Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10145 (IL-8)
 23,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histone chaperones assemble and disassemble nucleosomes in an ATP-independent manner and thus regulate the most fundamental step in the alteration of chromatin structure. The molecular mechanisms underlying histone chaperone activity remain unclear. To gain insights into these mechanisms, we solved the crystal structure of the functional domain of SET/TAF-Ibeta/INHAT at a resolution of 2.3 A. We found that SET/TAF-Ibeta/INHAT formed a dimer that assumed a "headphone"-like structure. Each subunit of the SET/TAF-Ibeta/INHAT dimer consisted of an N terminus, a backbone helix, and an "earmuff" domain. It resembles the structure of the related protein NAP-1. Comparison of the crystal structures of SET/TAF-Ibeta/INHAT and NAP-1 revealed that the two proteins were folded similarly except for an inserted helix. However, their backbone helices were shaped differently, and the relative dispositions of the backbone helix and the earmuff domain between the two proteins differed by approximately 40 degrees . Our biochemical analyses of mutants revealed that the region of SET/TAF-Ibeta/INHAT that is engaged in histone chaperone activity is the bottom surface of the earmuff domain, because this surface bound both core histones and double-stranded DNA. This overlap or closeness of the activity surface and the binding surfaces suggests that the specific association among SET/TAF-Ibeta/INHAT, core histones, and double-stranded DNA is requisite for histone chaperone activity. These findings provide insights into the possible mechanisms by which histone chaperones assemble and disassemble nucleosome structures.
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PMID:Relationship between the structure of SET/TAF-Ibeta/INHAT and its histone chaperone activity. 1736 May 16

PTM (post-translational modification) is the chemical modification of a protein after its translation. The well-studied PTM is phosphorylation, but, recently, PTMs have been re-focused by extensive studies on histone modifications and the discovery of the ubiquitin system. Histone acetylation is the well-established epigenetic regulator for gene expression. Recent studies show that different patterns of PTMs and cross-talk of individual modifications (acetylation, methylation, phosphorylation) are keys of gene regulation (known as the 'histone code'). As well as histone, non-histone proteins are also targets of acetylation. For instance, NF-kappaB (nuclear factor kappaB), a transcriptional factor, is regulated dynamically by acetylation/deacetylation. Acetylation of NF-kappaB [RelA (p65)] at Lys(310) enhances its transcriptional activity, which is inhibited by SIRT1 deacetylase, type III HDAC (histone deacetylase). We also found that acetylated NF-kappaB preferentially bound to the IL-8 (interleukin 8) gene promoter, but not to GM-CSF (granulocyte/macrophage colony-stimulating factor), suggesting NF-kappaB acetylation is involved in selective gene induction as well as an increased level of transcription. A receptor of glucocorticoid, a potent anti-inflammatory agent, is also a target of acetylation. The glucocorticoid receptor is highly acetylated after ligand binding but its deacetylation is necessary for gene repression through binding to NF-kappaB. As well as acetylation, other PTMs, such as nitration, carbonylation and ubiquitination on transcriptional/nuclear factors, are taking part in the inflammatory process. Cross-talk of individual modifications on proteins deserves further evaluation in the future (as 'protein code').
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PMID:Impact of post-translational modifications of proteins on the inflammatory process. 1737 Dec 60

There is accumulating evidence that the transrepressional effect of glucocorticoids in down-regulating proinflammatory gene expression might be regulated by an action on histone acetylation. To investigate this, we studied the effect of two glucocorticoids (dexamethasone and triamcinolone acetonide) on reducing lipopolysaccharide (LPS)- and tumour necrosis factor (TNF)-alpha-induced interleukin (IL)-8 release in a monocytic cell line and two lymphocytic cell lines (HUT-78 and Jurkat). The effect of the histone deacetylase inhibitor trichostatin A (TSA) on LPS- and TNF-alpha-induced IL-8 release and its repression by glucocorticoids was also examined. LPS and TNF-alpha induced IL-8 release in all three cell lines and this induction was inhibited by both dexamethasone and triamcinolone. Pretreatment of cells with TSA enhanced basal and LPS- and TNFalpha-stimulated IL-8 release in all three cell lines. TSA also attenuated the inhibitory effect of glucocorticoids on stimulated IL-8 release. Chromatin immunoprecipitation assays confirmed that LPS and TNF-alpha enhanced histone acetylation at the IL-8 promoter and that this was inhibited by triamcinolone in all three cell types. Changes in histone acetylation at the IL-8 are important in its regulation by proinflammatory and anti-inflammatory agents, and modulation of this activity may have therapeutic potential in inflammatory conditions.
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PMID:Suppression of lipopolysaccharide- and tumour necrosis factor-alpha-induced interleukin (IL)-8 expression by glucocorticoids involves changes in IL-8 promoter acetylation. 1771 87

