Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The activation and function of c-Jun N-terminal kinases (JNKs) were investigated in primary microglia cultures from neonatal rat brain, which express all three JNK isoforms. Lipopolysaccharide (LPS), tumor necrosis factor-alpha (TNF-alpha), and thrombin preparations induced a rapid and lasting activation of JNKs in the cytoplasm. In the nucleus, the activation patterns were rather complex. In untreated microglia, the small pool of nuclear JNKs was strongly activated, while the high-affinity JNK substrate c-Jun was only weakly phosphorylated. Stimulation with LPS increased the total amount of nuclear JNKs and the phosphorylation of the transcription factor c-Jun. Levels of activated JNKs in the nucleus, however, rapidly decreased. Analysis of the nuclear JNK isoforms revealed that the amount of JNK1 declined, while JNK2 increased, and the weakly expressed JNK3 did not vary. This observation suggests that JNK2 is mainly responsible for the activation of c-Jun in this context. Upstream of JNKs, LPS induced a lasting activation of the constitutively present JNK kinase MKK4. The function of JNKs in LPS-triggered cellular reactions was investigated using SP600125 (0.5-5 microM), a direct inhibitor of JNKs. Inhibition of JNKs reduced the LPS-induced metabolic activity and induction of the AP-1 target genes cyclooxygenase-2 (Cox-2), TNF-alpha, monocyte chemoattractant protein-1 (MCP-1), and interleukin-6 (IL-6) in response to LPS, while ERK1/2 and p38 alpha had a more pronounced effect on LPS-induced cellular enlargement than JNKs. In summary, JNKs are essential mediators of relevant pro-inflammatory functions in microglia with different contributions of the JNK isoforms.
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PMID:c-Jun N-terminal kinases (JNKs) mediate pro-inflammatory actions of microglia. 1573 88

Systemic inflammation and the activation of the coagulation system following cardiopulmonary bypass (CPB) may contribute to postoperative complications. In vitro studies have demonstrated that heparin possesses anti-inflammatory properties. To ascertain the relative benefits of high versus low heparin doses, we studied the impact of varying heparin doses on the inflammatory response and coagulation system during and following CPB. Forty patients scheduled for elective coronary artery bypass surgery requiring CPB were randomized to either a low dose (300 U/kg) (Group L) or a high dose of unfractionated heparin (600 U/kg) (Group H). To evaluate the inflammatory response, proinflammatory cytokines [tumor necrosis factor-alpha and interleukin-6 (IL-6)] were measured at four different times: before CPB (T0), 30 min after the institution of CPB (T1), 30 min after cross-clamp release (T2), and 4 h after the end of CPB (T3). Thrombin-antithrombin complex, platelet factor 4 and anti-activated factor X heparin concentrations were also measured. Patients in Group H received greater heparin (44.934 U versus 27.741 U, P<0.001) and protamine (P=0.003) doses. Postoperative blood loss and blood products transfusions were not significantly different in the groups. At T1, mean heparin plasma concentration was higher in Group H (P<0.001). IL-6 was significantly lower in Group H compared with Group L (P=0.01) only at T1. Using a mixed-effects statistical model, tumor necrosis factor-alpha and IL-6 levels were comparable regardless of the heparin dose. Thrombin-antithrombin complex levels were lower in Group H (P=0.04) and platelet factor 4 levels were significantly lower in Group H at T2 (P=0.04). Higher heparin doses were associated with higher heparin concentrations during CPB. A high heparin dose achieved a better preservation of the coagulation system with less thrombin formation and platelet activation. The heparin dose had small influence on proinflammatory cytokines release.
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PMID:The effects of high-dose heparin on inflammatory and coagulation parameters following cardiopulmonary bypass. 1597 Jul 15

Heparin cofactor II functions as a physiological inhibitor of thrombin activity. The rate of inactivation of thrombin by heparin cofactor II is increased in the presence of dermatan sulfate, which is produced by fibroblasts or smooth muscle cells. To elucidate the role of heparin cofactor II in the extravascular cells, we induced expression of heparin cofactor II in cultured human fibroblasts or vascular smooth muscle cells using adenovirus-mediated gene transfer. After infection of adenovirus vector, these cells secreted heparin cofactor II protein into culture medium. The expressed heparin cofactor II formed the complex with exogenous thrombin and inhibited the proteolytic activity of thrombin. Expression of heparin cofactor II by infection of adenovirus vector inhibited thrombin-induced tissue-type plasminogen activator and interleukin-6 releases from fibroblasts and thrombin-induced interleukin-6 release from vascular smooth muscle cells. These findings show that fibroblasts and vascular smooth muscle cells expressing heparin cofactor II are resistant to thrombin-induced cellular responses.
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PMID:Adenovirus-mediated expression of heparin cofactor II inhibits thrombin-induced cellular responses in fibroblasts and vascular smooth muscle cells. 1603 21

