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Query: UNIPROT:P43026 (
lipopolysaccharide
)
62,215
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The current study characterizes the mechanism by which mercury, a toxic metal, induces death in murine macrophages. The cytotoxic EC(50) of mercury ranged from 62.7 to 81.1 microM by various assays in J774A.1 cultures; accordingly, we employed 70 microM of mercuric chloride in most experiments. Mercury-induced intracellular calcium modulated reactive oxygen species (ROS) production, which resulted in both cell apoptosis and necrosis indicated by annexin V binding and caspase-3 activity, and propidium-iodide binding. Calcium antagonists abolished ROS production. Mercury stimulated p38 mitogen-activated protein kinase (MAPK) and additively stimulated
lipopolysaccharide
-activated p38. Mercury-activated p38 was decreased by pretreatment of cells with antioxidants,
N-acetylcysteine
(
NAC
) and silymarin, indicating that mercury-induced ROS were involved in p38 activation. Mercury increased the expression of tumor necrosis factor alpha (TNFalpha); antioxidants and a specific p38 inhibitor decreased this effect. Pretreatment with antioxidants, p38 inhibitor, and anti-TNFalpha antibody decreased mercury-induced necrosis; however, anti-TNFalpha antibody did not decrease mercury-induced apoptosis. Results suggest that mercury-induced macrophage death is a mix of apoptosis and necrosis employing different pathways. P38-mediated caspase activation regulates mercury-induced apoptosis and p38-mediated TNFalpha regulates necrosis in these cells. Calcium regulates ROS production and mercury-induced ROS modulate downstream p38 that regulates both apoptosis and necrosis.
...
PMID:Mercury-induced apoptosis and necrosis in murine macrophages: role of calcium-induced reactive oxygen species and p38 mitogen-activated protein kinase signaling. 1505 Apr 7
Pregnane X receptor (PXR) is a member of the nuclear receptor superfamily that regulates target gene transcription in a ligand-dependent manner. The in vivo effects of
lipopolysaccharide
(
LPS
) on expression of PXR and its target gene cytochrome P450 3A (CYP3A) in mouse liver were investigated in this study. Mice were injected intraperitoneally with different doses of
LPS
(0.1-5.0 mg/kg). PXR and CYP3A11 mRNA levels were measured using reverse transcription polymerase chain reaction. Results indicate that
LPS
significantly inhibits the expression of PXR mRNA in a dose-dependent manner, followed by suppression of CYP3A11 mRNA in mouse liver.
LPS
also represses the upregulation of CYP3A11 mRNA levels and erythromycin N-demethylase (ERND) catalytic activity in mice pretreated with PXR ligands dexamethasone, rifampicin, mifepristone, and phenobarbital.
LPS
-induced downregulation of PXR and CYP3A11 mRNA in liver was significantly attenuated in mice pretreated with gadolinium chloride, a selective Kupffer cell toxicant. Pretreatment with a single dose of gadolinium chloride (10 mg/kg) also significantly attenuated
LPS
-induced downregulation of dexamethasone-, rifampicim-, mifepristone-, and phenobarbital-inducible, CYP3A11 mRNA expression and ERND activity in mouse liver. Furthermore,
LPS
-induced downregulation of PXR and CYP3A11 mRNA was significantly attenuated in mice pretreated with allopurinol, an inhibitor of xanthine oxidase, and diphenyleneiodonium chloride, an inhibitor of NADPH oxidase. Allopurinol and diphenyleneiodonium chloride pretreatment also attenuated the repressive effects of
LPS
on dexamethasone-, rifampicin-, mifepristone-, and phenobarbital-inducible CYP3A11 mRNA expression and ERND catalytic activity in mouse liver. However, aminoguanidine, a selective inhibitor of inducible nitric oxide synthase, has no effect on
LPS
-induced downregulation of PXR and CYP3A11 mRNA. Finally,
LPS
-induced downregulation of PXR and CYP3A11 mRNA was prevented in mice pretreated with either
N-acetylcysteine
or ascorbic acid. These antioxidants also prevented the repressive effects of
LPS
on dexamethasone-, rifampicin-, mifepristone-, and phenobarbital-inducible CYP3A11 mRNA expression and ERND catalytic activity in mouse liver. These results indicate that Kupffer cells contribute to
LPS
-induced downregulation of PXR and CYP3A in mouse liver. Reactive oxygen species, produced possibly by NADPH oxidase and perhaps by xanthine oxidase, are involved in
LPS
-induced downregulation of nuclear receptor PXR and its target gene CYP3A in mouse liver.