Atherosclerosis is an inflammatory disease that preferentially forms at hemodynamically compromised regions of altered shear stress patterns. Endothelial cells (EC) and smooth muscle cells (SMC) undergo phenotypic modulation during atherosclerosis. An in vitro coculture model was developed to determine the role of hemodynamic regulation of EC and SMC phenotypes in coculture. Human ECs and SMCs were plated on a synthetic elastic lamina and human-derived atheroprone, and atheroprotective shear stresses were imposed on ECs. Atheroprone flow decreased genes associated with differentiated ECs (endothelial nitric oxide synthase, Tie2, and Kruppel-like factor 2) and SMCs (smooth muscle alpha-actin and myocardin) and induced a proinflammatory phenotype in ECs and SMCs (VCAM-1, IL-8, and monocyte chemoattractant protein-1). Atheroprone flow-induced changes in SMC differentiation markers were regulated at the chromatin level, as indicated by decreased serum response factor (SRF) binding to the smooth muscle alpha-actin-CC(a/T)(6)GG (CArG) promoter region and decreased histone H(4) acetylation. Conversely, SRF and histone H(4) acetylation were enriched at the c-fos promoter in SMCs. In the presence of atheroprotective shear stresses, ECs aligned with the direction of flow and SMCs aligned more perpendicular to flow, similar to in vivo vessel organization. These results provide a novel mechanism whereby modulation of the EC phenotype by hemodynamic shear stresses, atheroprone or atheroprotective, play a critical role in mechanical-transcriptional coupling and regulation of the SMC phenotype.
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PMID:Atherosclerosis-prone hemodynamics differentially regulates endothelial and smooth muscle cell phenotypes and promotes pro-inflammatory priming. 1791 48

A unique feature of the germ cell lineage is the generation of totipotency. A critical event in this context is DNA demethylation and the erasure of parental imprints in mouse primordial germ cells (PGCs) on embryonic day 11.5 (E11.5) after they enter into the developing gonads. Little is yet known about the mechanism involved, except that it is apparently an active process. We have examined the associated changes in the chromatin to gain further insights into this reprogramming event. Here we show that the chromatin changes occur in two steps. The first changes in nascent PGCs at E8.5 establish a distinctive chromatin signature that is reminiscent of pluripotency. Next, when PGCs are residing in the gonads, major changes occur in nuclear architecture accompanied by an extensive erasure of several histone modifications and exchange of histone variants. Furthermore, the histone chaperones HIRA and NAP-1 (NAP111), which are implicated in histone exchange, accumulate in PGC nuclei undergoing reprogramming. We therefore suggest that the mechanism of histone replacement is critical for these chromatin rearrangements to occur. The marked chromatin changes are intimately linked with genome-wide DNA demethylation. On the basis of the timing of the observed events, we propose that if DNA demethylation entails a DNA repair-based mechanism, the evident histone replacement would represent a repair-induced response event rather than being a prerequisite.
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PMID:Chromatin dynamics during epigenetic reprogramming in the mouse germ line. 1835 97

