UNIPROT:P05231 - FACTA Search

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Query: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aromatase cytochrome P450 catalyses the reaction to convert androgens to estrogens by coupling with NADPH-cytochrome P450 reductase in the endoplasmic reticulum. The human aromatase cytochrome P450 gene (CYP19) is expressed in a variety of tissues under regulation of tissue-specific promoters. Previously, we localized a cell-type specific transcriptional enhancer element between -242 and -166 relative to the major cap site of the gene, by transient expression analysis in human BeWo choriocarcinoma cells. In the present study, we demonstrate that the enhancer element consists of two subelements, element I (located between -238 and -200), and element II (located between -196 and -176) as analysed by DNase I footprinting using the nuclear extracts of BeWo cells. The gel mobility shift assay shows that each of these subelements binds specific nuclear factor(s). The transient expression of the bacterial chloramphenicol acetyltransferase gene constructs involving the subelements in BeWo cells reveals that the elements activate reporter gene expression synergistically when present together, nevertheless each of the elements by itself also has an enhancer activity. The transient expression analysis further shows that element I is responsible for the transcriptional synergism with the binding site of a nuclear factor-interleukin-6 (NF-IL-6) (also known as CCAAT enhancer/binding protein beta), which is located between -2141 and -2115 relative to the major cap site of the gene. These results suggest that the enhancer element plays important roles in sustaining the high levels of CYP19 expression in placental cells in cooperation with other cis-acting transcritional regulatory elements.
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PMID:Cooperative regulation of the human aromatase cytochrome P450 gene transcription by placenta-specific cis-acting elements. 936 92

Thrombopoietin (Mpl ligand), interleukin-6 (IL-6), and interleukin-11 (IL-11) differ in their effects on megakaryocyte maturation and development. In the present study, the impact of these thrombocytopoietic cytokines on biochemical and structural granule and membrane components was examined. Western blotting was performed on equivalent amounts of isolated megakaryocyte or platelet protein and the relative intensities of the enhanced chemiluminescent-visualized bands were quantitated by densitometry. Megakaryocyte growth and development factor (MGDF), a recombinant thrombopoietin-related molecule, significantly increased megakaryocyte fibronectin (72%), thrombospondin (55%), von Willebrand factor (28%) and p-selectin (CD62p) (37%) when compared to equivalent amounts of protein from saline-treated controls (p<0.01). Megakaryocyte fibrinogen was not increased. Ultrastructurally, there was a marked increase in ribosomes and rough endoplasmic reticulum even in mature-appearing megakaryocytes. Platelets from MGDF-treated mice showed small increases in fibronectin (8%), and CD62p (18%), but did not show increases in other measured alpha-granule proteins. Neither IL-6 nor IL-11 increased megakaryocyte or platelet alpha-granule proteins over levels observed in saline controls. IL-11 treated megakaryocytes, while also exhibiting an increase in ribosomes, were characterized by prominent cytoplasmic fragmentation. The study demonstrates the impact of Mpl ligand in increasing synthesized megakaryocyte alpha-granule proteins and of IL-11 in promoting megakaryocyte fragmentation.
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PMID:The effects of Mpl-ligand, interleukin-6 and interleukin-11 on megakaryocyte and platelet alpha-granule proteins. 986 69

In the brains of Alzheimer's disease (AD) patients, fibrillar amyloid-beta peptides (Abeta) are markedly accumulated and the microglia associate with the amyloid plaques. However, the regulation of Abeta clearance is still unclear. In the present study, we examined the effect of a chaperone protein BiP/GRP78 on the microglial function. Exogenous addition of recombinant BiP/GRP78 induced the production of cytokines such as interleukin-6 and tumor necrosis factor-alpha, but heat treatment of this protein abolished the activity. Although Abeta(1-42) did not induce cytokine production, it was taken up by the microglia. In addition, the amount of Abeta(1-42) uptake and the number of microglia that phagocytosed Abeta(1-42) were markedly increased by BiP/GRP78. Exogenous BiP/GRP78 also translocated to the endoplasmic reticulum (ER). These results suggest that BiP/GRP78 stimulates Abeta clearance in the microglia, and that dysfunction in the ER may cause the accumulation of extracellular Abeta(1-42).
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PMID:Bip/GRP78-induced production of cytokines and uptake of amyloid-beta(1-42) peptide in microglia. 1117 52