...
PMID:Kupffer cells and reactive oxygen species partially mediate lipopolysaccharide-induced downregulation of nuclear receptor pregnane x receptor and its target gene CYP3a in mouse liver. 1518 91
Apoptosis is known to play a critical role in development and homeostasis in metazoans. Although apoptotic responses vary widely among cell types, the underlying mechanisms responsible for these differences are not known. In order to understand the molecular basis for these differences, we have studied a cell culture model comparing hepatoma cells to dedifferentiated cell lines derived from them. We recently reported evidence suggesting that a common regulatory locus affects both liver-specific function and sensitivity to
lipopolysaccharide
(
LPS
)-mediated apoptosis. Here, we show that dedifferentiated hepatoma cells undergo apoptosis in response to multiple compounds, including sorbitol (to induce hyperosmotic shock), TNF alpha and the microtubule damaging agent vinblastin. In contrast, the hepatoma parental cells fail to undergo apoptosis in response to any of the compounds tested. Further analysis of
LPS
-mediated cell death found that antioxidants
N-acetylcysteine
and alpha-tocopherol partially prevented apoptosis. Lastly, evidence is presented showing that
LPS
-mediated cell death of the hepatoma variant cell lines is caspase-dependent. These results suggest that pathways dictating hepatic phenotype also affect general cellular survival mechanisms in response to multiple agents. The dedifferentiated cells provide a model to examine the influence of cell-type specific expression on apoptotic signaling.
...
PMID:Tissue-specificity of apoptosis in hepatoma-derived cell lines. 1525 69
Periventricular leukomalacia (PVL), the dominant form of brain injury in premature infants, is characterized by diffuse white matter injury and is associated with cerebral palsy (CP). Maternal and placental infections are major causes of prematurity and identifiable etiology of PVL and CP. Here we have evaluated the therapeutic efficacy of
N-acetylcysteine
(
NAC
), a potent antioxidant and precursor of glutathione, to attenuate
lipopolysaccharide
(
LPS
)-induced white matter injury and hypomyelination in the developing rat brain, an animal model of PVL. Intraperitoneal pretreatment of pregnant female rats with
NAC
(50 mg/kg), 2 hr prior to administration of
LPS
at embryonic day 18 (E18), attenuated the
LPS
-induced expression of inflammatory cytokines such as tumor necrosis factor-alpha, interleukin-1beta, and inducible nitric oxide synthase in fetal rat brains. There were significantly reduced numbers of TUNEL(+) nuclei coimmunostained for platelet-derived growth factor-alphaR(+) [a surface marker for oligodendrocyte progenitor cells (OPCs)] at E20 in the subventricular zone of fetal rat brain in the
NAC
+
LPS
group compared with the untreated
LPS
group. Interestingly, immunostaining for O4 and O1 as markers for late OPCs and immature oligodendrocytes demonstrated fewer O4(+) and O1(+) cells in the
LPS
group compared with the
NAC
+
LPS
and control groups. Consistent with O4(+)/O1(+) cell counts, the expression of myelin proteins such as myelin basic protein, proteolipid protein, and 2'3'-cyclic nucleotide phosphodiesterase, including transcription factors such as MyT1 and Gtx, was less in the
LPS
group at late postnatal days, indicating severe hypomyelination in the developing rat brain when compared with
NAC
+
LPS
and control groups. Collectively, these data support the hypothesis that
NAC
may provide neuroprotection and attenuate the degeneration of OPCs against
LPS
evoked inflammatory response and white matter injury in developing rat brain. Moreover, these data suggest the possible use of
NAC
as a treatment for pregnant women with maternal or placental infection as a means of minimizing the risk of PVL and CP.
