EC:2.7.10.2 - FACTA Search

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

A microinjection of endothelin-1 (ET-1; 10 pmol) into the superior colliculus (SC) of anaesthetised rats caused a decrease in blood pressure. Microinjection into the same nucleus of Nomega-nitro-L-arginine methyl ester (L-NAME; 0.1, 0.5, 1 micromol), an L-arginine analogue and a potent inhibitor of nitric oxide (NO) synthase, increased the basal mean arterial blood pressure. Treatment of SC with L-NAME (1 micromol) did not affect the depressor response induced by injection of ET-1 (10 pmol), into the SC, at the peak of the pressor response to L-NAME. In addition, L-arginine L-ARG) (1 micromol), the substrate for NO synthase, microinjected into the superior colliculus prior to ET-1 did not significantly increase the depressor response to ET-1. These findings, therefore, suggest that within the SC the nitric oxide synthesis does not affect depressor responses induced by ET-1.(c) 1998 The Italian Pharmacological Society
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PMID:Nitric oxide synthesis does not affect depressor responses induced by endothelin-1 into the superior colliculus of rats. 980 15

Inducible nitric oxide synthase (iNOS) is induced in many cell types by cytokines and lipopolysaccharide (LPS). Cytokine signal transduction is believed to be mediated primarily through the JAK/STAT pathway. We therefore examined the effects of a JAK2-specific inhibitor, an antisense oligonucleotide to JAK2, and electroporation of neutralizing anti-STAT1 and anti-STAT3 antibodies on IFNgamma- and LPS-stimulated induction of iNOS in vascular smooth muscle cells. Unexpectedly, we found that the JAK/STAT pathway suppresses IFNgamma- and LPS-stimulated iNOS induction in these cells. In contrast, the JAK/STAT pathway appears to have a positive role in iNOS induction in RAW 264.7 macrophages.
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PMID:Inhibition by the JAK/STAT pathway of IFNgamma- and LPS-stimulated nitric oxide synthase induction in vascular smooth muscle cells. 982 61

A permissive role of nitric oxide (NO) in endothelial cell migration and angiogenesis promoted by vascular endothelial growth factor (VEGF), endothelin, and substance P has previously been established. The present studies were designed to examine the mechanism(s) involved in the NO effect on focal adhesions. Time-lapse videomicroscopy of human umbilical vein endothelial cells (HUVECs) plated on the silicone rubber substrate revealed that unstimulated cells were constantly remodeling the wrinkling pattern, indicative of changing tractional forces. Application of NO donors reversibly decreased the degree of wrinkling, consistent with the release of tractional forces exerted by focal adhesions and stress fibers. Morphometric and immunocytochemical analyses showed that NO inhibited adhesion and spreading of HUVECs and attenuated recruitment of paxillin to focal adhesions. NO also had a profound dose-dependent effect on the formation of stress fibers by HUVECs. De novo formation of focal adhesions in HUVECs was significantly diminished in the presence of NO donors. Migration of HUVECs showed an absolute requirement for the functional NO synthase. NO donors did not interfere with focal adhesion kinase recruitment to focal adhesions but affected the state of its tyrosine phosphorylation, as judged from the results of immunoprecipitation and immunoblotting experiments. Videomicroscopy of HUVECs presented with VEGF in a micropipette showed that the rate of cell migration was slowed down by NO synthase inhibition as well as by inhibition of tyrosine phosphorylation. Collectively, these data indicate that NO reversibly releases tractional forces exerted by spreading endothelial cells via interference with the de novo formation of focal adhesions, tyrosine phosphorylation of components of focal adhesion complexes, and assembly of stress fibers.
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PMID:Nitric oxide modulation of focal adhesions in endothelial cells. 1036 89

