Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reactive oxygen species (ROS), including hydrogen peroxide (H2O2), are generated in increased amounts in pathological, biological processes and can play a role in signal transduction. Neutrophils often accumulate in acute inflammatory reactions, at sites where elevated concentrations of ROS are present. ROS have been demonstrated to participate in the activation of intracellular signaling pathways, including those involved in modulating nuclear accumulation and transcriptional activity of NF-kappaB. However, the role of ROS in affecting such events in neutrophils has not been examined. Using exposure of murine bone marrow neutrophils to H2O2 as a model of oxidative stress, we found both strong and persistent activation of ERK1/2, p38, JNK, and PKB, but not the p21-activated kinase. Stimulating the bone marrow-derived neutrophils with H2O2 did not affect nuclear translocation of NF-kappaB. However, production and secretion of the proinflammatory cytokine TNF-alpha in LPS-stimulated neutrophils were inhibited by H2O2. Exposure of LPS- or TNF-alpha-stimulated neutrophils to H2O2 decreased nuclear translocation of NF-kappaB. LPS-induced activation of the transcriptional factor AP-1 was also inhibited by H2O2. This inhibition of nuclear accumulation of NF-kappaB by H2O2 was not caused by an impaired capacity of LPS to stimulate the IKK pathway or to direct oxidative effects on NF-kappaB but rather reflected diminished degradation of IkappaB-alpha. These results indicate that oxidative stress, despite being able to selectively activate intracellular kinases in bone marrow-derived neutrophils, also inhibits NF-kappaB activation and associated TNF-alpha expression. Such inhibitory effects on neutrophil activation may limit tissue damage produced by oxidative stress.
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PMID:Modulation of bone marrow-derived neutrophil signaling by H2O2: disparate effects on kinases, NF-kappaB, and cytokine expression. 1465 21

The 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors or statins are newly identified immunomodulators. In vivo treatment of SJL/J mice with lovastatin reduced the duration and clinical severity of active and passive experimental autoimmune encephalomyelitis (EAE), an animal model for multiple sclerosis. Lovastatin induced the expression of GATA3 and the phosphorylation of STAT6, whereas it inhibited tyrosine phosphorylation of Janus kinase 2, tyrosine kinase 2, and STAT4. Inhibition of the Janus kinase-STAT4 pathway by lovastatin modulated T0 to Th1 differentiation and reduced cytokine (IFN-gamma and TNF-alpha) production, thus inducing Th2 cytokines (IL-4, IL-5, and IL-10). It inhibited T-bet (T box transcription factor) and NF-kappaB in activated T cells and significantly reduced infiltration of CD4- and MHC class II-positive cells to CNS. Further, it stabilized IL-4 production and GATA-3 expression in differentiated Th2 cells, whereas in differentiated Th1 cells it inhibited the expression of T-bet and reduced the production of IFN-gamma. Moreover, lovastatin-exposed macrophage and BV2 (microglia) in allogeneic MLRs induced the production of the anti-inflammatory cytokine IL-10. These observations indicate that the anti-inflammatory effects of lovastatin are mediated via T cells as well as APCs, because it modulates the polarization patterns of naive T cell activation in an APC-independent system. Together, these findings reveal that lovastatin may have possible therapeutic value involving new targets (in both APCs and T cells) for the treatment of multiple sclerosis and other inflammatory diseases.
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PMID:Potential targets of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor for multiple sclerosis therapy. 1470 6

Lipopolysaccharide (LPS) induced tumor necrosis factor (TNF)-alpha production in human monocytes, which was dependent on activation of extracellular signal-regulated kinase (ERK), p38, c-Jun NH(2)-terminal kinase (JNK), and nuclear factor (NF)-kappa B. LPS-induced TNF-alpha production was inhibited by granulocyte colony-stimulating factor (G-CSF) and interleukin (IL)-10. G-CSF, like IL-10, exerted the inhibitory effect even when simultaneously added with LPS. Among the signaling pathways, signal transducer and activator of transcription 3 (STAT3) was selectively activated in monocytes stimulated by G-CSF or IL-10. G-CSF-mediated inhibition of LPS-induced TNF-alpha production as well as G-CSF-induced STAT3 phosphorylation and suppressor of cytokine signaling 3 mRNA expression were prevented by pretreatment of monocytes with AG-490, an inhibitor of Janus kinase 2. G-CSF did not affect LPS-induced activation of ERK, p38, JNK, and NF-kappa B, indicating that G-CSF affects the pathway downstream or independently of these signaling molecules. G-CSF-induced, but not IL-10-induced, STAT3 phosphorylation was attenuated in the presence of LPS. These findings suggest that G-CSF, like IL-10, inhibits LPS-induced TNF-alpha production in human monocytes through selective activation of STAT3, and the immunomodulation observed in vivo by G-CSF administration may be partly ascribed to the direct effect of G-CSF on monocyte functions.
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PMID:Selective activation of STAT3 in human monocytes stimulated by G-CSF: implication in inhibition of LPS-induced TNF-alpha production. 1473 11