...
PMID:N-acetylcysteine prevents endotoxin-induced degeneration of oligodendrocyte progenitors and hypomyelination in developing rat brain. 1538 35
The enzyme heme oxygenase-1 (HO-1) is a cytoprotective and anti-inflammatory protein that degrades heme to produce biliverdin/bilirubin, ferrous iron and carbon monoxide (CO). The anti-inflammatory properties of HO-1 are related to inhibition of adhesion molecule expression and reduction of oxidative stress, while exogenous CO gas treatment decreases the production of inflammatory mediators such as cytokines and nitric oxide (NO). CO-releasing molecules (CO-RMs) are a novel group of substances identified by our group that are capable of modulating physiological functions via the liberation of CO. We aimed in this study to examine the potential anti-inflammatory characteristics of CORM-2 and CORM-3 in an in vitro model of
lipopolysaccharide
(
LPS
)-stimulated murine macrophages. Stimulation of RAW264.7 macrophages with
LPS
resulted in increased expression of inducible NO synthase (iNOS) and production of nitrite. CORM-2 or CORM-3 (10-100 microM) reduced nitrite generation in a concentration-dependent manner but did not affect the protein levels of iNOS. CORM-3 also decreased nitrite levels when added 3 or 6 h after
LPS
exposure. CORM-2 or CORM-3 did not cause any evident cytotoxicity and produced an increase in HO-1 expression and heme oxygenase activity; this effect was completely prevented by the thiol donor
N-acetylcysteine
. CORM-3 also considerably reduced the levels of tumor necrosis factor-alpha, another mediator of the inflammatory response. The inhibitory effects of CORM-2 and CORM-3 were not observed when the inactive compounds, which do not release CO, were coincubated with
LPS
. These results indicate that CO liberated by CORM-2 and CORM-3 significantly suppresses the inflammatory response elicited by
LPS
in cultured macrophages and suggest that CO carriers can be used as an effective strategy to modulate inflammation.
...
PMID:Carbon monoxide-releasing molecules (CO-RMs) attenuate the inflammatory response elicited by lipopolysaccharide in RAW264.7 murine macrophages. 1588 Jan 42
Leukocyte activation and production of inflammatory mediators and reactive oxygen species are important in the pathogenesis of
lipopolysaccharide
(
LPS
)-induced acute lung injury. The present study investigated acute lung hyperinflation, edema, and lung inflammation 4 h after an intratracheal instillation of
LPS
(0.5, 2.5, 5, 10, 50, 100, 500, 1000, and 5000 microg/ml/kg). Effects of budesonide, an inhaled anti-inflammatory corticosteroids, and
N-acetylcysteine
(
NAC
), an antioxidant, were evaluated in Wistar rats receiving either low (2.5 microg/ml/kg) or high (50 microg/ml/kg) concentrations of
LPS
. This study demonstrates that
LPS
in a concentration-dependent pattern induces acute lung hyperinflation measured by excised lung gas volume (25-45% above control), lung injury indicated by increased lung weight (10-60%), and lung inflammation characterized by the infiltration of leukocytes (40-14000%) and neutrophils (80-17000%) and the production of cytokines (up to 2700%) and chemokines (up to 350%) in bronchoalveolar lavage fluid (BALF). Pretreatment with
NAC
partially prevented tumor necrosis factor alpha (TNFalpha) production induced by the low concentration of
LPS
, while pretreatment with budesonide totally prevented the increased production of TNFalpha, interleukin (IL)-1beta, IL-6, and monocyte chemoattractive protein (MCP)-1 after
LPS
challenge at both low and high concentrations. Budesonide failed to prevent BALF levels of macrophage inflammatory protein (MIP)-2 and cytokine-induced neutrophil chemoattractant 1 (GRO/CINC-1) as well as lung hyperinflation induced by both low and high concentrations of
LPS
. Pretreatment with budesonide totally prevented the formation of lung edema at the low concentration of
LPS
and had partial effects on acute lung injury and leukocyte influx at the high concentrations. Thus, our data indicate that therapeutic effects of budesonide and
NAC
are dependent upon the severity of the disease.
