EC:2.7.10.2 - FACTA Search

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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)

In the current studies, we examined whether focal adhesion kinase (FAK) and paxillin play a role in insulin-like growth factor-I (IGF-I)-stimulated morphological changes in neuronal cells. In SH-SY5Y human neuroblastoma cells, 10 nM IGF-I enhanced the extension of lamellipodia within 30 min. Scanning electron microscopy and staining with rhodamine-phalloidin showed that these lamellipodia displayed ruffles, filopodia, and a distinct meshwork of actin filaments. Immunofluorescent staining identified focal concentrations of FAK, paxillin, and phosphotyrosine within the lamellipodia. Immunoprecipitation experiments revealed that FAK and paxillin are tyrosine-phosphorylated during IGF-I-stimulated lamellipodial extension. Maximal phosphorylation of FAK and paxillin was observed 15-30 min after the addition of 10 nM IGF-I, whereas maximal IGF-I receptor phosphorylation occurred within 5 min. FAK, paxillin, and IGF-I receptor tyrosine phosphorylation had similar concentration-response curves and were inhibited by the receptor blocking antibody alphaIR-3. These results indicate that FAK and paxillin are tyrosine-phosphorylated during IGF-I-stimulated lamellipodial advance and suggest that the tyrosine phosphorylation of these two proteins helps mediate IGF-I-stimulated cell and growth cone motility. These responses contrast directly with recent reports showing insulin-stimulated dephosphorylation of FAK and paxillin.
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PMID:Tyrosine phosphorylation of paxillin and focal adhesion kinase during insulin-like growth factor-I-stimulated lamellipodial advance. 903 May 91

In the current studies, we investigated the relationship between tyrosine phosphorylation and neurite formation. In SH-SY5Y neuroblastoma cells, the tyrosine kinase inhibitor methyl 2, 5-dihydroxycinnimate blocked neurite formation on laminin. This corresponded with inhibition of paxillin and focal adhesion kinase tyrosine phosphorylation as well as a disruption of actin filament organization and actin polymerization. This suggests that tyrosine phosphorylation helps direct changes in the actin cytoskeleton required for neurite formation.
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PMID:The tyrosine kinase inhibitor methyl 2,5-dihydroxycinnimate disrupts changes in the actin cytoskeleton required for neurite formation. 903 51

The development of the embryo is dependent upon a highly coordinated repertoire of cell division, differentiation, and migration. Protein-tyrosine phosphorylation plays a pivotal role in the regulation of these processes. Vitamin K-dependent gamma-carboxylated proteins have been identified as ligands for a unique family (Tyro 3 and 7) of receptor tyrosine kinases (RTKs) with transforming ability. The involvement of vitamin K metabolism and function in two well characterized birth defects, warfarin embryopathy and vitamin K epoxide reductase deficiency, suggests that developmental signals from K-dependent pathways may be required for normal embryogenesis. Using a chick embryogenesis model, we now demonstrate the existence of a vitamin K1-dependent protein-tyrosine phosphorylation cascade involving c-Eyk, a member of the Tyro 12 family, and key intracellular proteins, including focal adhesion kinase (pp125FAK), paxillin, and pp60src. This cascade is sensitive to alteration in levels or metabolism of vitamin K1. These findings provide a major clue as to why, in the mammalian (and human) fetus, the K-dependent proteins are maintained in an undercarboxylated state, even to the point of placing the newborn at hemorrhagic risk. The precise regulation of vitamin K1-dependent regulatory pathways would appear to be critical for orderly embryogenesis.
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PMID:A novel role for vitamin K1 in a tyrosine phosphorylation cascade during chick embryogenesis. 904 61

The versatility of integrin functions is mediated by engagement of a number of proteins that assemble with integrins. Among them, paxillin is one of the important molecules interacting with a variety of signaling molecules and cytoskeletal building blocks. We report here that paxillin is not a single molecule with a unique physiological property. We identified two human paxillin isoforms, beta and gamma. These isoforms have distinct amino acid insertions; each consists of a distinct exon, at the same site of previously reported paxillin (paxillin alpha). Several proteins were co-precipitated with paxillin, and we found that beta bound to focal adhesion kinase but weakly to vinculin, and gamma bound to vinculin but only weakly to focal adhesion kinase, although both bound equally to talin. No additional proteins were found to bind to beta and gamma over those binding to alpha. Unlike the alpha isoform, beta and gamma mRNAs were not detected in normal tissues, but several cancer cells expressed both alpha and beta proteins simultaneously. All three isoform proteins were expressed in promonocytic cells with ratios comparable with each other, and the expression patterns were altered during differentiation of floating promonocytic cells into adherent macrophage-like cells. Therefore, each isoform of paxillin exhibits distinct expression and different biochemical as well as physiological properties and thereby appears to act as a distinct module involved in different functions of integrins.
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PMID:Monocyte cells and cancer cells express novel paxillin isoforms with different binding properties to focal adhesion proteins. 905 45

