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)

Cysteine-rich 61 (Cyr61), from the CCN gene family, is a secreted and matrix-associated protein, which is involved in many cellular activities such as growth and differentiation. However, the effect of Cyr61 on migration activity in human chondrosarcoma cells is mostly unknown. Here, we found that Cyr61 increased the migration and expression of matrix metalloproteinase (MMP)-13 in human chondrosarcoma cells (JJ012 cells). RGD peptide, alphavbeta3 monoclonal antibody and mitogen-activated protein kinase (MEK) inhibitors (PD98059 and U0126) but not RAD peptide inhibited the Cyr61-induced increase of the migration and MMP-13 upregulation of chondrosarcoma cells. Cyr61 stimulation increased the phosphorylation of focal adhesion kinase (FAK) and extracellular signal-regulated kinase (ERK). In addition, activator protein-1 (AP-1) decoy oligodeoxynucleotide also suppressed the MMP-13 messenger RNA and enzyme activity enhanced by Cyr61. Moreover, Cyr61 increased the binding of c-Fos and c-Jun to the AP-1 element on the MMP-13 promoter. Taken together, our results indicated that Cyr61 enhances the migration of chondrosarcoma cells by increasing MMP-13 expression through the alphavbeta3 integrin receptor, FAK, ERK, c-Fos/c-Jun and AP-1 signal transduction pathway.
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PMID:Cyr61 increases migration and MMP-13 expression via alphavbeta3 integrin, FAK, ERK and AP-1-dependent pathway in human chondrosarcoma cells. 1912 48

Integrins are heterodimeric cell-surface molecules, which act as the principle mediators of molecular dialog between a cell and its extracellular matrix environment. In addition to their structural functions, integrins mediate signaling from the extracellular space into the cell through integrin-associated signaling and adaptor molecules such as FAK (focal adhesion kinase), ILK (integrin-linked kinase), PINCH (particularly interesting new cysteine-histidine rich protein) and Nck2 (non-catalytic (region of) tyrosine kinase adaptor protein-2). Via these molecules, integrin signaling tightly and cooperatively interacts with receptor tyrosine kinases (RTKs) signaling to regulate survival, proliferation and cell shape as well as polarity, adhesion, migration and differentiation. In the heart and blood vessels, the function and regulation of these molecules can be partially disturbed and thus contribute to cardiovascular diseases such as cardiac hypertrophy and atherosclerosis. In this review, we discuss the primary mechanisms of action and signaling of integrins in the cardiac and vascular system in normal and pathological states, as well as therapeutic strategies for targeting these systems (1).
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PMID:Integrins and proximal signaling mechanisms in cardiovascular disease. 1927 3

This study was undertaken to investigate the mechanism by which phenethyl isothiocyanate (PEITC), a natural compound from cruciferous vegetables, exhibits antitumor effect on prostate cancer cells. Cell proliferation, cell cycle, Western blot, gene transfer, and reporter assays were used to test the effects of PEITC on the growth and IL6/JAK/STAT3 pathway in prostate cancer. The result showed that PEITC significantly inhibited DU145 cell proliferation in a dose-dependent manner and induced the cell arrest at G2-M phase. PEITC inhibited both constitutive and IL-6-induced STAT3 activity in DU145 cells. IL-6-stimulated phosphorylation of JAK2, an STAT3 upstream kinase, was also attenuated by PEITC. Moreover, an antioxidant reagent, N-acetyl-L-cysteine (NAC) which suppresses reactive oxygen species (ROS) generation, reversed the early inhibitory effects of PEITC on cell proliferation, constitutive or IL-6-mediated JAK-STAT3 phosphorylation in PCa cells. Taken together, our data demonstrated that PEITC can inhibit the activation of the JAK-STAT3 signal-cascade in prostate cancer cells and the underlying mechanism may be partially involved with blocking cellular ROS production during the early stage of the signaling activation by IL-6.
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PMID:Phenethyl isothiocyanate inhibits STAT3 activation in prostate cancer cells. 1943 84