Nitric oxide (NO) produced by the endothelial NO synthase (eNOS) is a fundamental determinant of cardiovascular homesotasis: it regulates systemic blood pressure, vascular remodelling and angiogenesis. Physiologically, the most important stimulus for the continuous formation of NO is the viscous drag (shear stress) generated by the streaming blood on the endothelial layer. Although shear-stress-mediated phosphorylation of eNOS is thought to regulate enzyme activity, the mechanism of activation of eNOS is not yet known. Here we demonstrate that the serine/threonine protein kinase Akt/PKB mediates the activation of eNOS, leading to increased NO production. Inhibition of the phosphatidylinositol-3-OH kinase/Akt pathway or mutation of the Akt site on eNOS protein (at serine 1177) attenuates the serine phosphorylation and prevents the activation of eNOS. Mimicking the phosphorylation of Ser 1177 directly enhances enzyme activity and alters the sensitivity of the enzyme to Ca2+, rendering its activity maximal at sub-physiological concentrations of Ca2+. Thus, phosphorylation of eNOS by Akt represents a novel Ca2+-independent regulatory mechanism for activation of eNOS.
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PMID:Activation of nitric oxide synthase in endothelial cells by Akt-dependent phosphorylation. 1037 3

Nitric oxide (NO) is a potential contributor to neurotoxicity following overactivation of N-methyl-D-aspartate (NMDA) receptors. In this work we investigated the effect of Nomega-nitro-L-arginine (L-NARG 25, 50, or 100 microM), a selective inhibitor of nitric oxide synthase (NOS) -the synthetic enzyme of NO- on quinolinic acid (QUIN 100 microM)-induced neurotoxicity (measured as lactate dehydrogenase (LDH) leakage) in rat striatal slices. Oxidative stress was also measured both as lipid peroxidation and as the levels of reduced (GSH) and oxidized (GSSG) glutathione, in an effort to elucidate a possible participation of NO in the toxic mechanisms involved in NMDA receptor-mediated neuronal injury. The action of L-arginine (L-ARG 100 or 200 microM), a well-known NO precursor, was also tested on QUIN-induced neurotoxicity and oxidative stress. Results showed that QUIN produced significant changes in both cell damage (177%) and oxidative injury (203% in lipid peroxidation, 68% in GSH, and 123% in GSSG) as compared to control values. All these effects were antagonized by adding L-NARG to the incubation media, whereas L-ARG alone, or in combination with QUIN, significantly enhanced both lipid peroxidation and LDH leakage. Moreover, the protective effects of L-NARG on QUIN-induced lipid peroxidation were reversed by addition of an excess of L-ARG to the media. These findings indicate that NO is probably mediating the mechanism of neurotoxicity produced by QUIN, which may be of potential value to explain the molecular basis of neurodegenerative processes linked to QUIN-mediated NMDA receptor overactivation.
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PMID:Nomega-nitro-L-arginine, a nitric oxide synthase inhibitor, antagonizes quinolinic acid-induced neurotoxicity and oxidative stress in rat striatal slices. 1040 23

We show that macrophages of X-linked immunodeficient mice with a mutant nonfunctional Bruton's tyrosine kinase produce less NO than wild-type macrophages in response to a variety of stimuli. Induction of the inducible NO synthase (iNOS) protein, the transcription factor IFN regulatory factor-1 involved in iNOS expression, and the transcription factor STAT-1 involved in regulating IFN regulatory factor-1 induction are all poorer in X-linked immunodeficient than in wild-type macrophages. On the other hand, induction of IL-12 is higher in X-linked immunodeficient than in wild-type macrophages. Macrophage IL-12 induction is enhanced by iNOS inhibitors such as aminoguanidine and thiocitrulline and is inhibited by NO generation via sodium nitroprusside. There is relative enhancement of IFN-gamma production by immune T cells from mice immunized under aminoguanidine cover. Our data thus suggest that Bruton's tyrosine kinase participates in signaling for iNOS induction via IFN regulatory factor-1 in macrophages and that NO is an inhibitor of IL-12 induction.
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PMID:Bruton's tyrosine kinase deficiency in macrophages inhibits nitric oxide generation leading to enhancement of IL-12 induction. 1043 10

