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)

The c-Jun NH(2)-terminal kinase (JNK) is implicated in the apoptotic response of cells exposed to stress, but the JNK signal transduction pathway may not act exclusively in apoptosis. In some studies of tumor cells, JNK has been implicated in signaling cell survival. The possibility that JNK might mediate a survival signal in tumor cells is consistent with the observation that it is activated in response to some oncogenes, such as the leukemogenic oncogene BCR-ABL, which is created by a reciprocal translocation between human chromosomes 9 and 22 (ref. 2). The BCR-ABL protein activates the JNK signaling pathway in hematopoietic cells and increases transcriptional activity mediated by the transcription factor AP1 (ref. 3). Also, inhibition of c-Jun or JNK prevents BCR-ABL-induced cell transformation in vitro. Although this implicates the JNK signaling pathway in transformation by BCR-ABL, the possible role of JNK in this process is unclear. We find that disruption of the JNK ortholog Mapk8 (also known as Jnk1) in mice causes defective transformation of pre-B cells by BCR-ABL in vitro and in vivo. The Jnk1 protein is required for the survival of the transformed cells in the absence of stromal support. Failure to survive is associated with decreased expression of Bcl2, and the effect of Jnk1 deficiency can be rescued by transgenic expression of Bcl2. Our results show that Jnk1 signals cell survival in transformed B lymphoblasts and suggest that it may contribute to the pathogenesis of some proliferative diseases.
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PMID:Survival signaling mediated by c-Jun NH(2)-terminal kinase in transformed B lymphoblasts. 1216 51

Previous reports suggest that PKC plays an important role in regulating myogenesis. However, the regulatory signaling pathways are not fully understood. We examined the effects of PKC downregulation on signaling events during skeletal muscle differentiation. We found that downregulation of PKC results in increased myogenesis in C2C12 cells as measured by creatine kinase activity and myogenin expression. We showed that, during differentiation, downregulation of PKC expression results in increased tyrosine phosphorylation of FAK, Cas, and paxillin, concomitant with enhanced Cas-CrkII complex formation, which leads to activation of JNK2. But in proliferated muscle cells, PKC inhibition results in FAK and Cas tyrosine dephosphorylation. Further, disruption of actin cytoskeleton by cytochalasin D prevents the activation of FAK and Cas as well as the formation of Cas-CrkII complex stimulated by PKC downregulation during muscle cell differentiation. Finally, we observed that PKC downregulation increases the tyrosine phosphorylation of focal adhesion associated proteins. Based on the above data, we propose that PKC downregulation results in enhanced tyrosine phosphorylation of FAK, Cas, and paxillin, thus promoting the establishment of Cas-CrkII complex, leading to activation of JNK and that these interactions are dependent upon the integrity of actin cytoskeleton during muscle cell differentiation. Data presented here significantly contribute to elucidating the regulatory role of PKC in myogenesis possibly through integrin signaling pathway.
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PMID:PKC-regulated myogenesis is associated with increased tyrosine phosphorylation of FAK, Cas, and paxillin, formation of Cas-CRK complex, and JNK activation. 1219 Sep 87

MEK kinase 1 (MEKK1) induces apoptosis through the activation of caspases. The mechanism for MEKK1-induced apoptosis involves caspase-mediated cleavage of MEKK1, releasing a pro-apoptotic 91 kDa kinase fragment that serves to further amplify caspase activation in a feedback loop. Both cleavage of MEKK1 and increased expression of death receptor 4 (DR4, TRAILR1) and death receptor 5 (DR5, TRAILR2) occur following exposure of cells to genotoxins. Overexpression of kinase inactive MEKK1 inhibits MEKK1-mediated apoptosis and effectively blocks death receptor upregulation following etoposide treatment. Herein, we investigate the role of death receptor activation and the ability of AKT/PKB (AKT) to inhibit cell death in MEKK1-induced apoptosis. We show that by preventing DR4 and DR5 activation through expression of decoy receptor 1 (DcR1) and dominant negative FADD, we inhibit MEKK1-induced apoptosis. Furthermore, expression of 91 kDa MEKK1 increased DR4 and FAS mRNA and protein levels. MEKK1-induced apoptosis is amplified by blocking PI-3 kinase activation and overexpression of AKT blocked both MEKK1-induced apoptosis and caspase activation. AKT overexpression also prevented the cleavage of endogenous MEKK1 by genotoxins. AKT did not, however, block MEKK1-induced JNK activation, showing that regulation of the JNK pathway by MEKK1 is independent of its role in regulation of apoptosis. Thus, MEKK1-induced apoptosis requires TRAIL death receptor activation and is blocked by AKT through inhibition of MEKK1 cleavage.
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PMID:MEKK1-induced apoptosis requires TRAIL death receptor activation and is inhibited by AKT/PKB through inhibition of MEKK1 cleavage. 1224 63

