UNIPROT:P10145 - FACTA Search

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Query: UNIPROT:P10145 (IL-8)
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Cachexia is a progressive wasting syndrome characterized by extensive loss of adipose tissue and skeletal muscle. It occurs in about half of all cancer patients. While anorexia also may be present, the energy deficit alone does not explain the pathogenesis of cachexia. The presence of an acute phase response (APR) has been linked to accelerated weight loss and a shortened survival time. The APR is thought to be initiated by cytokines such as interleukin (IL)-6 and IL-8, production of which is induced by a tumor factor, proteolysis inducing factor (PIF). Cachectic cancer patients also show an increased expression of uncoupling protein-3 in muscle, which may act as an energy sink, increasing energy expenditure. Loss of adipose tissue appears to be due to an increase in degradation of triglycerides, rather than a decrease in synthesis. One candidate for this effect is a tumor lipid mobilizing factor, which stimulates lipolysis directly through a cyclic AMP-mediated process via interaction with a beta3-adrenergic receptor. Loss of skeletal muscle arises from both a depression in protein synthesis and an increase in protein degradation. The major proteolytic pathway involved in intracellular protein breakdown in cachectic muscle is the ATP-ubiquitin-dependent proteolytic pathway. Both PIF and tumor necrosis factor-alpha, but not other cytokines, can induce expression of the key regulatory components of this pathway. Eicosapentaenoic acid, found in oily fish, effectively attenuates protein degradation in cachectic muscle by inhibiting the increased proteasome expression and can stabilize body weight in cachectic cancer patients.
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PMID:Pathogenesis of cancer cachexia. 1533 72

ATP and ADP activate functionally distinct G protein-coupled purinergic (P2Y) receptors. We determined the expression and function of adenine nucleotide-specific P2Y receptors on cord blood-derived human mast cells (hMCs). Human MCs expressed mRNA encoding the ADP-specific P2Y1, P2Y12, and P2Y13 receptors; the ATP/UTP-specific P2Y2 receptor; and the ATP-selective P2Y11 receptor. ADP (0.05-50 muM) induced calcium flux that was completely blocked by a P2Y1 receptor-selective antagonist and was not cross-desensitized by ATP. Low doses of ADP induced strong phosphorylation of ERK and p38 MAPKs; higher doses stimulated eicosanoid production and exocytosis. Although MAPK phosphorylation was blocked by a combination of P2Y1- and P2Y12-selective antagonists, neither interfered with secretion responses. Unexpectedly, both ADP and ATP inhibited the generation of TNF-alpha in response to the TLR2 ligand, peptidoglycan, and blocked the production of TNF-alpha, IL-8, and MIP-1beta in response to leukotriene D(4). These effects were mimicked by two ATP analogues, adenosine 5'-O-(3-thiotriphosphate) and 2',3'-O-(4-benzoyl-benzoyl) adenosine 5'-triphosphate (BzATP), but not by adenosine. ADP, ATP, adenosine 5'-O-(3-thiotriphosphate), and 2',3'-O-(4-benzoyl-benzoyl) adenosine 5'-triphosphate each induced cAMP accumulation, stimulated the phosphorylation of CREB, and up-regulated the expression of inducible cAMP early repressor, a CREB-dependent inhibitor of cytokine transcription. Human MCs thus express several ADP-selective P2Y receptors and at least one G(s)-coupled ADP/ATP receptor. Nucleotides could therefore contribute to MC-dependent microvascular leakage in atherosclerosis, tissue injury, and innate immunity while simultaneously limiting the extent of subsequent inflammation by attenuating the generation of inducible cytokines by MCs.
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PMID:Adenine nucleotides inhibit cytokine generation by human mast cells through a Gs-coupled receptor. 1558 81

To uncover factors required for transcription by RNA polymerase II on chromatin, we fractionated a mammalian cell nuclear extract. We identified the histone chaperone TAF-I (also known as INHAT [inhibitor of histone acetyltransferase]), which was previously proposed to repress transcription, as a potent activator of chromatin transcription responsive to the vitamin D3 receptor or to Gal4-VP16. TAF-I associates with chromatin in vitro and can substitute for the related protein NAP-1 in assembling chromatin onto cloned DNA templates in cooperation with the remodeling enzyme ATP-dependent chromatin assembly factor (ACF). The chromatin assembly and transcriptional activation functions are distinct, however, and can be dissociated temporally. Efficient transcription of chromatin assembled with TAF-I still requires the presence of TAF-I during the polymerization reaction. Conversely, TAF-I cannot stimulate transcript elongation when added after the other factors necessary for assembly of a preinitiation complex on naked DNA. Thus, TAF-I is required to facilitate transcription at a step after chromatin assembly but before transcript elongation.
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PMID:The histone chaperone TAF-I/SET/INHAT is required for transcription in vitro of chromatin templates. 1563 79