Plasma fibrinogen is synthesized primarily in hepatocytes and assembly of the three component chains (A alpha, B beta, and gamma) into its final form as a six-chain dimer (A alpha, B beta, gamma)2 occurs rapidly in the lumen of the endoplasmic reticulum (ER). Assembly takes place in a stepwise manner with single chains interacting with each other to form A alpha-gamma and B beta-gamma complexes. The two-chain complexes then acquire another chain to form half-molecules (A alpha, B beta, gamma)1, which in a final step are linked to form the six-chain (A alpha, B beta, gamma)2 complex. As with other secreted glycoproteins, N-linked glycosylation of B beta and gamma chains commences in the ER and is completed in Golgi organelles. Sulfation and phosphorylation occur at post-ER stages of the secretory process. Since some ER chaperones coisolate with nascent fibrinogen chains they have been implicated in assisting chain assembly. Studies with recombinant systems, using deletion and substitution mutants, indicate that initial chain assembly depends on hydrophobic interactions present in the C-terminal half of the coil-coil domains and that inter- and intra-disulfide bonds that stabilize fibrinogen are needed to complete chain assembly. Not all the chains that are synthesized are assembled into fibrinogen and the unassembled chains are not secreted. HepG2 cells contain surplus A alpha and gamma chains that accumulate as free gamma chains and as an A alpha-gamma complex. A alpha-gamma is degraded by lysosomes whereas the gamma chain is degraded by the proteasome-ubiquitin system. Studies with expression of single chains by COS cells confirm that gamma and B beta are hydrolyzed by proteasomes and indicate that A alpha is degraded partially both by lysosomes and proteasomes. The role of surplus chains in regulating fibrinogen assembly is not understood but overexpression of any one chain, elicited by transfection of HepG2 cells, results in the upregulation of the other two genes, increased fibrinogen synthesis and secretion, and maintenance of surplus intracellular A alpha and gamma chains. HepG2 cells, programmed in this manner to increase basal fibrinogen expression, have higher HMG-CoA reductase mRNA levels, enhanced cholesterol and cholesterol ester synthesis, and increased secretion of apolipoprotein B (apoB). Overexpression of basal levels of fibrinogen does not affect synthesis of other acute phase proteins. Enhanced secretion of apoB is due to diminished degradation of nascent apoB by proteasomes and not to increased expression. Increased secretion of apoB is associated with increased basal expression of fibrinogen and is not affected when fibrinogen expression is stimulated by interleukin-6. In HepG2 cells, a feedback mechanism exists and extracellular sterols specifically downregulate expression of the three fibrinogen genes. These studies link, at the cellular level, basal fibrinogen expression with lipid metabolism.
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PMID:Fibrinogen biosynthesis. Assembly, intracellular degradation, and association with lipid synthesis and secretion. 1146 May 6

