimulants, such as lipopolysaccharide (LPS), is explored with an in vitro model, utilizing a murine hepatoma (Hepa1) and a murine macrophage (IC-21) cell line. It is hypothesized that down-regulation of P450 activity by immunostimulants involves the activation of immune cells and the subsequent release of cytokines, such as interleukin-1 (IL-1), interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNF-alpha). The effects of immunostimulation on P450 activity are assessed by ethoxyresorufin O-dealkylase, an assay that measures CYP1A activity in Hepa1 cells. Initial studies demonstrated that LPS added directly to hepatoma cells had no effect on the levels of CYP1A1 activity. In contrast, a significant down-regulation in CYP1A1 activity occurred when hepatoma cells were incubated with monocyte conditioned medium obtained by incubating LPS with IC-21 cells. When pentoxifylline, a TNF-alpha synthesis inhibitor, was co-administered with LPS to macrophages, the down-regulation of CYP1A1 activity was prevented. The direct administration of murine recombinant TNF-alpha to hepatoma cells resulted in a down-regulation of CYP1A1 activity. These results implicated the release of TNF-alpha from macrophages as an important step in the down-regulation of CYP1A1 by LPS.
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PMID:Cytokine-mediated down-regulation of CYP1A1 in Hepa1 cells. 971 97

To investigate the effect of central inflammation due to bacterial infection, such as meningitis, on the activities of hepatic cytochromes P450 (CYPs), rats were injected intracerebroventricularly (i.c.v.) with 0.1 microg of bacterial lipopolysaccharide (LPS). The LPS i.c.v. injection significantly decreased the total P450 contents (by 30% of the levels of control rats treated with saline i.c.v.), the contents of CYP1A (48%), 2B (54%), 2C11 (37%) and 3A (40%) and related drug metabolizing activities, 7-ethoxycoumarin O-deethylation (36%), imipramine N-demethylation (41%) and erythromycin N-demethylation (33%) in liver microsomes 24 h after the treatment. In contrast, intraperitoneal (i.p.) injection of LPS at the same dose as i.c.v. (0.1 microg) did not significantly affect the hepatic microsomal contents of total P450 or the content of each individual CYP isozyme and its activity. CYP2D1 protein and the activity of imipramine 2-hydroxylase were not significantly decreased by LPS injection regardless of the route of administration. The inhibitory effects of 0.1 microg i.c.v. LPS on the activities of these CYPs were almost equal to those of 10 microg i.p. LPS, and 0.01 microg of i.c.v. LPS significantly decreased the activity of imipramine N-demethylase only. Therefore, the LPS i.c.v. injection resulted in CYP isozyme-selective inhibition at an ineffective dose when injected i.p.. It is suggested that a central inflammation, such as meningitis, differentially decreases the levels of hepatic CYP isozymes. A possible involvement is discussed of the central nervous system in this down-regulation.
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PMID:Differential alterations in levels of hepatic microsomal cytochrome P450 isozymes following intracerebroventricular injection of bacterial lipopolysaccharide in rats. 976 64

The liver plays a major role in metabolism and elimination of leukotrienes (LT). It produces cysteinyl leukotrienes (cLT), and cLT have been implicated in hepatocellular toxicity in several models of lipopolysaccharide (LPS)-associated liver injury. However, the liver cell types responsible for cLT production are poorly defined, and the expression of the LT-synthesis enzymes, 5-lipoxygenase (5-LO) and LTC4 synthase (LTC4-S), in liver cells has never been demonstrated. The aim of the present study was to examine the ability of rat liver cells to produce cLT by determining whether hepatocytes, Kupffer cells, and sinusoidal endothelial cells express mRNA and enzyme activities of the LT-synthesis enzymes and whether expression is altered by LPS. 5-LO mRNA was expressed in whole liver, and expression was enhanced by LPS. Cell fractionation studies demonstrated that expression was present in Kupffer cells and sinusoidal endothelial cells, but not in hepatocytes. LTC4-S mRNA was detected in whole liver, hepatocytes, and sinusoidal endothelial cells, but not in Kupffer cells. Semiquantitative reverse-transcriptase polymerase chain reaction (RT-PCR) showed that LPS increased LTC4-S expression in hepatocytes by a factor of 3 (n = 3; P < .03). LTC4-S enzyme activity in the microsomal fraction of hepatocytes was also increased from 0.52 +/- 0.13 to 1.90 +/- 0.66 nmol . mg protein-1 . 5 min-1 (n = 6; P < .015) after LPS treatment. These results indicate that hepatocytes do not possess the ability for de novo synthesis of cLT from arachidonic acid, but they may actively participate in cLT production by conjugation of LTA4 with glutathione to produce LTC4. LPS enhances LTC4-S expression in hepatocytes. This intrinsic cLT production may contribute to hepatocellular injury during inflammation.
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PMID:Expression and regulation of leukotriene-synthesis enzymes in rat liver cells. 979 12