The p38 MAPK signal transduction pathway is a key regulator of IL-1 and TNF-alpha production in rheumatoid arthritis. Previous studies demonstrated that upstream MAPK kinases (MKK3 and MKK6) that regulate p38 are activated in rheumatoid arthritis synovium. However, their functional relevance in fibroblast-like synoviocytes (FLS) has not been determined. To investigate the relative contribution of MKK3 and MKK6 to p38 activation, the effect of dominant-negative (DN) MKK3 and MKK6 constructs on cultured FLS was evaluated. Cultured FLS were stimulated with medium or IL-1beta, and immunoblotting was performed. In some experiments, cells were lysed and immunoprecipitated with anti-p38 Ab, followed by in vitro kinase assay with [gamma-(32)P]ATP and GST-activating transcription factor-2 as substrate. IL-1beta rapidly induced p38 phosphorylation in cells transfected with empty vector (pcDNA3.1), but was inhibited by 25% in cells expressing DN MKK3 or DN MKK6. Cotransfection with both DN plasmids decreased phospho-p38 by almost 75%. In vitro kinase assays on IL-1-stimulated FLS also showed that the combination of DN MKK3 and DN MKK6 markedly decreased kinase activity compared with empty vector or the individual DN plasmids. Furthermore, IL-1beta-induced IL-8, IL-6, and matrix metalloproteinase-3 protein production was significantly inhibited in DN MKK3/DN MKK6-transfected cells. The constructs had no effect on the respective mediator mRNA levels. These data demonstrate that MKK3 and MKK6 make individual contributions to p38 activation in FLS after cytokine stimulation, but that both must be blocked for maximum inhibition.
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PMID:Regulation of p38 MAPK by MAPK kinases 3 and 6 in fibroblast-like synoviocytes. 1577 94

Periodic arrays of nucleosomes were assembled on heterogeneous DNA using core histones, the histone chaperone NAP-1, and ATP-dependent chromatin assembly and remodeling factor (ACF). The mechanical properties of these complexes were interrogated by stretching them with optical tweezers. Abrupt events releasing approximately 55-95 base-pairs of DNA, attributable to the non-equilibrium unraveling of individual nucleosomes, were frequently observed. This finding is comparable with a previous observation of 72-80 bp unraveling events for nucleosomes assembled by salt dialysis on a repeating sea urchin 5 S RNA positioning element, but the unraveling force varied over a wider range ( approximately 5-65 pN, with the majority of events at lower force). Because ACF assembles nucleosomes uniformly on heterogeneous DNA sequences, as in native chromatin, we attribute this variation to a dependence of the unraveling force on the DNA sequence within individual nucleosomes. The mean force increased from 24 pN to 31 pN as NaCl was decreased from 100 mM to 5 mM. Spontaneous DNA re-wrapping events were occasionally observed in real time during force relaxation. The observed wide variations in the dynamic force needed to unravel individual nucleosomes and the occurrences of sudden DNA re-wrapping events may have an important regulatory influence on DNA-directed nuclear processes, such as the binding of transcription factors and the movement of polymerase complexes on chromatin.
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PMID:Forced unraveling of nucleosomes assembled on heterogeneous DNA using core histones, NAP-1, and ACF. 1600 89