The aim of the study was to determine whether a short-term treatment with simvastatin or fenofibrate may result in beneficial anti-inflammatory and antithrombotic effects in patients with high risk of coronary artery disease. In a randomized, double-blind study, we compared markers of inflammation, thrombin formation and platelet activation in patients with LDL cholesterol >130 mg/dl assigned to receive simvastatin (40 mg/d; n=20) or micronised fenofibrate (160 mg/d; n=22) for 28 days. Simvastatin, but not fenofibrate, lowered C-reactive protein (CRP) by 32% on day 3 (p<0.001), while both drugs reduced CRP significantly on day 28. Interleukin-6, soluble CD40 ligand, and monocyte chemoattractant protein-1 levels decreased significantly (by 20 to 50%) in both treatment groups on days 3 and 28. Soluble cell adhesion molecules remained unchanged in both groups. Simvastatin and fenofibrate significantly lowered plasma concentrations of thrombin-antithrombin complexes on days 3 and 28, but not platelet beta-thromboglobulin (betaTG) levels. Soluble P-selectin was lowered only in the simvastatin group. The total amount of thrombin generated at the site of microvascular injury also declined (by about 30%) as early as after 3 days of fenofibrate or simvastatin therapy, whereas beta TG release was reduced only in the simvastatin group on days 3 and 28. All the effects were independent of the changes in lipid profiles. Our results suggest that statins and fibrates can exert antithrombotic and anti-inflammatory effects as early as after 3 days of therapy. However, in contrast to statins, fibrates have no influence on platelet function within one month of therapy.
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PMID:Early antithrombotic and anti-inflammatory effects of simvastatin versus fenofibrate in patients with hypercholesterolemia. 1611 3

Microglia are the resident immune cells of the CNS. Brain injury triggers microglial activation, leading to proliferation, changes in antigenic profile, NO production and cytokine release. It is widely believed that serum factors inundating the injured tissue can prompt this activation, leading to long-term phenotypic changes. We and others have recently reported that commercial-grade preparations of thrombin, a serine protease known for its central function in blood coagulation, activate microglial cells. Recent findings, however, have called into question the involvement of thrombin itself in the induction of microglial cytokine release and led us to systematically re-investigate the ability of the protease to induce a broad spectrum of microglial activation parameters. We used a pharmaceutical-grade recombinant human thrombin (rh-thr) and compared it with a commercial-grade plasma-derived bovine thrombin (pb-thr) preparation that has been used extensively in the literature, including in our own earlier report. We investigated the effect of these two thrombin preparations on proliferation, NO production, interleukin-6 and tumour necrosis factor-alpha release, intracellular calcium signaling and cell surface expression of CD95 (Fas) and CD40. Pb-thr induced robust responses in all variables tested. In contrast, rh-thr triggered calcium signals and induced small but significant changes in the expression of cell surface antigens, but had no effect on proliferation, NO production or cytokine release. Control studies assured equivalent thrombin potencies and excluded both species-specific effects and endotoxin (lipopolysaccharide) contamination as possible causes of the disparity. Our results indicate a substantially more restricted role for thrombin itself in microglial activation than previously appreciated, but point to several potentially important co-stimulatory effects. In addition, these results suggest that previous studies examining thrombin's activation of microglia should be cautiously re-interpreted.
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PMID:Unraveling thrombin's true microglia-activating potential: markedly disparate profiles of pharmaceutical-grade and commercial-grade thrombin preparations. 1627 Oct 51