To study the role of nitric oxide (NO) in lung metastasis of breast carcinoma, we isolated two cell clones (H and J) from the parental EMT-6 murine breast carcinoma cell line, based on their differential NO production. In vitro, EMT-6 J cells, but not EMT-6H cells, constitutively expressed inducible NO synthase (NOS II) and secreted high levels of NO. IL-1beta increased NO production in both clones, and TNF-alpha had a synergistic effect on IL-1beta-induced NO production, but NO production by EMT-6 J cells was always higher than by EMT-6H cells. Proliferation, survival and adhesion to lung-derived endothelial cells of both clones were similar and were not affected by NO. In vivo, both clones similarly located in the lungs of syngeneic mice 48 h after injection. However, EMT-6H cells were significantly more tumorigenic than EMT-6 J cells as assessed at later time points. Injection of EMT-6 J cells and simultaneous treatment of mice with aminoguanidine (AG), a NOS II inhibitor, significantly increased tumour formation. Injection of EMT-6H and EMT-6 J cells into NOS II-deficient mice resulted in a significant survival increase as compared with wild-type animals. Simultaneous administration of AG increased the death rate of NOS II-deficient mice injected with EMT-6 J cells. These results demonstrate that: (i) NO does not influence the early stages of tumour metastasis to the lungs and (ii) NOS II expression in tumour cells reduces, while NOS II expression in host cells enhances, tumour nodule development. In conclusion, the cellular origin and the local NO production are critical in the metastatic process.
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PMID:Tumour-derived and host-derived nitric oxide differentially regulate breast carcinoma metastasis to the lungs. 1505 28

ICAM-1 mediates interaction of cardiomyocytes with the extracellular matrix and leukocytes and may play a role in altering contractility. To investigate this possibility, rat ventricular cardiomyocytes were activated using TNF-alpha, IL-1beta, or LPS, washed, cultured with quiescent rat polymorphonuclear leukocytes (PMNs) for 4 h, and electrically stimulated to determine fractional shortening. PMNs cultured with activated cardiomyocytes reduced control fractional shortening of 20.5 +/- 0.7% by -2.8 +/- 0.3% per adherent PMN (P < 0.001). Fixing PMNs with paraformaldehyde or glutaraldehyde did not prevent PMN-mediated decreases in cardiomyocyte fractional shortening. However, PMN adherence and decreased fractional shortening were prevented by anti-ICAM-1 and anti-CD18 antibodies. Reduced fractional shortening was reproduced in the absence of PMNs by ICAM-1 binding using cross-linking antibodies (reduced by 36 +/- 3% from control, P < 0.01). Immunofluorescent staining demonstrated increased cortical cytoskeleton-associated focal adhesion kinase expression after ICAM-1 cross-linking, suggesting involvement of the actin cytoskeleton. Indeed, disruption of F-actin filament assembly using cytochalasin D or latrunculin A did not prevent PMN adherence but prevented decreased fractional shortening. Inhibition of the cytoskeleton-associated Rho-kinase pathway with HA-1077 prevented ICAM-1-mediated decreases in cardiomyocyte contractility, further suggesting a central role of the actin cytoskeleton. Importantly, ICAM-1 cross-linking did not alter the total intracellular Ca2+ transient during cardiomyocyte contraction but greatly increased heterogeneity of intracellular Ca2+ release. Thus we have identified a novel regulatory mechanism of cardiomyocyte contractility involving the actin cytoskeleton as a central regulator of the normally highly coordinated pattern of sarcoplasmic Ca2+ release. Cardiomyocyte ICAM-1 binding, by PMNs or other ligands, induces decreased cardiomyocyte contractility via this pathway.
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PMID:Novel regulatory mechanism of cardiomyocyte contractility involving ICAM-1 and the cytoskeleton. 1508 87