AMP-activated kinase (AMPK) is a ubiquitous metabolic sensor that inhibits the cystic fibrosis (CF) transmembrane conductance regulator (CFTR). To determine whether CFTR reciprocally regulates AMPK function in airway epithelia and whether such regulation is involved in lung inflammation, AMPK localization, expression, and activity and cellular metabolic profiles were compared as a function of CFTR status in CF and non-CF primary human bronchial epithelial (HBE) cells. As compared with non-CF HBE cells, CF cells had greater and more diffuse AMPK staining and had greater AMPK activity than their morphologically matched non-CF counterparts. The cellular [AMP]/[ATP] ratio was higher in undifferentiated than in differentiated non-CF cells, which correlated with AMPK activity under these conditions. However, this nucleotide ratio did not predict AMPK activity in differentiating CF cells. Inhibiting channel activity in non-CF cells did not affect AMPK activity or metabolic status, but expressing functional CFTR in CF cells reduced AMPK activity without affecting cellular [AMP]/[ATP]. Therefore, lack of functional CFTR expression and not loss of channel activity in CF cells appears to up-regulate AMPK activity in CF HBE cells, presumably through non-metabolic effects on upstream regulatory pathways. Compared with wild-type CFTR-expressing immortalized CF bronchial epithelial (CFBE) cells, DeltaF508-CFTR-expressing CFBE cells had greater AMPK activity and greater secretion of tumor necrosis factor-alpha and the interleukins IL-6 and IL-8. Further pharmacologic AMPK activation inhibited inflammatory mediator secretion in both wild type- and DeltaF508-expressing cells, suggesting that AMPK activation in CF airway cells is an adaptive response that reduces inflammation. We propose that therapies to activate AMPK in the CF airway may be beneficial in reducing excessive airway inflammation, a major cause of CF morbidity.
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PMID:Up-regulation of AMP-activated kinase by dysfunctional cystic fibrosis transmembrane conductance regulator in cystic fibrosis airway epithelial cells mitigates excessive inflammation. 1636 6

Adenosine 5'-triphosphate (ATP) affects multiple intra- and extracellular processes, including vascular tone and immune responses. Microvascular endothelial cells (EC) play a central role in inflammation by recruitment of inflammatory cells from blood to tissues. We hypothesized that ATP (secreted by neurons and/or released after perturbation of cutaneous cells) may influence secretion of inflammatory messengers by dermal microvascular EC through actions on purinergic P2 receptors. Addition of the hydrolysis-resistant ATP analogue, adenosine 5'-O-(3-thiotriphosphate) (ATPgammaS), to subconfluent cultures of the human microvascular endothelial cell-1 (HMEC-1) cell line led to a dose- and time-dependent increase in release of IL-6, IL-8, monocyte chemoattractant protein-1, and growth-regulated oncogene alpha. Both ATPgammaS-induced release and basal production of these proteins were significantly inhibited by the purinergic antagonists pyridoxal-5'-phosphate-6-azophenyl-2',5'-disulfonic acid (PPADS), pyridoxal-5'-phosphate-6(2'-naphthylazo-6-nitro-4',8'-disulfonate), and suramin. ATPgammaS increased expression of intercellular adhesion molecule-1 (ICAM-1), whereas suramin and PPADS decreased both ATPgammaS-induced and basal ICAM-1 expression. Using PCR, we found that HMEC-1 strongly express mRNA for the P2X(4), P2X(5), P2X(7), P2Y(2), and P2Y(11) receptors and weakly express mRNA for P2X(1) and P2X(3) receptors. Purinergic nucleotides may mediate acute inflammation in the skin and thus contribute to physiological and pathophysiological inflammation. For example, ATP may contribute to both the vasodilation and the inflammation associated with rosacea.
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PMID:ATPgammaS enhances the production of inflammatory mediators by a human dermal endothelial cell line via purinergic receptor signaling. 1661 9

Inhibition of liver mitochondrial beta-oxidation by pharmaceuticals may lead to safety concerns including mitochondrial dysfunction, lipid accumulation, inflammation and necrosis. In this study, the consequences of mitochondrial beta-oxidation inhibition by pharmaceuticals is investigated in human and rat liver slices. The fatty acid oxidation inhibitors Etomoxir and CPI975, inhibit the rate limiting mitochondrial beta-oxidation enzyme carnitine palmitoyltransferase I, while FOX988 and SDZ51-641, sequester mitochondrial coenzyme A to inhibit carnitine palmitoyltransferase II. Mitochondrial dysfunction was evident by a significant decrease of liver slice ATP levels and mitochondrial injury was verified by ultrastructural changes in morphology, manifested as enlarged mitochondria, C- or O-shaped mitochondria, and granular or crystalline inclusions. Gene expression changes were evident prior to changes in mitochondrial morphology. Time- and concentration dependent changes in mitochondrial genes linked with respiration and mitochondrial fatty acid beta-oxidation were associated with an up-regulation of peroxisome fatty acid oxidation genes, likely as a compensatory mechanism for the inhibition of the mitochondrial pathways. Gene expression changes preceding the decline of liver slice ATP and GSH levels included an up-regulation of stress response and oxidative stress gene expression, as well as genes linked with transcription, transporters, proliferation, cell matrix and signaling. In association with the decline of liver slice ATP and GSH was increased apoptosis and inflammation. Caspase activity, a functional indicator of apoptosis, was significantly increased as well as an up-regulation of genes linked with apoptosis. The increased gene and protein expression of the pro-inflammatory cytokine IL-8, produced by endothelial cells, is likely in response to the manifestation of oxidative stress and GSH depletion; further amplifying the oxidative stress response induced by the fatty acid oxidation inhibitors and triggering an inflammatory response. In summary, human and rat liver slices exhibited similar effects to the inhibitors of mitochondrial beta-oxidation, and the mitochondrial injury is associated with apoptosis and inflammation in the liver slices.
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PMID:Consequences of mitochondrial injury induced by pharmaceutical fatty acid oxidation inhibitors is characterized in human and rat liver slices. 1654 38