Cyclic strain has been shown to modulate endothelial cell (EC) morphology, proliferation, and function. We have recently reported that the focal adhesion proteins focal adhesion kinase (pp125FAK) and paxillin, are tyrosine phosphorylated in EC exposed to strain and these events regulate the morphological change and migration induced by cyclic strain. Integrins are also localized on focal adhesion sites and have been reported to induce by tyrosine phosphorylation of pp125FAK under a variety of stimuli. To study the involvement of different integrins in signaling induced by cyclic strain, we first observed the redistribution of alpha and beta integrins in EC subjects to 4 h cyclic strain. Human umbilical vein endothelial cells (HUVEC) seeded on either fibronectin or collagen surfaces were subjected to 10% average strain at a frequency 60 cycles/min. Confocal microscopy revealed that beta 1 integrin reorganized in a linear pattern parallel with the long axis of the elongated cells creating a fusion of focal adhesion plaques in EC plated on either fibronectin (a ligand for alpha 5 beta 1) or collagen (a ligand for alpha 2 beta 1) coated after 4 h exposure to cyclic strain. beta 3 integrin, which is a vitronectin receptor, did not redistribute in EC exposed to cyclic strain. Cyclic strain also led to a reorganization of alpha 5 and alpha 2 integrins in a linear pattern in HUVEC seeded on fibronectin or collagen, respectively. The expression of integrins alpha 5, alpha 2, and beta 1 did not change even after 24 h exposure to strain when assessed by immunoprecipitation of these integrins. Cyclic strain-induced tyrosine phosphorylation of pp125FAK occurred concomitant with the reorganization of beta 1 integrin. We concluded that alpha 5 beta 1 and alpha 2 beta 1 integrins play an important role in transducing mechanical stimuli into intracellular signals.
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PMID:Cyclic strain induces reorganization of integrin alpha 5 beta 1 and alpha 2 beta 1 in human umbilical vein endothelial cells. 905 8

The chemokine RANTES is a chemoattractant and activating factor for T lymphocytes. Investigation of the signal transduction mechanisms induced by RANTES in T cells revealed tyrosine phosphorylation of multiple protein species with prominent bands at 70-85 and 120-130 kD. Immunoprecipitation and Western analyses revealed that a protein of 125 kD was identical to the focal adhesion kinase (FAK) pp125FAK. RANTES stimulated phosphorylation of FAK as early as 30 seconds and immunoblots using antiphosphotyrosine monoclonal antibodies revealed that there was consistent phosphorylation of a 68-70 kD species in the pp125FAK immunoprecipitates. Immunoblotting and kinase assays showed this to be two separate proteins, the tyrosine kinase zeta-associated protein (ZAP) 70, and the focal adhesion protein paxillin. These results indicate a potentially important role for RANTES in the generation of T cell focal adhesions and subsequent cell activation via a molecular complex containing FAK, ZAP-70, and paxillin.
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PMID:RANTES induces tyrosine kinase activity of stably complexed p125FAK and ZAP-70 in human T cells. 906 47

Treatment of Swiss 3T3 cells with cytotoxic necrotizing factor 1 (CNF1) from Escherichia coli and dermonecrotic toxin (DNT) from Bordetella bronchiseptica, which directly target and activate p21(rho), stimulated tyrosine phosphorylation of focal adhesion kinase (p125(fak)) and paxillin. Tyrosine phosphorylation induced by CNF1 and DNT occurred after a pronounced lag period (2 h), and was blocked by either lysosomotrophic agents or incubation at 22 degrees C. CNF1 and DNT stimulated tyrosine phosphorylation of p125(fak) and paxillin, actin stress fiber formation, and focal adhesion assembly with similar kinetics. Cytochalasin D and high concentrations of platelet-derived growth factor disrupted the actin cytoskeleton and completely inhibited CNF1 and DNT induced tyrosine phosphorylation. Microinjection of Clostridium botulinum C3 exoenzyme which ADP-ribosylates and inactivates p21(rho) function, prevented tyrosine phosphorylation of focal adhesion proteins in response to either CNF1 or DNT. In addition, our results demonstrated that CNF1 and DNT do not induce protein kinase C activation, inositol phosphate formation, and Ca2+ mobilization. Moreover, CNF1 and DNT stimulated DNA synthesis without activation of p42(mapk) and p44(mapk) providing additional evidence for a novel p21(rho)-dependent signaling pathway that leads to entry into the S phase of the cell cycle in Swiss 3T3.
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PMID:Cytotoxic necrotizing factor 1 from Escherichia coli and dermonecrotic toxin from Bordetella bronchiseptica induce p21(rho)-dependent tyrosine phosphorylation of focal adhesion kinase and paxillin in Swiss 3T3 cells. 908 4