Mechanisms responsible for the pulsatile release of gonadotrophin secretion in prepubertal heifers are not fully known. We have shown that an excitatory amino acid agonist, N-Methyl-D,L-aspartic acid (NMA), induces an immediate release of luteinizing hormone (LH) and follicle stimulating hormone (FSH) in prepubertal heifers. Nitric oxide (NO) has also emerged as an important regulator of LH release in rats. This study was designed to test the role of NO in the regulation of gonadotrophin release as well as the possible mediation by NO of the effects of NMA and gonadotrophin releasing hormone (GnRH) on gonadotrophin secretion in heifer calves. In experiment 1, four groups of five prepubertal heifers (33 weeks old) received one of the following treatments: (1); N-G-nitro-L-arginine methyl ester (L-NAME, a NO synthase inhibitor, 35 mg/kg, i.v., once); (2) NMA (4.7 mg/kg, i.v., once); (3) L-NAME+NMA (as above); and (4) Vehicle (saline, i.v.). All heifers in all groups were also challenged with a bolus injection of GnRH (10 ng/kg, i.v., once). Blood samples were collected every 15 min for 10 h. L-NAME was injected after the first blood sample, NMA after 2 h and GnRH after 6 h of blood sampling. Administration of L-NAME alone, suppressed the spontaneous pulses of LH (P<0.04). Heifers in the NMA group responded with a significantly greater LH release than did the heifers in the L-NAME+NMA group (P<0.05). Following the GnRH challenge, heifer calves treated with L-NAME or NMA had higher LH pulse responses than the controls (P<0.05). In a second experiment, four groups of five heifer calves (34 weeks old) were given one of the following treatments: (1) L-NAME (as above); (2) L-arginine, a NO precursor (ARG, 100 mg/kg/h, i.v. drip infused for 6 h starting 2 h after first blood sample was taken); (3) L-NAME+ARG (as above); and (4) Vehicle (saline i.v. bolus and drip for 6 h). Blood samples were taken every 10 min for 8 h. Administration of L-NAME suppressed the pulsatile release of LH and FSH (P<0.05). Compared to the control group, infusion of ARG by itself did not change the pattern of LH secretion (P>0.05); however, in heifers given L-NAME, ARG restored a normal pattern of LH pulses, similar to the control values (P>0.05). It was therefore concluded that NO is involved in the regulation of LH, and possibly FSH, secretion and that NO may mediate, at least in part, the stimulatory effects of NMA on LH, and to some extent FSH, release. The responses to GnRH led us to suggest that NO may have inhibitory effects on the pituitary and NMA may have increased pituitary sensitivity to GnRH.
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PMID:Nitric oxide regulation of gonadotrophin secretion in prepubertal heifers1. 1044 5

The effects of bath application of the nitric oxide (NO) precursor L-arginine (L-ARG) on the resting activity (RA) of afferent crista fibers were studied in isolated statocysts of the cuttlefish Sepia officinalis under various experimental conditions. L-ARG (threshold 10(-7) M) had three different effects: inhibition, excitation, and excitation followed by an inhibition; only the inhibitory effect of L-ARG was dose-dependent. D-Arginine (D-ARG) had no effect. When the preparation was pre-treated with NO synthase inhibitors (N(G)-Nitric-L-arginine methyl ester HCl (L-NAME), N(G)-Nitro-L-arginine (L-NOARG)), both the inhibitory and the excitatory effects of L-ARG significantly decreased at higher concentrations (10(-5 to -4) M), or were completely blocked at lower concentrations (10(-7 to -6) M), of L-ARG. When the preparation was pre-treated with guanylate cyclase inhibitors (1H-[1,2, 4]oxadiazolo[4,3,-a]quinoxalin-1-one (ODQ), methylene blue (M-BLU), cystamine (CYS)), L-ARG had only excitatory effects, whereas its effects were only inhibitory when the preparation was pre-treated with adenylate cyclase inhibitors 2',3'-dideoxyadenosine (DDA), MDL-12330A (MDL), nicotinic acid (NIC-A)). L-ARG had no effects when the pre-treatment was with a guanylate cyclase inhibitor and an adenylate cyclase inhibitor combined; in that situation, the RA of the afferent fibers remained. These data indicate that in cephalopod statocysts, a cGMP and a cAMP signal transduction pathway (presumably via the generation of NO) are responsible for the effects of L-ARG on the RA of crista afferent fibers. They also indicate that the L-ARG-cGMP pathway is the dominant pathway and is inhibitory, and that both pathways have only modulatory effects on, but are not essential for, the generation of the RA.
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PMID:Effects of L-arginine on the afferent resting activity in the cephalopod statocyst. 1052 42