Restoration of expression of the retinoblastoma gene to DU-145 prostate-cancer cells sensitizes them to apoptosis induced by gamma-irradiation. In contrast, RB expression-protected cells from UV-induced cell death. RB, a caspase substrate, remained intact during apoptosis in gamma-irradiated DU-145 cells because serine proteases, but not caspases, were activated. In DU-145 cells, RB-mediated apoptosis involved biphasic activation of ABL kinase. ABL kinase was activated within minutes of irradiation, but in the presence of RB expression ABL kinase activation was enhanced 48 h after irradiation, coincident with the onset of cell death. Apoptosis was inhibited by RB mutants with constitutive ABL binding, but ABL overexpression overcame the effect of the RB mutant constructs. Expression of kinase-dead ABL had a dominant-negative effect on RB-mediated cell death. Activation of JUN N-terminal kinase depended on the presence of RB and occurred within 8 h of irradiation. Mutant JUN proteins that lacked the N-terminal transactivation domain and serine substrates for JUN N-terminal kinase inhibited cell death in a dominant-negative manner. Irradiation of DU-145 cells caused activation of p38 MAPK independent of the expression of RB. Inhibitors of p38 MAPK blocked apoptosis after irradiation of RB-expressing cells. The data show that after gamma-irradiation, intact RB mediates transcriptional activation that leads to activation of JNK and late activation of ABL kinase. In addition, p38 MAPK activation occurred independent of RB. ABL kinase, JUN N-terminal kinase, and p38 MAPK activity were all required for RB-mediated DU-145 cell death after gamma-irradiation.
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PMID:Retinoblastoma protein-mediated apoptosis after gamma-irradiation. 1229 96

Although an elevated level of focal adhesion kinase (FAK) has been observed in a variety of invasive human tumors, forced expression of FAK alone in cultured cells does not cause them to exhibit transformed phenotypes. Therefore, the role of FAK in oncogenic transformation remains unclear. In this study, we have demonstrated that FAK overexpression in Madin-Darby canine kidney epithelial cells rendered them susceptible to transformation by hepatocyte growth factor (HGF). Using various FAK mutants, we found that the simultaneous bindings of Src and p130(cas) were required for FAK to potentiate cell transformation. Expression of FAK-related nonkinase, kinase-deficient Src, or the Src homology 3 domain of p130(cas), which respectively serve as dominant negative versions of FAK, Src, and p130(cas), apparently reversed the transformed phenotypes of FAK-overexpressed cells upon HGF stimulation. Moreover, FAK overexpression was able to enhance HGF-elicited signals, leading to sustained activation of ERK, JNK, and AKT, which could be prevented by the expression of the Src homology 3 domain of p130(cas). Taken together, our results indicate that the synergistic effect of FAK overexpression and HGF stimulation leads to cell transformation and implicate a critical role of p130(cas) in this process.
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PMID:Synergistic effect of focal adhesion kinase overexpression and hepatocyte growth factor stimulation on cell transformation. 1239 96

MEK kinase 1 (MEKK1) has been shown to contribute to the regulation of cell migration, whereas focal adhesion kinase (FAK) is a major player involved in both cell migration and integrin signaling. Here we show that MEKK1 and FAK are co-immunoprecipitated from mouse fibroblasts. Moreover, the association between MEKK1 and FAK appears to be physiologically relevant, as it is enhanced by treatment with epidermal growth factor (EGF). Targeting FAK to the membrane also enhanced its association with MEKK1, indicating that MEKK1 is localized to a membrane-related subcellular domain, perhaps focal adhesions. Interestingly, the expression of insulin receptor substrate-1 (IRS-1) was diminished in MEKK1-deficient fibroblasts, which is similar to an earlier finding in FAK-deficient fibroblasts. Insulin-like growth factor 1 (IGF-1)-induced ERK activation was diminished in MEKK1-deficient cells, but phosphatidylinositol 3-kinase/Akt activation was not. Although integrin reportedly regulates the transcription of the IRS-1 gene via FAK-mediated JNK activation, no impairment of fibronectin-stimulated activation of FAK, ERK, or JNK was observed in MEKK1-deficient cells. Reconstitution of MEKK1 expression restored IRS-1 expression as well as IGF-1-induced ERK activation. Taken together, these findings indicate that MEKK1 interacts with FAK in focal adhesions and regulates IRS-1 expression.
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PMID:MEK kinase 1 interacts with focal adhesion kinase and regulates insulin receptor substrate-1 expression. 1245 13

