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)

The liver is a target for bacterial lipopolysaccharide (LPS) and participates in the metabolic response to endotoxemia. Recently published evidence indicates that LPS increases the expression of mitochondrial uncoupling protein-2 (UCP-2) mRNAs in several tissues, including the liver. Because hepatocytes in the healthy liver do not express UCP-2, LPS was thought to induce UCP-2 in liver macrophages, which express UCP-2 constitutively. However, the present studies of cultured peritoneal macrophages indicate that LPS reduces steady state levels of UCP-2 mRNAs in these cells. In contrast, UCP-2 mRNAs are induced in hepatocytes isolated from LPS treated rats and transfection of these hepatocytes with UCP-2 promoter-reporter constructs demonstrates substantial increases in UCP-2 promoter activity. LPS induction of hepatocyte UCP-2 expression is virtually abolished by prior treatment of rats with neutralizing antibodies to tumor necrosis factor alpha (TNF). Futhermore, TNFalpha treatment induces UCP-2 mRNA accumulation in primary cultures of hepatocytes from healthy rats. Thus, hepatocytes are likely to be important contributors to endotoxin-related increases in liver UCP-2 via a mechanism that involves the LPS-inducible cytokine, TNFalpha.
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PMID:Bacterial lipopolysaccharide induces uncoupling protein-2 expression in hepatocytes by a tumor necrosis factor-alpha-dependent mechanism. 979 Sep 53

Linking tissue uncoupling protein (UCP) homolog abundance with functional metabolic outcomes and with expression of putative genetic regulators promises to better clarify UCP homolog physiological function. A murine endotoxemia model characterized by marked alterations in thermoregulation was employed to examine the association between heat production, UCP homolog expression, and mitochondrial proton leak ("uncoupling"). After intraperitoneal lipopolysaccharide (LPS, approximately 6 mg/kg) injection, colonic temperature (T(c)) in adult female C57BL6/J mice dropped to a nadir of approximately 30 degrees C by 8 h, preceded by a four- to fivefold drop in liver UCP2 and UCP5/brain mitochondrial carrier protein 1 mRNA levels, with no change in their hindlimb skeletal muscle (SKM) expression. SKM UCP3 mRNA rose fivefold during development of hypothermia and was correlated with an LPS-induced increase in plasma free fatty acid concentration. UCP2 and UCP5 transcripts recovered about three- to sixfold in both tissues starting at 6-8 h, preceding a recovery of T(c) between 16 and 24 h. SKM UCP3 followed an opposite pattern. Such results are not consistent with an important influence of UCP3 in driving heat production but do not preclude a role for UCP2 or UCP5 in this process. The transcription coactivator PGC-1 displayed a transient LPS-evoked rise (threefold) or drop (two- to fivefold) in SKM and liver expression, respectively. No differences between control and LPS-treated mouse liver or SKM in vitro mitochondrial proton leak were evident at time points corresponding to large differences in UCP homolog expression.
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PMID:Impact of endotoxin on UCP homolog mRNA abundance, thermoregulation, and mitochondrial proton leak kinetics. 1091 45

In order to understand the role of brain localized uncoupling proteins, we have examined the UCP2 and BMCP-1 gene expression in mice brain in two different catabolic states: administration of lipopolysaccharide (LPS) (2.5 mg/kg, i.p.) and tumour burden. Administration of LPS resulted in an increased UCP2 gene expression both in brain (208%) and cerebellum (77%). An increase in UCP2 gene expression was also observed after LPS treatment in double knockout mice for tumour necrosis factor-alpha (TNF) receptors 1 and 2 (75% in brain and 33% in cerebellum). Tumour growth also resulted in increased brain UCP2 gene expression (80%) in mice bearing the Lewis lung carcinoma as compared with the non-tumour-bearing controls. No changes were observed in BMCP-1 mRNA levels of either LPS-injected or tumour-bearing mice. From the results presented it may be suggested that: (a) the brain may contribute significantly to the increase in energy expenditure associated with hypermetabolic states such as fever and tumour burden, and (b) the regulation of UCP2 gene expression in brain does not seem to be influenced by TNF; therefore the action of other cytokines cannot be discarded.
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PMID:Increased uncoupling protein-2 gene expression in brain of lipopolysaccharide-injected mice: role of tumour necrosis factor-alpha? 1134 72