Neutrophilic inflammation in acute exacerbations of asthma tends to be resistant to treatment with glucocorticoids. This may be related to decreased activity and expression of histone deacetylase-2 (HDAC2), which down-regulates expression of proinflammatory genes via recruitment to the glucocorticoid receptor complex. We assessed airway inflammation and response to steroid treatment in a novel mouse model of an acute exacerbation of chronic asthma. Systemically sensitized mice received low-level challenge with aerosolized ovalbumin for 4 weeks, followed by a single moderate-level challenge to induce enhanced inflammation in distal airways. We assessed the effects of pre-treatment with dexamethasone on the accumulation of inflammatory cells in the airways, airway responsiveness to methacholine, expression and enzymatic activity of nuclear proteins including histone acetyl transferase (HAT) and HDAC2, and levels of transcripts for neutrophil chemoattractant and survival cytokines. Dexamethasone suppressed inflammation associated with eosinophil and T-lymphocyte recruitment, but did not prevent neutrophil accumulation or development of airway hyperresponsiveness. Increased activity of HAT was suppressed by steroid treatment, but the marked diminution of HDAC2 activity and increased activity of nuclear factor-kappaB were not reversed. Correspondingly, elevated expression of mRNA for TNF-alpha, granulocyte-macrophage colony-stimulating factor, IL-8, and p21(waf) were also not suppressed by dexamethasone. Levels of lipid peroxidation and protein nitration products were elevated in the acute exacerbation model. We conclude that impaired nuclear recruitment of HDAC2 could be an important mechanism of steroid resistance of the neutrophilic inflammation in exacerbations of asthma. Oxidative stress may contribute to decreased HDAC2 activity.
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PMID:Steroid-resistant neutrophilic inflammation in a mouse model of an acute exacerbation of asthma. 1847 69

Legionella pneumophila causes severe pneumonia. Acetylation of histones is thought to be an important regulator of gene transcription, but its impact on L. pneumophila-induced expression of proinflammatory cytokines is unknown. L. pneumophila strain 130b induced the expression of the important chemoattractant IL-8 and genome-wide histone modifications in human lung epithelial A549 cells. We analyzed the IL-8-promoter and found that histone H4 was acetylated and H3 was phosphorylated at Ser(10) and acetylated at Lys(14), followed by transcription factor NF-kappaB. Recruitment of RNA polymerase II to the IL-8 promoter corresponded with increases in gene transcription. Histone modification and IL-8 release were dependent on p38 kinase and NF-kappaB pathways. Legionella-induced IL-8 expression was decreased by histone acetylase (HAT) inhibitor anacardic acid and enhanced by histone deacetylase (HDAC) inhibitor trichostatin A. After Legionella infection, HATs p300 and CREB-binding protein were time-dependently recruited to the IL-8 promoter, whereas HDAC1 and HDAC5 first decreased and later reappeared at the promoter. Legionella specifically induced expression of HDAC5 but not of other HDACs in lung epithelial cells, but knockdown of HDAC1 or 5 did not alter IL-8 release. Furthermore, Legionella-induced cytokine release, promoter-specific histone modifications, and RNA polymerase II recruitment were reduced in infection with flagellin-deletion mutants. Legionella-induced histone modification as well as HAT-/HDAC-dependent IL-8 release could also be shown in primary lung epithelial cells. In summary, histone acetylation seems to be important for the regulation of proinflammatory gene expression in L. pneumophila infected lung epithelial cells. These pathways may contribute to the host response in Legionnaires' disease.
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PMID:Histone acetylation and flagellin are essential for Legionella pneumophila-induced cytokine expression. 1860 45

Dysregulated inflammation has been implicated in cystic fibrosis (CF) airway pathophysiology. The expression of inflammatory genes, like interleukin 8 (IL8), involves chromatin remodeling through histone acetylation. Inflammatory gene hyperacetylation could explain inflammatory mediator dysregulation seen in CF airways. CF airways are exposed to high levels of oxidative stress, and oxidative stress increases histone acetylation and inflammatory gene transcription. Loss of cystic fibrosis transmembrane conductance regulator (CFTR) may even reduce protection against oxidative stress. Consequently, increasing oxidative stress would likely lead to an imbalance of histone acetyl-transferase (HAT) and deacetylase (HDAC) stoichiometry and contribute to the heightened inflammatory response seen in the CF airway. We hypothesize that oxidative stress in CF airways causes increased acetylation of inflammatory gene promoters, contributing to transcriptional activity of these loci. Messenger RNA levels of IL8, IL6, CXCL1, CXCL2, CXCL3, and IL1 are significantly elevated in CF epithelial cell models. Histone H4 acetylation is lower at the IL8 promoter of the non-CF cell lines than the CF models. The reducing agent N-acetyl-cysteine decreases IL8 message and promoter H4 acetylation to non-CF levels, suggesting that oxidative stress contributes to IL8 expression in these models. H(2)O(2) treatment causes increased IL-8 acetylation and mRNA in all cells, but less in the CF-model cells. Together these data suggest a model in which cells without functional CFTR are under increased oxidative stress. Our data suggest intrinsic alterations in the HAT/HDAC balance in CFTR-deficient cells, and that oxidative stress contributes to this alteration.
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PMID:Oxidative stress causes IL8 promoter hyperacetylation in cystic fibrosis airway cell models. 1863 16