...
PMID:Effects of budesonide and N-acetylcysteine on acute lung hyperinflation, inflammation and injury in rats. 1596 33
The antioxidant
N-acetylcysteine
(
NAC
) prevented sepsis-induced diaphragmatic dysfunction. As an indirect antioxidant
NAC
was shown to induce superoxide dismutase (SOD) activity in immune cells from endotoxaemic mice. The aim of this study was to assess whether
NAC
acts as an indirect antioxidant by inducing manganese (Mn)-SOD activity in the diaphragms of endotoxaemic rats, while preventing muscle dysfunction. A controlled study was conducted, in which protein carbonylation, Mn-SOD, catalase, and 3-nitrotyrosine immunoreactivity were detected using immunoblotting and immunohistochemistry in rat diaphragms. Six groups were studied for 24 h after a saline (control) or
lipopolysaccharide
(LPS; 20 mg.kg-1) i.p. injection in the absence and presence of
NAC
pre-treatment (either 1.5 or 3 mmol.kg(-1).24 h-1 for 7 days, oral administration). Diaphragm mitochondrial Mn-SOD activity and respiratory muscle function were also determined. Within 24 h, LPS induced maximal inspiratory pressure reduction, increasing diaphragmatic protein carbonylation and nitration. Pre-treatment with 3 mmol.kg-1
NAC
clearly increased muscle Mn-SOD protein content and activity in both LPS- and saline-injected animals, while reducing protein carbonylation and nitration, and partially preventing the LPS-induced respiratory muscle dysfunction. Data produced from this study indicate that high doses of
N-acetylcysteine
induces manganese superoxide dismutase, as well as preserves its activity, possibly by preventing nitration of critical tyrosine residues of the enzyme.
...
PMID:N-acetylcysteine increases manganese superoxide dismutase activity in septic rat diaphragms. 1631 32
1. Acute lung injury (ALI) or acute respiratory distress syndrome is a serious clinical problem with high mortality.
N-Acetylcysteine
(
NAC
) is an anti-oxidant and a free radical scavenger. It has been reported recently that
NAC
ameliorates organ damage induced by endotoxin (
lipopolysaccharide
; LPS) in conscious rats. The present study was designed to evaluate the effects of
NAC
on LPS-induced ALI and other changes in anaesthetized rats. 2. Sprague-Dawley rats were anaesthetized with pentobarbital (40 mg/kg, i.p.). Endotracheal intubation was performed to provide artificial ventilation. Arterial pressure and heart rate were monitored. The extent of ALI was evaluated with the lung weight (LW)/bodyweight ratio, LW gain, exhaled nitric oxide (NO) and protein concentration in bronchoalveolar lavage (PCBAL). Haematocrit, white blood cells, plasma nitrate/nitrite, methyl guanidine (MG), tumour necrosis factor (TNF)-alpha and interleukin (IL)-1b were measured. Pathological changes in the lung were examined and evaluated. 3. Endotoxaemia was produced by injection of 10 mg/kg, i.v., LPS (Escherichia coli). Animals were randomly divided into three groups. In the vehicle group, rats received an i.v. drip of physiological saline solution (PSS) at a rate of 0.3 mL/h. The LPS group received an i.v. drip of PSS for 1 h, followed by LPS (10 mg/kg by slow blous injection, i.v., over 1-2 min). Rats in the LPS +
NAC
group received
NAC
by i.v. drip at a rate of 150 mg/kg per h (0.3 mL/h) for 60 min starting 10 min before LPS administration (10 mg/kg by slow blous injection, i.v., over 1-2 min). Each group was observed for a period of 6 h. 4.
N-Acetylcysteine
treatment improved the LPS-induced hypotension and leukocytopenia. It also reduced the extent of ALI, as evidenced by reductions in LW changes, exhaled NO, PCBAL and lung pathology. In addition,
NAC
diminished the LPS-induced increases in nitrate/nitrite, MG, TNF-a and IL-1b. 5. In another series of experiments, LPS increased the mortality rate compared with the vehicle group (i.v. drip of PSS at a rate of 0.3 mL/h) during a 6 h observation period.