In this report, we demonstrate that a fetal mouse skin-derived dendritic cell line produces nitric oxide (NO) in response to the endotoxin [lipopolysaccharide (LPS)] and to cytokines [tumor necrosis factor-alpha (TNF-alpha) and granulocyte-macrophage colony-stimulating factor (GM-CSF)]. Expression of the inducible isoform of NO synthase (iNOS) was confirmed by immunofluorescence with an antibody against iNOS. The tyrosine kinase inhibitor genistein decreased LPS- and GM-CSF-induced nitrite (NO(-2)) production. The effect of LPS and cytokines on NO(-2) production was inhibited by the Janus kinase 2 (JAK2) inhibitor tyrphostin B42. The p38 mitogen-activated protein kinase (p38 MAPK) inhibitor SB-203580 also reduced the NO(-2) production evoked by LPS, TNF-alpha, or GM-CSF, but it was not as effective as tyrphostin B42. Inhibition of MAPK kinase with PD-098059 also slightly reduced the effect of TNF-alpha or GM-CSF on NO(-2) production. Immunocytochemistry studies revealed that the transcription factor nuclear factor-kappaB was translocated from the cytoplasm into the nuclei of fetal skin-derived dendritic cells (FSDC) stimulated with LPS, and this translocation was inhibited by tyrphostin B42. Our results show that JAK2 plays a major role in the induction of iNOS in FSDC.
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PMID:Involvement of JAK2 and MAPK on type II nitric oxide synthase expression in skin-derived dendritic cells. 1060 Jul 56

Cytokines are integral components of the complex intercellular communication required to mount and control an immune response. The purpose of this review is to describe the influence of the most important cytokines on the thyroid gland in animal models and in humans and on isolated thyroid cells. We have used an in vitro system of monolayer cultures of human paraadenomatous thyroid cells for the study of the phenomenological actions of cytokines on the function of the thyrocytes. A biphasic, non-cytotoxic and reversible influence of IL-1 supporting a role of IL-1 in the physiological regulation of thyroid cell function was found. IL-1 in moderate to high concentrations and TNF and IFN-gamma all inhibited thyroid cell function. IL-1 induced release of NO and cGMP from the thyrocytes, but an inhibitor of nitric oxide synthase did not abolish the IL-1-induced inhibition of the release of Tg and cAMP from the TEC. The biochemical pathways by which IL-1 influences thyrocytes are not fully clarified. IL-1 beta inhibited the adenylate cyclase mediated pathways and stimulated the guanylate cyclase mediated pathways, and all the demonstrated IL-1 effects were counteracted by IL-1 ra indicating, that the effects were exerted through activation of specific IL-1 receptors on thyrocytes. The predominant effect of cytokines on the hypothalamic-pituitary-thyroid axis is inhibitory and the cytokines may play a role during physiological as well as pathophysiological conditions contributing to the euthyroid sick syndrome and AITD. A model for the pathogenesis of AITD is outlined. The trigger, of the autoimmune process in AITD is unknown. However, the earliest steps include the interaction between antigen presenting cells and Th cells. In the later phase antigen specific and non-specific immune cells are recruited to the thyroid and an inflammatory infiltrate is built. During this process inflammatory mediators including cytokines, free nitric and oxygen radicals are released. A better understanding of pathogenetic mechanisms is crucial for an appropriate and effective management of AITD, and if possible, for its prevention. Further studies of the actions of these potent agents are one of the keys to a better understanding of the endocrine system both in health and in disease.
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PMID:Cytokine actions on the thyroid gland. 1082 1

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