ADAMTS13, a reprolysin-like metalloprotease, limits platelet-rich thrombus formation in the small arteries by cleaving von Willebrand factor (vWF) at the Tyr1605-Met1606 peptide bond. Deficiency of plasma ADAMTS13 activity, due to either an inherited or an acquired etiology, may lead to a potentially lethal syndrome, thrombotic thrombocytopenic purpura (TTP). Molecular cloning and characterization of the ADAMTS13 gene have provided further insight into the structure-function relationships, biosynthesis, and regulation of the ADAMTS13 protease, in addition to understanding the pathogenesis of TTP and perhaps other thrombotic disorders. ADAMTS13 consists of a short propeptide, a typical reprolysin-like metalloprotease domain, followed by a disintegrin-like domain, first thrombospondin type 1 (TSP1) repeat, Cys-rich domain, and spacer domain. The carboxyl terminus of ADAMTS13 has seven more TSP1 repeats and two CUB domains. ADAMTS13 is synthesized mainly in hepatic stellate cells, but also in vascular endothelial cells. Recognition and cleavage of vWF require the proximal carboxyl terminal domains, but not the middle and distal carboxyl terminal domains. Cleavage of vWF appears to be modulated by shear force, binding to platelet or platelet glycoprotein-1balpha, heparin, inflammatory cytokine (interleukin-6), and chloride ion. At the site of thrombus formation, the ADAMTS13 may be inactivated by thrombin, plasmin, and factor Xa. Having a sensitive and specific assay for ADAMTS13 activity is not only critical to understand the basic biology of ADAMTS13 protease, but also to facilitate a more timely and accurate clinical diagnosis of TTP, and to initiate potentially life-saving plasma exchange therapy. Although many assays have been developed and tested for clinical applications, the fluorescent resonance energy transfer-vWF73 assay appears to be the simplest and most promising assay to date.
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PMID:Molecular biology of ADAMTS13 and diagnostic utility of ADAMTS13 proteolytic activity and inhibitor assays. 1638 17

An acute inflammatory response occurs following percutaneous coronary and peripheral vascular interventions (PVI), partly mediated by platelet activation. Glycoprotein (GP) IIb-IIIa inhibitors might partially attenuate this inflammation rise in the coronary patient, but data in patients undergoing PVI are lacking. In the Integrilin Reduces Inflammation in Peripheral Vascular Interventions trial (INFLAME), we hypothesized that eptifibatide reduces the acute inflammatory responses following PVI. This is a single-center, randomized, open-label study of intravenous eptifibatide (180 micro/kg bolus x 2, 10 minutes apart, then 2 micro/kg/min infusion over 18 hours) and low-dose unfractionated heparin (60 Units per kg, target activated clotting time (ACT) 200-250 sec) [LDH+I group; n = 21] versus high-dose unfractionated heparin alone (100 Units per kg, target ACT 300-400 sec) [HDH group; n = 21] in patients undergoing iliac and infrainguinal interventions. The primary endpoints of the study were markers of inflammation (soluble CD-40L [sCD-40L], high-sensitivity C-reactive protein [hs-CRP] and interleukin-6 [IL-6]), thrombin generation (Fragment 1.2 [F1.2]), and fibrinogen measured at baseline and postrandomization. Markers were assayed at baseline, postdilatation at 30 minutes, 2 hours, 18 hours, 48 hours and 7 days. Mean platelet inhibition with eptifibatide was 98% (range 92-100%) using the Accumetrics Rapid Platelet Function Assay at 10 minutes after final bolus. After adjusting for baseline values, the mean +/- SE difference in sCD-40L (loge scale), hs-CRP and F1.2 between the LDH+I group and the HDH was not significant. Fibrinogen had significantly higher mean levels at 7 days for the LDH+I group (541.19 mg/dL versus 472.26 mg/dL; p-value = 0.024). IL-6 was more detectable in the LDH+I group compared to the HDH following intervention. We conclude that LDH+I combination did not reduce acute inflammatory responses as compared to HDH in patients undergoing peripheral vascular interventions.
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PMID:Eptifibatide in peripheral vascular interventions: results of the Integrilin Reduces Inflammation in Peripheral Vascular Interventions (INFLAME) trial. 1639 77