The related adhesion focal tyrosine kinase (RAFTK), a recently discovered member of the focal adhesion kinase family, has previously been reported to participate in signal transduction in neuronal cells, megakaryocytes, and B lymphocytes. We have found that RAFTK is constitutively expressed in human T cells and is rapidly phosphorylated upon the activation of the T cell receptor (TCR). This activation also results in an increase in the autophosphorylation and kinase activity of RAFTK. After its stimulation, there was an increase in the association of the src cytoplasmic tyrosine kinase Fyn and the adapter protein Grb2. This association was mediated through the SH2 domains of Fyn and Grb2. RAFTK also co-immunoprecipitates with the SH2 domain of Lck and with the cytoskeletal protein paxillin through its COOH-terminal proline-rich domain. The tyrosine phosphorylation of RAFTK after T cell receptor-mediated stimulation was reduced by the pretreatment of cells with cytochalasin D, suggesting the role of the cytoskeleton in this process. These observations indicate that RAFTK participates in T cell receptor signaling and may act to link signals from the cell surface to the cytoskeleton and thereby affect the host immune response.
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PMID:RAFTK, a novel member of the focal adhesion kinase family, is phosphorylated and associates with signaling molecules upon activation of mature T lymphocytes. 909 79

The corneal epithelium, like other stratifying epithelium, does not present a well formed junctional complex as compared to that of simple epithelia. However, the resistance barrier of the corneal epithelium is to a great extent generated by zonula occludens (ZO, tight junction), which are formed between the cells of the apical-most strata. The tight junction provides a continuous seal around the apical aspect of adjoining epithelial cells, thereby preventing the free passage of molecules between adjacent epithelial cells (paracellular pathway). We have examined rabbit corneal epithelia with monoclonal antibody against the tight junction associated protein ZO1. With this antibody, we resolved two distinct patterns of ZO1 expression, one being the lateral boundary of the apical cell, which appeared as a true zonula around these cells. The second pattern of expression for ZO1 was at a set of punctate spots that correspond to the connection of the most apical portion of the basal corneal epithelial cells, with the above wing cells. En face, confocal analyses revealed that these areas consisted of 5-6 distinct spots per basal cell at or near the contact points with the immediate wing cells above. ImmunoEM revealed that the mid-epithelial accumulations of ZO1 were not tight junctions, but rather a form of adherens junction. The expression of ZO1 in the mid-epithelial level of the cornea is neither correlated with the presence of tight junction, nor with the established barrier functions. Interestingly, these junctions in the corneal epithelium also contain paxillin, a focal adhesion associated phosphoprotein which is a target of pp125 focal adhesion kinase, erbB-2 kinase and p21Obcr/abl oncogene. We postulated that the ZO1/paxillin adherens junction within stratified epithelium, such as the corneal epithelium, may function to reinforce attachments at the level of the basal cell to wing cell junction and be regulated by reversible phosphorylation. We speculate that the regulated phosphorylation of tyrosine residues on paxillin may perform a critical role in controlling epithelial cell-cell interactions as it does in cell-matrix adhesion.
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PMID:ZO1 in corneal epithelium: association to the zonula occludens and adherens junctions. 909 16

We have characterized signaling pathways involving the related adhesion focal tyrosine kinase (RAFTK, also known as PYK2 or CAK-beta) in CMK human megakaryocytic cells. Stem cell factor, which potentiates the growth of megakaryocytes and their progenitors, and phorbol myristate acetate, which causes differentiation of megakaryocytic cell lines, induced the tyrosine phosphorylation of RAFTK but not of focal adhesion kinase. Stimulation of CMK cells with stem cell factor resulted in an increase in the autophosphorylation and kinase activity of RAFTK. Phosphorylation of RAFTK under these conditions was mediated by a protein kinase C-dependent pathway. Cytochalasin D, which disrupts the cytoskeleton, abolished the phosphorylation of RAFTK upon phorbol myristate acetate and stem cell factor stimulation, indicating that RAFTK association with the actin cytoskeleton appears to be critical for its phosphorylation. In addition, we observed an association of RAFTK with paxillin, a 68-kDa cytoskeleton protein. Using in vitro binding assays, RAFTK and paxillin were shown to bind directly through the C-terminal proline-rich domain. Transient overexpression of a dominant-negative mutant of RAFTK inhibited significantly the tyrosine phosphorylation of paxillin upon phorbol myristate acetate stimulation. These observations indicate that RAFTK might play an important role in the phosphorylation of signaling pathways within the focal adhesions and that RAFTK participates in signaling events that link signals from the cell surface to the cytoskeleton. Furthermore, this study suggests that RAFTK might be involved in megakaryocyte proliferation and differentiation.
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PMID:Tyrosine phosphorylation of the related adhesion focal tyrosine kinase in megakaryocytes upon stem cell factor and phorbol myristate acetate stimulation and its association with paxillin. 909 34

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