As a member of a newly discovered protein family, the suppressor of cytokine signalling 3 (SOCS-3) has been shown to regulate the responses of many immune cytokines in a negative auto-regulatory manner. The full-length cDNA of common carp SOCS-3 was 1603 bp and contained a 630 bp open reading frame (ORF) coding for a protein of 209 amino acids. Carp SOCS-3 molecule was well conserved especially in the SRC homology 2 (SH2) and the SOCS box. The kinase inhibitory region (KIR) and ESS domains, upstream of the SH2 domain, were conserved in carp SOCS-3, except for a specific insertion (PHRYK) in the KIR domain at the N-terminal region. Three conserved cysteine (Cys-102, 124 and 193) residues, and one additional cysteine (Cys-168) residue, were also found in carp SOCS-3. The 2015 bp genomic DNA of carp SOCS-3 contained two exons and one intron. Phylogenetic analysis showed that carp SOCS-3 sequence grouped with other known fish SOCS-3 sequences with zebrafish SOCS-3 as the closest neighbour. RT-PCR analysis showed that carp SOCS-3 was initially expressed at 4 h pf (post-fertilization) and gradually increased up to 4 w pf during embryogenesis. By RT-qPCR analysis, carp SOCS-3 gene was predominantly detected in gill, head kidney, thymus and skin, followed by spleen and peripheral blood, lower expression level was detected in kidney, intestine, liver and muscle; the SOCS-3 transcript was significantly increased in thymus, head kidney, spleen and intestine of GH (growth hormone)-transgenic carp; after SVCV (spring viraemia of carp virus) infection, the carp SOCS-3 transcript was significantly up-regulated in gill, intestine, thymus, spleen, head kidney and kidney tissues in a time-dependent manner. These results suggest that teleost SOCS-3 may play an active role in the modulation of viral-induced innate immune response and in preventing the overaction of some cytokines with viral stimulation.
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PMID:Cloning of common carp SOCS-3 gene and its expression during embryogenesis, GH-transgene and viral infection. 2002 76

NO synthesis is a prerequisite for proper insulin sensitivity in insulin-targeted tissues; however, the molecular basis for this process remains unclear. Using a gain-of-function model of endothelial nitric-oxide synthase (eNOS)-transfected COS-7 cells, we have shown a critical role of NO in insulin responsiveness, as evidenced by an NO-dependent increase of tyrosine phosphorylation levels of the insulin receptor and its downstream effectors insulin receptor substrate-1 and PKB/AKT. We hypothesized that NO-induced inactivation of endogenous protein-tyrosine phosphatases (PTPs) would enhance insulin receptor-mediated signaling. To test this hypothesis, we devised a new method of the PTP labeling using a cysteine sulfhydryl-reacted probe. Under the acidic conditions employed in this study, the probe recognized the reduced and active forms but not the S-nitrosylated and inactive forms of endogenous PTPs. Our data suggest that phosphatases SHP-1, SHP-2, and PTP1B, but not TC-PTP, are likely S-nitrosylated at the active site cysteine residue concomitantly with a burst of NO production in signaling response to insulin stimulation. These results were further confirmed by phosphatase activity assays. We investigated further the role of NO as a regulator of insulin signaling by RNA interference that ablates endogenous eNOS expression in endothelial MS-1 cells. We have shown that eNOS-dependent NO production is essential for the activation of insulin signaling. Our findings demonstrate that NO mediates enhancement of insulin responsiveness via the inhibition of insulin receptor phosphatases.
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PMID:Enhancement of insulin responsiveness by nitric oxide-mediated inactivation of protein-tyrosine phosphatases. 2006 34

The integrity of transplanted mesenchymal stem cells (MSCs) for cardiac regeneration is dependent on cell-cell or cell-matrix adhesion, which is inhibited by reactive oxygen species (ROS) generated in ischemic surroundings after myocardial infarction. Intracellular ROS play a key role in the regulation of cell adhesion, migration, and proliferation. This study was designed to investigate the role of ROS on MSC adhesion. In H(2)O(2) treated MSCs, adhesion and spreading were inhibited and detachment was increased in a dose-dependent manner, and these effects were significantly rescued by co-treatment with the free radical scavenger, N-acetyl-L-cysteine (NAC, 1 mM). A similar pattern was observed on plates coated with different matrices such as fibronectin and cardiogel. Hydrogen peroxide treatment resulted in a marked decrease in the level of focal adhesion-related molecules, such as phospho-FAK and p-Src in MSCs. We also observed a significant decrease in the integrin-related adhesion molecules, alpha V and beta1, in H(2)O(2) treated MSCs. When injected into infarcted hearts, the adhesion of MSCs co-injected with NAC to the border region was significantly improved. Consequently, we observed that fibrosis and infarct size were reduced in MSC and NAC-injected rat hearts compared to in MSC-only injected hearts. These results indicate that ROS inhibit cellular adhesion of engrafted MSCs and provide evidence that the elimination of ROS might be a novel strategy for improving the survival of engrafted MSCs.
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PMID:Reactive oxygen species inhibit adhesion of mesenchymal stem cells implanted into ischemic myocardium via interference of focal adhesion complex. 2007 42