We hypothesized that infusion of recombinant human antithrombin without concomitant heparin would have dose-dependent anticoagulant properties and potentially decrease endotoxin (lipopolysaccharide [LPS])-induced cytokine production. This was a randomized, double-blind, placebo-controlled study in parallel groups enrolling 30 healthy male volunteers. The active treatment groups received infusions of recombinant human antithrombin to increase antithrombin levels to 200% and 500% before infusion of 2 ng/kg endotoxin (LPS). Infusion of antithrombin dose-dependently decreased coagulation (P < .01 by repeated-measures ANOVA): peak levels of prothrombin fragment (1.8 nmol/L [95% confidence interval (CI), 1.3-2.3 nmol/L] in the 500% antithrombin group and 4.4 nmol/L [95% CI, 2.7-6.2 nmol/L] in the placebo group at 4 hours), thrombin antithrombin complexes (12 microg/L [95% CI, 8-16 microg/L] in the 500% antithrombin group and 34 microg/L [95% CI, 20-48 microg/L] in the placebo group at 4 hours), and D-dimer (0.2 microg/L [95% CI, 0.1-0.2 microg/L] in the 500% antithrombin group and 0.5 microg/L [95% CI, 0.4-0.7 microg/L] in the placebo group). Recombinant human antithrombin decreased peak interleukin-6 levels by 40% (222 pg/mL [95% CI, 148-295 pg/mL] and 216 pg/mL [95% CI, 112-320 pg/mL] in the 500% and 200% antithrombin groups, respectively, versus 357 pg/mL [95% CI, 241-474 pg/mL] in the placebo group; P < .001 by ANOVA). Finally, infusion of recombinant human antithrombin rapidly and transiently decreased neutrophil counts (by 19% [95% CI, 8%-30%] in the 500% antithrombin group versus 6% [95% CI, 1%-10%] in the placebo group, P = .002 by Kruskal-Wallis ANOVA) and monocyte counts (by 30% [95% CI, 16%-44%] in the 500% antithrombin group and 18% [95% CI, 9%-28%] in the 200% antithrombin group versus 8% [95% CI, 5%-20%] in the placebo group, P = .04) before LPS challenge, indicating that recombinant human antithrombin directly interacts with these leukocyte subsets. In summary, recombinant human antithrombin dose-dependently inhibited tissue factor-triggered coagulation. Effects on leukocytes and inhibition of interleukin-6 release seem to represent specific pharmacodynamic properties of recombinant human antithrombin.
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PMID:Recombinant human antithrombin inhibits thrombin formation and interleukin 6 release in human endotoxemia. 1641 39

Serine proteinases have been recognized playing an important role in inflammation via proteinase-activated receptors (PAR). However, little is known of the influence of serine proteinases and PAR on interleukin-6 (IL-6) secretion from highly purified monocytes. We challenged monocytes from human peripheral blood with serine proteinases and agonist peptides of PAR and measured the levels of IL-6, IL-1beta and IL-12 in culture supernatants by enzyme-linked immunosorbent assay. The results showed that thrombin, trypsin, tryptase and elastase stimulated approximately up to 2.9-, 2.0-, 1.8- and 2.1-fold increase in IL-6 release from monocytes following 16 h of incubation, respectively. Proteinase inhibitors inhibited the actions of proteinases on monocytes. Agonist peptides of PAR-1 (SFLLR-NH(3)) and PAR-4 (GYPGQV-NH(2)), but not PAR-3 (TFRGAP-NH(2)), also induced IL-6 release from monocytes. The proteinases and agonists of PAR failed to stimulate IL-1beta and IL-12 secretion. In conclusion, the induction of IL-6 secretion by serine proteinases may be through the activation of PAR.
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PMID:Induction of interleukin-6 release from monocytes by serine proteinases and its potential mechanisms. 1678 86

Although coagulopathy is known to be the major contributor to a poor outcome of traumatic brain injury (TBI), the mechanisms that trigger coagulation abnormalities have not been studied in detail. We undertook a prospective observational study at a neurosurgical ICU (NICU) in a university hospital. We examined 11 patients with severe isolated TBI, at admittance to the hospital and during the next 3 days. We collected cerebrovenous blood samples from a jugular bulb catheter, arterial blood, and cerebrospinal fluid (CSF) samples. We measured concentrations of thrombin-antithrombin complex (TAT), fibrin D-dimer (DD), prothrombin fragment 1 + 2 (F1 + 2), interleukin-6 (IL-6), and complement complex (C5b-9). All patients had some degree of consumption coagulopathy at the study start and a tendency to thrombocytopenia during the next few days. Levels of DD (3.6 +/- 2.7 mg/L), TAT (86 +/- 72 microg/L) and F1 + 2 (5.9 +/- 6.8 nmol/L) were significantly increased shortly after the trauma compared to reference values, with considerable transcranial gradients for TAT (49 microg/L) and F1 + 2 (3.2 nmol/L). Compared to controls, IL-6 levels were increased more than a hundredfold in both blood (283 +/- 192 ng/L) and CSF (424 +/- 355 ng/L) samples, with a transcranial gradient at the study start (107 ng/L). C5b-9 levels were moderately increased in blood samples, 270 +/- 114 microg/L, versus controls, 184 +/- 39 (p < 0.05). We conclude that activation of the coagulation system takes place during the passage of blood through the damaged brain, and is already evident hours after the trauma. IL-6 and activation of the complement system (C5b-9) co-vary with hemostatic parameters in TBI patients.
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PMID:Coagulation abnormalities associated with severe isolated traumatic brain injury: cerebral arterio-venous differences in coagulation and inflammatory markers. 1726 81


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