Dendritic cells (DCs) are professional antigen-presenting cells of the immune system and can be generated in vitro from bone-marrow cells. In this study, we systematically investigated by DNA array analysis the expression profiles of 514 immunologically relevant genes in two populations of mouse bone marrow-derived DC, immature (DC(IMAT)), and lipopolysaccharide (LPS)-stimulated mature (DC(MAT)) DCs. Our data showed that DC(IMAT) expressed transcripts for 69 (13.42% of the 514) of these genes and that, upon maturation, 32 (6.23%) of these were up-regulated and 40 (7.78%) down-regulated. Maturation-dependent up-regulation, defined by a differential expression (DE) ratio of >2, was observed among five cytokine (Flt-3L, TNF-alpha, IL-1alpha and -1beta, and IL-6), three chemokine (RANTES, MIP-2 and GROa) and three other (iNOS, MMP-13, and STRAP) genes. Reciprocally, maturation-dependent down-regulation occurred with one cytokine (IGF-1), two chemokine receptor (CCR2 and CCR5), and three other (RP105, Ax1, and UCP2) genes. Lower level, but nevertheless significantly enhanced expression of the chemokine receptor CCR7 and of NF-kappaB was also observed upon DC maturation. This DC maturation profile confirms previous findings from other lab, but it also substantially broadens our view of these cells by documenting expression changes among genes (e.g., IGF-1, MMP-13, STRAP) not reported previously in these cells.
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PMID:Analysis of the gene expression profiles of immature versus mature bone marrow-derived dendritic cells using DNA arrays. 1177 34

The expression of uncoupling protein 2 (UCP2) was reduced in macrophages after stimulation with lipopolysaccharide (LPS). The physiological consequence and the regulatory mechanisms of the UCP2 down-regulation by LPS were investigated in a macrophage cell line, RAW264 cells. UCP2 overexpression in RAW264 cells transfected with eukaryotic expression vector containing ucp2 cDNA markedly reduced the production of intracellular reactive oxygen species. Furthermore, in the UCP2 transfectant, nitric oxide (NO) synthesis, inducible NO synthase (NOS II) protein, NOS II mRNA, and NOS II promoter activity were definitely decreased after LPS stimulation compared with those in parental RAW264 or RAW264 cells transfected with the vector alone. Reporter assays suggested that an enhancer element was located in the region of intron 2 of the UCP2 gene and that the UCP2 expression was down-regulated not by the 7.3-kb promoter region but by the 5' region of the UCP2 gene containing two introns. Deletion of intron 2 resulted in the low transcriptional activities and abolishment of the LPS-associated negative regulation. In addition, the mRNA expression of transfected UCP2 was suppressed in RAW264 cells transfected with expression vector containing UCP2 genomic DNA, but was markedly increased in cells transfected with the vector containing UCP2 intronless cDNA. These findings suggest that the LPS-stimulated signals suppress UCP2 expression by interrupting the function of intronic enhancer, leading to an up-regulation of intracellular reactive oxygen species, which activate the signal transduction cascade of NOS II expression, probably to ensure rapid and sufficient cellular responses to a microbial attack.
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PMID:Uncoupling protein 2 plays an important role in nitric oxide production of lipopolysaccharide-stimulated macrophages. 1208 32