Titanium metal has good biocompatibility, superior mechanical properties and excellent corrosion resistance. Like most metals, however, it exhibits poor bioactive properties and fails to bond to bone tissue. To improve its bioactivity, bioactive molecules, such as peptides, can be grafted onto titanium surfaces. In order to do this, the first step may be to establish a stable and compatible linking layer on the titanium surface. In this study, we used electrochemical methods to deposit gold (Au) nanoparticles onto titanium substrates, to which we then grafted arginine-glycine-asparagine-cysteine (RGDC) peptides by thiolate covalent coupling. Properties of electrodeposited Au nanoparticles were evaluated using a variety of techniques, including microstructural, chemical and electrochemical measurements. The biological responses of the RGDC-grafted Ti substrates were evaluated using MG3 human osteoblast-like cells. The results of thin-film X-ray diffraction (TFXRD) and scanning electron microscopy (SEM) indicated the polycrystalline orientation of Au nanoparticles deposited on the titanium surfaces with high density and controllable particle size. The RGDC peptide could be covalently bonded to Au-deposited Ti substrates via Au-thiolate species, as expected. Cell morphology showed that, on RGDC-immobilized titanium with Au particles, MG63 cells attached and spread more rapidly than on Ti substrates either without peptide or with direct loading of the peptide. Immunostaining for focal adhesion kinase (FAK) demonstrated that RGDC enhanced cell attachment. The present method for the formation of Au nanoparticles may serve as an alternative route for bioactive molecule immobilization on Ti implants.
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PMID:Preparation and properties of gold nanoparticle-electrodeposited titanium substrates with Arg-Gly-Asp-Cys peptides. 2016 23

Osteoprotegerin (OPG) is a soluble tumor necrosis factor receptor family member that is expressed by a range of cell types in bone as well as in the vasculature. However, the specific role of OPG in the vascular system is unclear. We recently reported that OPG treatment protects endothelial cells from detachment and apoptotic cell death induced by cysteine proteases of Porphyromonas gingivalis, an important pathogen of adult periodontitis. We also found that OPG activates the extracellular signal-regulated kinase (ERK) 1/2, which has been linked to cell survival and angiogenesis. In this study, we demonstrate that exposure to OPG induces a substantial morphological change in human dermal microvascular endothelial cells. Our results show that OPG induced a dose-dependent increase in the length of microtubules, which coincided with the transition of the cells from a polygonal to an elongated shape. Furthermore, we demonstrated that OPG activates signaling pathways that lead to the activation of Src, focal adhesion kinase, and ERK1/2. These findings suggest that OPG regulates at least two distinct pathways: one that induces cell proliferation via ERK signaling and another that induces angiogenesis via Src signaling. The findings of this study suggest that OPG may function as a regulator of angiogenesis.
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PMID:Osteoprotegerin induces cytoskeletal reorganization and activates FAK, Src, and ERK signaling in endothelial cells. 2033 38

Transient reactive oxygen species (ROS) production is currently proving to be an important mechanism in the regulation of intracellular signalling, but reports showing the involvement of ROS in important biological processes, such as cell differentiation, are scarce. In this study, we show for the first time that ROS production is required for megakaryocytic differentiation in K562 and HEL cell lines and also in human CD34(+) cells. ROS production is transiently activated during megakaryocytic differentiation, and such production is abolished by the addition of different antioxidants (such as N-acetyl cysteine, trolox, quercetin) or the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase inhibitor diphenylene iodonium. The inhibition of ROS formation hinders differentiation. RNA interference experiments have shown that a p22(phox)-dependent NADPH oxidase activity is responsible for ROS production. In addition, the activation of ERK, AKT and JAK2 is required for differentiation, but the activation of phosphatidylinositol 3-kinase and c-Jun N-terminal kinase seems to be less important. When ROS production is prevented, the activation of these signalling pathways is partly inhibited. Taken together, these results show that NADPH oxidase ROS production is essential for complete activation of the main signalling pathways involved in megakaryocytopoiesis to occur. We suggest that this might also be important for in vivo megakaryocytopoiesis.
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PMID:p22phox-dependent NADPH oxidase activity is required for megakaryocytic differentiation. 2052 55

In the past decade tremendous progress has been made toward a new class of therapeutics termed 'targeted covalent drugs', in which structure-based approaches are employed to create small molecules that inactivate their protein target through targeted covalent attachment to a specific cysteine. In the kinase field, this approach is demonstrating promise in overcoming the potency, selectivity, and efficacy challenges currently faced by reversible kinase inhibitors, with several advancing into late stage clinical testing. This design paradigm has been successfully applied to making drug candidates for epidermal growth factor receptor (EGFR), Her2, and Bruton's tyrosine kinase (Btk). Here we review recent pre-clinical and clinical advances with targeted covalent kinase inhibitors, and the potential for broader application of the approach.
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PMID:Targeted covalent drugs of the kinase family. 2060 16

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