Murine hepatic cytochrome P450 2a5 (Cyp2a5) is induced during hepatotoxicity and hepatitis, however, the specific regulatory mechanisms have not been determined. We compared the influence of acute inflammation elicited in vivo by bacterial endotoxin lipopolysaccharide (LPS) and liver injury caused by the hepatotoxin pyrazole on hepatic Cyp2a5 expression in mice. Pyrazole treatment resulted in statistically significant increases in levels of Cyp2a5 mRNA, protein and catalytic activity by 540, 273 and 711%, respectively (P<0.05). In LPS-treated livers Cyp2a5 expression was significantly reduced compared to controls at the mRNA (46%) protein (35%), and activity (23%) levels (P<0.05). Treatment of mice with recombinant murine interleukin-1 beta and interleukin-6 had no significant effect on Cyp2a5 mRNA and protein levels. Liver injury, as assessed by serum alanine aminotransferase, was greater with pyrazole than with LPS treatment (609 vs 354% of control levels respectively). ER stress, determined by hepatic glucose regulated protein 78 (grp78) levels, was greater with pyrazole (185% of controls) than with LPS (128% of controls). In pyrazole-treated liver, overexpression of immunoreactive grp78 protein revealed that ER stress was localized to pericentral hepatocytes in which Cyp2a5 was induced. Evidence of glycogen loss and membrane damage in these cells was suggestive of oxidative damage. Moreover, vitamin E attenuated Cyp2a5 induction by pyrazole in vivo. These results suggest that induction of Cyp2a5 that has been observed in mouse models of hepatitis and hepatoxicity may be related to oxidative injury to the endoplasmic reticulum of pericentral hepatocytes rather than exposure to pro-inflammatory cytokines.
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PMID:Effects of lipopolysaccharide-stimulated inflammation and pyrazole-mediated hepatocellular injury on mouse hepatic Cyp2a5 expression. 1249 23

X-box binding protein-1 (XBP-1) is a transcription factor essential for plasma cell differentiation. XBP-1 transcripts are found at high levels in plasma cells from rheumatoid synovium and myeloma cell lines. Lymphoid chimeras deficient in XBP-1 have a profound defect in plasma cell differentiation, with few plasma cells in their periphery and severely reduced serum immunoglobulin levels. When introduced into B-lineage cells, XBP-1 initiates plasma cell differentiation. XBP-1 is also the mammalian homologue of the yeast transcription factor Hac1p, an important component of the unfolded protein response (UPR). The UPR allows cells to tolerate conditions of endoplasmic reticulum (ER) stress caused by misfolded proteins. Studies examining the relationship between plasma cell differentiation, XBP-1, and the UPR demonstrate that this novel signaling system is vital for plasma cell differentiation. Signals that induce plasma cell differentiation and the UPR cooperate via XBP-1 to induce terminal B-cell differentiation. Additionally, XBP-1 plays an important role in the regulation of interleukin-6 production, a cytokine essential for plasma cell survival.
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PMID:The X-box binding protein-1 transcription factor is required for plasma cell differentiation and the unfolded protein response. 1284 5

Ras activation is frequently observed in multiple myeloma either by mutation or through interleukin-6 receptor signaling. Recently, drugs designed to inhibit Ras have shown promise in preclinical myeloma models and in clinical trials. In this report, we characterize the pathways by which the clinically tested farnesyl transferase inhibitor (FTI) R115777 induces apoptosis in multiple myeloma cells. Contrary to the proposed mechanistic action of FTIs, we found that R115777 induces cell death despite Ras prenylation implying participation of Ras-independent mechanism(s). Apoptosis proceeded via an intrinsic cascade and was associated with an increase in the expression and activity of Bax. Bax activation correlated with a loss of mitochondrial membrane integrity and activation of the endoplasmic reticulum (ER) stress response. These pathways activate caspase-9 and consistent with this, cell death was prevented by caspase-9 blockade. Interestingly, cells overexpressing Bcl-X(L) remained partially sensitive to R115777 despite suppression of mitochondrial membrane dysfunction and ER-related stress. Taken together, these results indicate that R115777 induces apoptosis in a Ras-independent fashion via multiple intrinsic pathways.
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PMID:R115777 induces Ras-independent apoptosis of myeloma cells via multiple intrinsic pathways. 1498 58