Focal adhesion kinase (FAK) gene encodes focal adhesion kinase that localizes at contact points of cells with extracellular matrix. It was shown that FAK expression is increased in a variety of malignancies, both at early and advanced stages of tumorigenesis. To understand mechanisms of FAK gene expression and regulation, we cloned and characterized the 5' promoter region of the FAK gene. The 1.2-kb fragment with FAK promoter was placed upstream of the luciferase reporter gene in a pGL3-Basic vector and transfected into different cell lines. Endogenous high-FAK-expressing cell lines showed high levels of luciferase activity in contrast to low-FAK-expressing cells, indicating on transcriptional level of FAK regulation. Serial deletion constructs revealed that a approximately 600 base pair region (-564 to +47) is required for the maximal FAK promoter activity. The 5'-flanking region of FAK is GC-rich and contains several potential transcription factor binding sites, including two NF-kappa B and p53 binding sites. Inhibition of NF-kappa B with NF-kappa B super-repressor decreased FAK luciferase activity. Induction with TNF-alpha increased luciferase activity confirming a role of NF-kappa B transcription factor in the FAK transcriptional activation. The binding of NF-kappa B and p53 transcription factors to the FAK promoter region was demonstrated by electrophoretic mobility shift assay (EMSA). Cotransfection of NF-kappa B and p53 plasmids with FAK promoter luciferase constructs demonstrate induction and inhibition, respectively, of FAK luciferase activity. The results provide a molecular basis for analysis of FAK transcriptional regulation.
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PMID:Cloning and characterization of the promoter region of human focal adhesion kinase gene: nuclear factor kappa B and p53 binding sites. 1515 37

Inflammation is associated in some tissues with diminished responsiveness to steroid hormone action. We hypothesized that proinflammatory cytokines alter steroid hormone sensitivity, in part, by reducing levels of key nuclear receptor coactivators. Treatment of cultured human uterine smooth muscle cells (UtSMC) with TNF-alpha significantly reduced mRNA for the coactivators, SRC-1 (42%, P<0.01) and 2 (47%, P<0.03), and diminished the respective protein levels, but did not significantly alter the mRNAs encoding SRC-3, CBP and the corepressors, NCoR and SMRT; or progesterone receptor protein levels. To assess TNF-alpha effects on steroid hormone-mediated transcriptional activity, UtSMC were transfected with progesterone receptor B (PR-B) and a model PRE2-luciferase reporter construct. Transfected UtSMC were treated with progesterone alone or in the presence of TNF-alpha, and assayed for luciferase activity. TNF-alpha (10 ng/ml) diminished progesterone-stimulated PR-B-mediated transactivation by approximately 60% (P<0.02). The TNF-alpha-dependent decrease in PRE-luciferase activity was fully prevented by cotransfection with SRC-2, and partially prevented with exogenous SRC-1. In conclusion, TNF-alpha impairs progesterone-stimulated PR-B-mediated transactivation, and these effects appear to be due, in part, to reduced expression of SRC-1 and -2, which is a novel mechanism by which inflammation can functionally block steroid hormone action.
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PMID:Tumor necrosis factor-alpha suppresses the expression of steroid receptor coactivator-1 and -2: a possible mechanism contributing to changes in steroid hormone responsiveness. 1523 21