Rat liver mitochondria contain a negligible amount of mitochondrial uncoupling protein UCP2 as indicated by 3H-GTP binding. UCP2 recruitment in hepatocytes during infection may serve to decrease mitochondrial production of reactive oxygen species (ROS), and this, in turn, would counterbalance the increased oxidative stress. To characterize in detail UCP2 recruitment in hepatocytes, we studied rats pretreated with lipopolysaccharide (LPS) or hepatocytes isolated from them, as an in vitro model for the systemic response to bacterial infection. LPS injection resulted in 3.3- or 3-fold increase of UCP2 mRNA in rat liver and hepatocytes, respectively, as detected by real-time RT-PCR on a LightCycler. A concomitant increase in UCP2 protein content was indicated either by Western blots or was quantified by up to three-fold increase in the number of 3H-GTP binding sites in mitochondria of LPS-stimulated rats. Moreover, H2O2 production was increased by GDP only in mitochondria of LPS-stimulated rats with or without fatty acids and carboxyatractyloside. When monitored by JC1 fluorescent probe in situ mitochondria of hepatocytes from LPS-stimulated rats exhibited lower membrane potential than mitochondria of unstimulated rats. We have demonstrated that the lower membrane potential does not result from apoptosis initiation. However, due to a small extent of potential decrease upon UCP2 recruitment, justified also by theoretical calculations, we conclude that the recruited UCP2 causes only a weak uncoupling which is able to decrease mitochondrial ROS production but not produce enough heat for thermogenesis participating in a febrile response.
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PMID:Recruitment of mitochondrial uncoupling protein UCP2 after lipopolysaccharide induction. 1569 40

One of the phenotypes of mice with targeted disruption of the uncoupling protein-2 gene (Ucp2-/-) is greater macrophage phagocytic activity and free radical production, resulting in a striking resistance to infectious microorganisms. In this study, the molecular mechanisms of this enhanced immune response were investigated. We found that levels of nitric oxide measured in either plasma or isolated macrophages from Ucp2-/- mice are significantly elevated in response to bacterial lipopolysaccharide challenge compared with similarly treated Ucp2+/+ mice. Likewise, expression of inducible nitric-oxide synthase and inflammatory cytokines is higher in Ucp2-/- mice in vivo and in vitro. Key steps in the activation cascade of nuclear factor (NF)-kappa B, including I kappa B kinase and nuclear translocation of NF-kappa B subunits, are all remarkably enhanced in Ucp2-/- mice, most notably even under basal conditions. The elevated basal activity of I kappa B kinase in macrophages from Ucp2-/- mice can be blocked by cell-permeable inhibitors of superoxide and hydrogen peroxide generation, but not by a specific inhibitor for inducible nitric-oxide synthase. Isolated mitochondria from Ucp2-/- cells produced more superoxide/hydrogen peroxide. We conclude that mitochrondrially derived reactive oxygen from Ucp2-/- cells constitutively activates NF-kappa B, resulting in a "primed" state to both potentiate and amplify the inflammatory response upon subsequent stimulation.
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PMID:Persistent nuclear factor-kappa B activation in Ucp2-/- mice leads to enhanced nitric oxide and inflammatory cytokine production. 1575 94