N-Acetylcysteine
, given 10 min prior to LPS, significantly increased the survival rate. 6. The results of the present study suggest that
NAC
exerts a protective effect on the LPS-induced ALI. The mechanisms of action may be mediated through the reduction of the production of NO, free radicals and pro-inflammatory cytokines.
...
PMID:N-acetylcysteine abrogates acute lung injury induced by endotoxin. 1644 96
This study was carried out to investigate comparatively the frequency of apoptosis in lung epithelial cells after intratracheal instillation of endotoxin [
lipopolysaccharide
(
LPS
)] in rats and the role of tumor necrosis factor alpha (TNF-alpha) on apoptosis, and the effects of erdosteine and
N-acetylcysteine
on the regulation of apoptosis. Female Wistar rats were given oral erdosteine (10-500 mg kg(-1)) or
N-acetylcysteine
(10-500 mg kg(-1)) once a day for 3 consecutive days. Then the rats were intratracheally instilled with
LPS
(5 mg kg(-1)) to induce acute lung injury. The rats were killed at 24 h after
LPS
administration. Lung tissue samples were stained with hematoxylin-eosin for histopathological assessments. The apoptosis level in the lung bronchial and bronchiolar epithelium was determined using the TUNEL (terminal deoxynucleotidyl transferase-mediated dUTP nick endlabelling) method. Cytoplasmic TNF-alpha was evaluated by immunohistochemistry. Pretreatment with erdosteine and pretreatment with
N-acetylcysteine
at a dose of 10 mg kg(-1) had no protective effect on
LPS
-induced lung injury. When the doses of drugs increased, the severity of the lung damage caused by
LPS
decreased. It was found that as the pretreatment dose of erdosteine was increased, the rate of apoptosis induced by
LPS
in lung epithelial cells decreased and this decrease was statistically significant in doses of 300 mg kg(-1) and 500 mg kg(-1). Pretreatment with
N-acetylcysteine
up to a dose of 500 mg kg(-1) did not show any significant effect on apoptosis regulation. It was noticed that both antioxidants had no significant effect on the local production level of TNF-alpha. These findings suggest that erdosteine could be a possible therapeutic agent for acute lethal lung injury and its mortality.
...
PMID:Comparison of the effects of erdosteine and N-acetylcysteine on apoptosis regulation in endotoxin-induced acute lung injury. 1648 78
The aim of this study was to elucidate the time course of the permeability response of endothelial monolayers after exposure to plasma obtained from
lipopolysaccharide
(
LPS
)-treated human whole blood; to investigate the role of apoptosis in monolayer permeability, and to inhibit the permeability increase, particularly after addition of the plasma stimulus. Human umbilical vein endothelial cells (HUVEC) were cultured on semiporous membranes and the permeability for albumin was measured after exposure, according to different schedules, to
LPS
-conditioned plasma. Apoptotic HUVEC were measured by both flow cytometry and ELISA. A variety of agents, including antibodies against cytokines, inhibitors of NF-kappaB, and a caspase inhibitor, were added to HUVEC, either prior to or after the stimulus. A maximum increase of the permeability was achieved after 4-6 h of exposure to
LPS
-conditioned plasma. This response was not accompanied by an increase in the number of apoptotic HUVEC. Administration of antibodies against both Tumour Necrosis Factor-alpha (TNF-alpha) and Interleukin-1beta (IL-1beta) to HUVEC within 1 h after stimulation significantly reduced the permeability increase. Similarly, pyrollidine di-thiocarbamate (PDTC), but not
N-acetylcysteine
, could prevent the permeability response, and was still effective when added within 2 h after
LPS
-conditioned plasma. The TNF-alpha/IL-1beta signal present in
LPS
-conditioned plasma appears to increase endothelial permeability through intracellular pathways that very likely involve the activation of NF-kappaB. Although poststimulatory inhibition of the permeability response proves to be possible with agents such as PDTC, the window of opportunity appears very small if placed in a clinical perspective.
...
PMID:Modulation of endothelial monolayer permeability induced by plasma obtained from lipopolysaccharide-stimulated whole blood. 1663 11
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