Lathyrism is characterized by defective collagen synthesis due to inhibition of lysyl oxidase, an enzyme essential for interfibrillar cross-linking. The lathyritic agent beta-aminoproprionitrile (beta-APN) is considered an appropriate agent for studying connective tissue metabolism. We investigated the effects of ascorbic acid on collagen structure and serum cytokine levels in experimentally induced lathyrism. Forty Wistar rats weighing 200-300 g were used in the study: three test groups of 10 rats each (groups 2, 3 and 4) and 10 rats used as a control group (group 1). Experimental lathyrism was induced with daily subcutaneous injections of beta-APN in the test groups for 40 days. On the 40th day, skin biopsies were taken from the control group (group 1) and group 2, to evaluate the effect of beta-APN on dermal collagen. After the 40th day, 10 rats received ascorbic acid 100 mg/kg intraperitoneally daily for 15 days (group 3) and 10 rats (group 4) received no medication and served as a control for group 3. On the 55th day, skin biopsies were taken from groups 3 and 4. Serum concentrations of interleukin-6 and tumour necrosis factor-alpha were assessed in each group by enzyme-linked immunosorbent assay. Ultrastructural examination of the skin biopsies in group 1 revealed normal-appearing epidermal and dermal structures. Group 2 showed disorganization of the epidermis and collagen structure, and vacuolization of the endoplasmic reticulum in fibroblasts. In group 3, ultrastructural examination revealed significant improvement in the structure of dermal collagen after administration of ascorbic acid, whereas the changes in group 4 were unremarkable. Ascorbic acid administration significantly decreased the concentrations of serum cytokines in group 3 compared with group 2 (P < 0.001). Ascorbic acid administration significantly improved dermal collagen structure and serum cytokine levels in experimental lathyrism.
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PMID:The role of ascorbic acid on collagen structure and levels of serum interleukin-6 and tumour necrosis factor-alpha in experimental lathyrism. 1498 76

We investigated the effect of interleukin-6 (IL-6) expression on sarco/endoplasmic reticulum Ca(2+)-ATPase (SERCA), atrial natriuretic peptide (ANP) and B-type natriuretic peptide (BNP) mRNA levels in cultured rat neonatal ventricular myocytes. IL-6 plays a key role in regulating cardiac hypertrophy and the development of heart failure, and SERCA, ANP and BNP are all cardiac hormones with regulatory properties. Compared with baseline measurements, treatment with 50 U/ml IL-6 significantly decreased SERCA gene expression, but significantly increased ANP and BNP gene expression in the cardiac myocytes. These results suggest that the clinical overproduction of IL-6 in response to infection, autoimmune disease and cancer might be responsible for cardiac hypertrophy. Cardiac hypertrophy may result from the imbalance of both natriuretic peptides and SERCA transcription levels, caused by elevated IL-6 expression.
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PMID:Interleukin-6-induced reciprocal expression of SERCA and natriuretic peptides mRNA in cultured rat ventricular myocytes. 1499 7

MD-2, a glycoprotein that is essential for the innate response to lipopolysaccharide (LPS), binds to both LPS and the extracellular domain of Toll-like receptor 4 (TLR4). Following synthesis, MD-2 is either secreted directly into the medium as a soluble, active protein, or binds directly to TLR4 in the endoplasmic reticulum before migrating to the cell surface. Here we investigate the function of the secreted form of MD-2. We show that secreted MD-2 irreversibly loses activity over a 24-h period at physiological temperature. LPS, but not lipid A, prevents this loss in activity by forming a stable complex with MD-2, in a CD14-dependent process. Once formed, the stable MD-2.LPS complex activates TLR4 in the absence of CD14 or free LPS indicating that the activating ligand of TLR4 is the MD-2.LPS complex. Finally we show that the MD-2.LPS complex, but not LPS alone, induces epithelial cells, which express TLR4 but not MD-2, to secrete interleukin-6 and interleukin-8. We propose that the soluble MD-2.LPS complex plays a crucial role in the LPS response by activating epithelial and other TLR4(+)/MD-2(-) cells in the inflammatory microenvironment.
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PMID:A complex of soluble MD-2 and lipopolysaccharide serves as an activating ligand for Toll-like receptor 4. 1517 34

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