The balance between IL-1 and its naturally occurring inhibitor IL-1 receptor antagonist (IL-1ra) is critical in determining the inflammatory response. Four splice variants of the IL-1ra gene have been identified; one secreted (sIL-1ra) and three intracellular (icIL-1ra1-3). The biological roles of the intracellular isoforms remain largely unclear. We wished to determine whether icIL-1ra1 had intracellular functions regulating IL-1 signalling. Signalling was determined using an NF-kappaB reporter assay measuring induction of the IL-8 promoter in transfected cells. Over-expression of icIL-1ra1 in HeLa cells had no effect on IL-1 stimulated IL-8 activity. In contrast over-expression of sIL-ra significantly attenuated IL-1 activity. In addition, transfection of icIL-1ra1 in HeLa cells did not cause inhibition of IL-8 promoter activity following over-expression of the IL-1 signalling components MyD88, IRAK-1, TRAF-6, Ikappakappabeta or RelA. This implies that icIL-1ra1 does not act to alter IL-1 mediated intracellular signalling in this system. We investigated whether ATP and/or over-expression of the P2X7 receptor caused icIL-1ra1 inhibition of IL-1beta mediated IL-8 reporter activation, by permitting its release. In HeLa cells, no effect of icIL-1ra1 was observed in ATP stimulated and/or P2X7 transfected cells, compared to a significant inhibition in sIL-1ra transfected cells. However, in endothelial cells stimulated with ATP, the released fraction was effective in attenuating IL-1beta activation of the IL-8 reporter. These results suggest that icIL-1ra1 does not act at an intracellular level to alter IL-1 mediated signalling, and is effective in inhibiting IL-1 responses only when released in an ATP-dependent and cell type specific manner.
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PMID:Action of intracellular IL-1Ra (Type 1) is independent of the IL-1 intracellular signalling pathway. 1656 2

Neither Pseudomonas aeruginosa nor flagellin affected cytosolic Ca(2+) concentration ([Ca](i)) in airway epithelial cell lines JME and Calu-3, but bacteria or flagellin activated NF-kappaB, IL-8 promoter, and IL-8 secretion. ATP (purinergic agonist) and thapsigargin (blocks Ca(2+) pump, releases endoplasmic reticulum Ca(2+), and triggers Ca(2+) entry through plasma membrane channels) both increased [Ca](i) but hardly stimulated NF-kappaB and IL-8. ATP and thapsigargin elicited larger, synergistic activations of NF-kappaB and IL-8 secretion when combined with flagellin. BAPTA-AM (to buffer [Ca](i)) or Ca(2+)-free solution reduced increases in [Ca](i) due to ATP or thapsigargin and also reduced NF-kappaB activation and IL-8 secretion triggered by flagellin, ATP, thapsigargin, ATP + flagellin, and thapsigargin + flagellin. IL-8 promoter analysis showed that AP-1 and CCAAT/enhancer-binding protein (C/EBP)beta/nuclear factor for IL-6 (NF-IL6) sites were important for IL-8 expression, and the NF-kappaB-binding site was critical for activation by all agonists and for activation by [Ca](i). Thus increased [Ca](i) was not required for P. aeruginosa- or flagellin-activated NF-kappaB and IL-8 expression and secretion, and increased [Ca](i) was only weakly stimulatory during activation by ATP or thapsigargin. However, ATP- or thapsigargin-induced increases in [Ca](i) synergized with flagellin or P. aeruginosa, and buffering or reducing [Ca](i) reduced these responses. Thus [Ca](i) plays an important regulatory role in P. aeruginosa- or flagellin-activated innate immune responses in airway epithelia. Dose-dependent responses indicated that flagellin-ATP synergism occurred most prominently at ATP concentrations ([ATP]) > 10 microM and [flagellin] >10(-8) g/ml and during steady increases rather than oscillations in [Ca](i).
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PMID:Role of Ca2+ in responses of airway epithelia to Pseudomonas aeruginosa, flagellin, ATP, and thapsigargin. 1696 31

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