To investigate the role of nitric oxide (NO) in hepatitis-induced endotoxemia, we injected mice intraperitoneally with 250 mg/kg galactosamine (GalN) and 1 mg/kg lipopolysaccharide (LPS) separately and in combination. NO synthesis increased in a dose-dependent manner with LPS. NO generation at 5 hr after administration of LPS was greater than that at 24 hr. Enhancement of NO generation was demonstrated in mice administered GalN and LPS in combination. A nitrosyl-heme signal in 10,000 g supernatant of liver homogenate, due to cytochrome P450 (P450) combining with NO, NO-P450, was detected at more than ten hr and even more after administration of LPS by electron spin resonance (ESR) measurements at 77 degrees K. The strongest NO-P450 signal and most extreme elevation of aspartate oxoglutarate aminotransferase (AST), alanine oxoglutarate aminotransferase (ALT), and lactate dehydrogenase (LDH) in serum and of lysosomal enzyme activity in plasma were observed in the GalN + LPS group. Their potency was greater than in the 10 mg/kg LPS group, which was even greater than in the LPS 1 mg/kg group. The aniline hydroxylase activity was inversely proportional to NO-P450 signal intensity. It appears that NO might contribute to LPS-induced hepatic damage in GalN-sensitized mice through degeneration and inactivation of liver microsomal enzymes by binding P450 active sites.
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PMID:NO contribution to lipopolysaccharide-induced hepatic damage in galactosamine-sensitized mice. 1007 39

Antioxidant action of various molds, which are traditionally used for the production of foods or alcoholic beverages in Japan, was studied in vitro and in vivo. Antioxidant action was evaluated by scavenging stable free radical 1,1-diphenyl-2-picrylhydrazyl (DPPH) and lipid peroxidation of rat liver microsomes. Among 40 molds, 16 species showed the DPPH scavenging action, and the molds that can scavenge the DPPH radical inhibited lipid peroxidation. The mold with the strongest action, Monascus anka, was chosen for the investigation of a protective action against liver injury of rats. When galactosamine (GalN, 400 mg/kg) or GalN plus lipopolysaccharide (LPS, 0.5 microg/kg) was given intraperitoneally to rats (Sprague-Dawley), aspartate aminotransferase (AST) and glutathione (GSH) S-transferase (GST) activities in serum were significantly increased. However, such hepatotoxicities seen in the increase in serum enzyme levels were depressed when the extract prepared from M. anka was given 1 and 15 h before the toxic insultant. Liver microsomal GST activity, which is known to be activated by oxidative stress, was increased by GalN or GaIN plus LPS treatment and the increase was also inhibited by pretreatment with the extract. Pathomorphological changes in the liver caused by GalN treatment also were prevented by the mold extract. These results indicate that the extract of M. anka has radical scavenging action and ameliorates chemically induced hepatotoxicity.
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PMID:Screening of antioxidant action of various molds and protection of Monascus anka against experimentally induced liver injuries of rats. 1018 24

The acute phase response (APR) was induced by five separate intravenous (i.v.) injections of Escherichia coli lipopolysaccharide (LPS, 17 microg/kg each time) in rabbits, with intervals of 1 h. This model was used to study the effects of APR on the activities of hepatic microsomal cytochrome P450 (CYP)-dependent enzyme including drug metabolism. Five female rabbits were included in each of four groups, a control group and three LPS-treated groups (group I, II and III). The rabbits of the control, group I, II and III were killed at 1, 1, 3 and 7 days after saline (control only) or the LPS injection, respectively. The APR was confirmed by increases in rectal body temperature, plasma concentrations of interleukin-6 and C-reactive protein (CRP). Pharmacokinetics of antipyrine before death were examined in every group. Antipyrine was administered (5 mg/kg) at 24 h (control and group I), 3 days (group II) and 7 days (group III) after the first LPS injection. Total body clearance (Cl(tot)) of antipyrine tended to decrease in group I. All the livers were excised for measuring CYP-dependent activities. Total CYP content and several CYP-dependent activities (aminopyrine N-demethylation, aniline 4-hydroxylation and caffeine 3-demethylation) decreased in group I. The maximum velocity (Vmax) values of those enzymes, and the amount of CYP1A1/1A2 and CYP2E1 apoproteins appeared to decrease. Michaelis constant (Km) values of those enzymes were not affected by the APR. Rectal body temperature recovered to normal at 3 days after the first LPS injection in group II and III. The concentration of CRP, albumin, total CYP content and the plasma clearance of antipyrine returned to the control levels at 7 days after the first LPS injection. These results suggest that the metabolism of drugs, including CYP-dependent drug metabolizing activity, is suppressed markedly in incipient APR induction in rabbits, and the drug metabolizing capacity is returned to normal at 7 days after APR induction.
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PMID:The suppressive effects of lipopolysaccharide-induced acute phase response on hepatic cytochrome P450-dependent drug metabolism in rabbits. 1037 93

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