This study examines the effects of malnutrition on IL-6 signaling pathways of rats fed 2% vs. 20% casein diets for 14 days. Effects of malnutrition on the abundance and IL-6-stimulated phosphorylation of signaling proteins in the JAK-STAT and MAP kinase pathways were examined in the liver. Changes of the acute-phase response as reflected by serum alpha(1)-acid glycoprotein (AG), TNF-alpha (TNF), and IL-1beta (IL-1) were compared in the two dietary groups at 0, 4, 8, 16, and 24 h after IL-6 administration. Under basal conditions, the abundance of the IL-6 receptor, gp130, JAK1, STAT1, and STAT3 proteins and levels of phosphorylation of ERK1/2 and p38 were significantly increased in the liver in the 2% casein group compared with the 20% casein group. With IL-6 stimulation, the increased phosphorylation per unit of protein of these signaling proteins was not different in the liver between the two groups. Before IL-6 stimulation, serum levels of TNF, IL-1, IL-6, and AG were significantly higher in the 2% casein group than in the 20% casein group. After bolus injection of IL-6, changes in IL-1 and AG were similar in the two dietary groups, although a slight decline in AG level was noted after 8 h of IL-6 administration in the 2% protein group. These data demonstrate that protein malnutrition produces changes in inflammation-related proteins characteristic of a low-grade systemic inflammatory response and, thus, can serve as an inflammatory stimulus. The capacity for response to IL-6 is preserved, suggesting adaptive preservation of acute-phase responsiveness during malnutrition.
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PMID:Effects of protein malnutrition on IL-6-mediated signaling in the liver and the systemic acute-phase response in rats. 1537 Dec 80

The development of acute pancreatitis (AP) is triggered by acinar events, but the subsequent extra-acinar events, particularly a distinct immune response, appear to determine its severity. Cytokines modulate this immune response and are derived not only from immunocytes but also from pancreatic acinar cells. We studied whether pancreatic acinar cells were also capable of responding to cytokines. The JAK/STAT-pathway represents the main effector for many cytokines. Therefore, expression and regulation of JAK and STAT proteins were investigated in rat pancreatic acinar cells. Western blotting showed expression of JAK1, JAK2, Tyk2, and STAT1, STAT2, STAT3, STAT5, STAT6. In addition, STAT1 was reversibly tyrosine-phosphorylated upon the procedure of acinar cell isolation. In contrast, STAT3-phosphorylation occurred spontaneously after pancreas removal and was not reversible within 8 h. STAT1 phosphorylation was also observed upon treatment with IFN-gamma but not upon EGF, TNF-alpha or IL-6, and inhibited by the JAK2-inhibitor AG-490. Immunohistochemistry revealed cytoplasmic expression of unphosphorylated STAT1 in untreated acinar cells and nuclear translocation of phosphorylated STAT1 following IFN-gamma-treatment. Interestingly, although CCK leads to the activation of multiple stress pathways in pancreatic acinar cells, we found no influence of CCK on phosphorylation of STAT1, STAT3, or STAT5 in the pancreas. In conclusion, our data provide further evidence that pancreatic acinar cells are able to interact with immune cells. Besides stimulating immune cells via cytokine secretion, acinar cells are in turn capable of responding to IFN-gamma via JAK2 and STAT1 which may have an impact on the development of AP.
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PMID:JAK and STAT proteins are expressed and activated by IFN-gamma in rat pancreatic acinar cells. 1549 10

Growth hormone (GH) and insulin-like growth factor (IGF)-I are potent regulators of muscle mass in health and disease. This somatomedin axis is markedly deranged in various catabolic conditions in which circulating and tissue levels of inflammatory cytokines are elevated. The plasma concentration of IGF-I, which is primarily determined by hepatic synthesis and secretion of the peptide hormone, is dramatically decreased during catabolic and inflammatory conditions. Moreover, many of these conditions are also associated with an inability of GH to stimulate hepatic IGF-I synthesis. This defect results from an impaired phosphorylation and activation of the traditional JAK2/STAT5 signal transduction pathway. Numerous lines of evidence support the role of tumor necrosis factor (TNF)-alpha as a prominent but probably not the sole mediator of the sepsis-induced impairment in basal and GH-stimulated IGF-I synthesis in liver. Additionally, catabolic conditions produce comparable alterations in skeletal muscle. However, in contrast to liver, the GH resistance in muscle is not mediated by a defect in STAT5 phosphorylation. Muscle is now recognized to respond to infectious stimuli with the production of numerous inflammatory cytokines, including TNF-alpha. Furthermore, myocytes cultured with TNF-alpha are GH resistant and this defect appears mediated via a STAT5-independent but JNK-dependent mechanism. Collectively, these changes act to limit IGF-I availability in muscle, which disturbs protein balance and results in the loss of protein stores in catabolic and inflammatory conditions.
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PMID:Cytokine inhibition of JAK-STAT signaling: a new mechanism of growth hormone resistance. 1554 17


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