Liver genes related to phase I and phase II detoxification, as well as inhibition of reactive oxygen species (ROS) production, were cloned, and their response to microcystin-LR (MC-LR) and lipopolysaccharide (LPS) exposure via intraperitoneal injection, was determined in a phytoplanktivorous fish, Nile tilapia (Oreochromis niloticus). The cloned full-length cDNA of tilapia soluble glutathione S-transferase (sGST) was classified as alpha-class GST based on their amino acid sequence identity with other species. The tilapia sGST clone was 861 bp in length, and contained a 25 bp 5'-UTR, a 167 bp 3'-UTR and an open reading frame of 669 bp, encoding a polypeptide of 222 amino acids. Using genome walker method, a 366 bp 5'-flanking sequence of tilapia sGST gene was further obtained, and the possible regulatory elements were identified. Partial cDNA sequences of glutathione peroxidase (GPX) and uncoupling protein 2 (UCP2) were also obtained by PCR using degenerate primers from tilapia liver. To study the transcriptional response of liver genes to microcystin treatment, tilapia were respectively exposed to a single 50 microg kg(-1) body weight (bwt) dose of pure MC-LR, a single 2 mg kg(-1) bwt dose of LPS and a co-exposure MC-LR and LPS (50 microg kg(-1) bwt+2 mg kg(-1) bwt), and were then sacrificed at 24 h post-exposure. Using beta-actin as external control, a significant increase (about 80%) in sGST mRNA expression was found in response to the MC-LR exposure after 24 h (P < 0.05), indicating the importance of sGST in microcystin detoxification. A slight decrease of sGST mRNA expression was observed in the liver of tilapia, exposed to LPS and MC-LR+LPS. It seems that the LPS response element (LPSRE), identified in the promoter region of tilapia sGST gene, may be functional at a rather low level. In contrast, the levels of cytochrome P450 1A (CYP1A) mRNA expression were found to keep unchanged to either MC-LR, or LPS, or MC-LR+LPS treatment, indicating that unlike the phase II enzyme (sGST), the phase I enzyme (CYP1A) might not play an important role in the detoxification process of microcystins. Although not significant, the mRNA expression level of GPX tended to increase in the liver of tilapia exposed to both MC-LR and LPS (P > 0.05). In addition, a significant increase in UCP2 mRNA expression was observed in the liver of tilapia exposed to LPS (P < 0.05), as well as an obvious but not significant increase in MC-LR exposure group. We suggest that phase II detoxification enzyme, instead of phase I detoxification enzyme, might be responsible for the strong tolerance of the phytoplanktivorous fish to microcystins, and hepatocyte proteins coping with oxidative stress (GPX and UCP2), might also have some auxiliary effect. In addition, the rather low and insignificant response of tilapia sGST gene to the inhibitory effect of LPS exposure, might possibly be critical to the phytoplanktivorous fish to utilize toxic blue-green algae.
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PMID:Structural and functional characterization of microcystin detoxification-related liver genes in a phytoplanktivorous fish, Nile tilapia (Oreochromis niloticus). 1704 49

The mitochondrion is a major organelle contributing to energy metabolism but also a main site of ROS (reactive oxygen species) production. LPS (lipopolysaccharide)-induced ROS signalling is a critical event in macrophage activation. In the present paper we report that part of LPS-mediated ROS signalling comes from mitochondria inside a signal amplification loop that enhances MAPK (mitogen-activated protein kinase) activation. More precisely, we have identified the inner mitochondrial membrane UCP2 (uncoupling protein 2) as a physiological brake on ROS signalling. Stimulation of murine bone marrow-derived macrophages by LPS quickly down-regulated UCP2 through the JNK (c-Jun N-terminal kinase) and p38 pathways. UCP2 down-regulation was shown to be necessary to increase mitochondrial ROS production in order to potentiate MAPK activation. Consistent with this, UCP2-deficient macrophages exhibit an enhanced inflammatory state characterized by increased nitric oxide production and elevated migration ability. Additionally, we found that the absence of UCP2 renders macrophages more resistant to nitric oxide-induced apoptosis.
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PMID:Mitochondria contribute to LPS-induced MAPK activation via uncoupling protein UCP2 in macrophages. 1707 24

We created an inflammation-induced Parkinson's disease model, where microglia activation leads to oxidative stress, mitochondrial dysfunction, and dopaminergic neurodegeneration in the substantia nigra. Pioglitazone, an agonist of peroxisome proliferator activated receptor-gamma (PPAR-gamma), can prevent these deficits and protect dopaminergic neurons. To continue exploring the effects of pioglitazone in this model we focused on the expression of PPAR-gamma, uncoupling protein 2 (UCP2), and mitoNEET. We report that intrastriatal lipopolysaccharide (LPS) increases striatal PPAR-gamma, UCP2, and mitoNEET expression, and pioglitazone attenuates these LPS-induced changes.
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PMID:Protective properties afforded by pioglitazone against intrastriatal LPS in Sprague-Dawley rats. 1820 23


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