We have reported recently that the chemokine interleukin 8 (IL-8)/CXCL8 was overexpressed in invasive estrogen receptor (ERalpha)-negative breast cancer cells compared with ERalpha-positive breast cancer cells. We now demonstrate that histone deacetylases (HDACs) play an essential role in the regulation of IL-8 gene expression in ERalpha-positive MCF-7 breast cancer cells. Treatment of MCF-7 cells with the HDAC inhibitor trichostatin A (TSA) led to a strong up-regulation of IL-8 protein and RNA levels in MCF-7 cells. The up-regulation of IL-8 in MCF-7 cells was time- and concentration-dependent. Moreover, run-on and transfection experiments demonstrated that IL-8 induction by HDAC inhibitors was transcriptional and involved mainly the nuclear factor-kappaB (NF-kappaB) site of the IL-8 promoter. These observations are corroborated by an up-regulation of NF-kappaB activity in MCF-7 cells in the presence of TSA. In addition, blocking NF-kappaB pathway by adenoviral delivery of a dominant-negative IkappaBorIkappaB kinase complex 2 (IKK2) mutant abolished IL-8 gene induction by histone deacetylase inhibitors. HDAC inhibitors triggered IKK phosphorylation and up-regulated p65 nuclear translocation, although they decreased the protein levels of IkappaBalpha, which accounts for NF-kappaB activation. TSA increased binding of acetylated histone 3 to the IL-8 gene promoter. In summary, our results demonstrate that NF-kappaB pathway repression by HDAC is responsible for the low expression of IL-8 in ERalpha-positive breast cancer cells.
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PMID:Interleukin-8 expression is regulated by histone deacetylases through the nuclear factor-kappaB pathway in breast cancer. 1866 46

The purpose of this study is to evaluate blood cytokines and immunological parameters in psoriatic patients during long-term treatment with Etanercept. Forty-five subjects of both sexes affected by psoriasis with or without arthritis entered the study and were treated with Etanercept according to international standard protocols. Biochemical blood analysis was carried out at baseline and during follow-up every second month. In particular, the following parameters were kept under control: antinuclear antibodies, anti-nDNA antibodies, anti-histone antibodies, blood cell count, circulating lymphocyte subtypes (CD3, CD4, CD8, CD16, CD19) and IgE. Cytokine profiles (IL-1-alpha, IL-1-beta, IL-6, IL-8, IL-10, IL-12, INF, TNF-alpha) were also evaluated in blood samples during the treatment up to 1 year of follow-up. A significant decrease in PASI score (p < 0.01) and in several cytokine levels was observed, particularly in IL-1, IL-6, IFN-gamma (p < 0.01) and to a lesser extent in TNF-alpha (p < 0.05). No statistically significant changes were recorded after 1 year of follow-up in blood immunological parameters, in particular in ANA titre, CD4/CD8 ratio, IgE levels, CD16, CD19 and eosinophils count. In conclusion, long-term treatment with Etanercept leads not only to a significant improvement in PASI score, but also to significant changes (reduction) in several proinflammatory and modulatory cytokines involved in the pathogenesis of the disease; on the other hand, there are no effects on immunological or bioumoral parameters showing that etanercept modulates rather than suppresses the physiological responses during psoriasis treatment.
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PMID:Serum cytokines and bioumoral immunological characterization of psoriatic patients in long term etanercept treatment. 1883 32


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