Integrin beta(3) is polymorphic at residue 33 (Leu(33) or Pro(33)), and the Pro(33) variant exhibits increased outside-in signaling to focal adhesion kinase and greater actin reorganization. Because focal adhesion kinase activation and an intact cytoskeleton are critical links for integrin-mediated signaling to MAPK, we explored the role of integrin alpha(IIb)beta(3) in this signaling using Chinese hamster ovary and human kidney 293 cell lines expressing either the Leu(33) or Pro(33) isoform of beta(3). Compared with Leu(33) cells, Pro(33) cells demonstrated substantially greater activation of ERK2 (but not MAPK family members JNK and p38) upon adhesion to immobilized fibrinogen (but not fibronectin) and upon integrin cross-linking. ERK2 activation was mediated through MAPK kinase and required phosphoinositide 3-kinase signaling and an intact actin cytoskeleton. Human platelets and Chinese hamster ovary cells expressing the Pro(33) isoform showed enhanced activation of the ERK2 substrate myosin light chain kinase (MLCK) upon adhering to fibrinogen. Furthermore, compared with platelets and cells expressing the Leu(33) isoform, the Pro(33) variant showed greater alpha-granule release, clot retraction, and adhesion to fibrinogen under shear stress, and these functional differences were abolished by MLCK and MAPK kinase inhibition. Post-integrin occupancy signaling through MAPK and MLCK after alpha(IIb)beta(3) cross-linking may explain in part the increased adhesive properties of the Pro(33) variant of integrin beta(3).
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PMID:Enhanced activation of mitogen-activated protein kinase and myosin light chain kinase by the Pro33 polymorphism of integrin beta 3. 1246 Sep 91

The involvement of Rho GTPases in signal transduction pathways leading to transcription activation is one of the major roles of this family of GTPases. Thus, the identification of transcription factors regulated by Rho GTPases and the understanding of the mechanisms of their activation and its biological outcome are of great interest. Here, we provide evidence that Rho GTPases modulate Stat5a, a transcription factor of the family of signal transducers and activators of transcription. RhoA triggers tyrosine phosphorylation (Y696) of Stat5a via a JAK2-dependent mechanism and promotes DNA-binding activity of Stat5a. Tyrosine phosphorylation of Stat5a is also stimulated physiologically by lysophosphatidic acid (LPA) in a Rho-dependent manner. Simultaneously, RhoA reduces serine phosphorylation of Stat5a at both serine residues S726 and S780, resulting in a further increase of activity as defined by mutagenesis experiments. Furthermore, serine dephosphorylation of Stat5a by RhoA does not take place by down-modulation of either JNK1, MEK1, or p38 MAP kinases, as determined by transfection experiments or chemical inhibition of both MEK1, p38, and JNK serine kinases. Thus, RhoA regulates Stat5a via tyrosine phosphorylation and via a yet to be determined novel down-modulating pathway that involves serine dephosphorylation. Finally, we provide evidence for a role of Stat5a in RhoA-induced epithelial-to-mesenchymal transition with concomitant increase in vimentin expression, E-cadherin down-regulation, and cell motility.
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PMID:STAT5a activation mediates the epithelial to mesenchymal transition induced by oncogenic RhoA. 1252 25

Synthetic alkyl-lysophospholipids (ALPs) represent a new class of anti-tumor agents that target cell membranes and induce apoptosis. However, the exact mechanisms by which ALPs exert these effects remain unclear. Here, we investigated in the epithelial carcinoma cell lines A431 and HeLa the effect of three clinically relevant ALPs [Et-18-OCH3 (Edelfosine), HePC (Miltefosine) and D-21266 (Perifosine)] on the phosphatidylinositol 3-kinase (PI3K)-Akt/PKB survival pathway. We found that growth factor-induced Akt/PKB activation in these cells is dependent on PI3K and that all three ALPs inhibited this pathway in a dose-dependent manner. We further showed that inhibition of the PI3K-Akt/PKB pathway by wortmannin or ALPs is associated with activation of the pro-apoptotic SAPK/JNK pathway. Inhibition of the PI3K-Akt/PKB survival pathway represents a novel mode of action of ALPs that may significantly contribute to the induction of apoptosis.
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PMID:Anti-cancer alkyl-lysophospholipids inhibit the phosphatidylinositol 3-kinase-Akt/PKB survival pathway. 1256 4

CC139 fibroblasts are one of several model systems in which the Raf --> MEK --> ERK1/2 pathway can inhibit apoptosis independently of the PI3K pathway; however, the precise mechanism for this protective effect is not known. Serum withdrawal from CC139 fibroblasts resulted in the rapid onset of apoptosis, which was prevented by actinomycin D or cycloheximide. Serum withdrawal promoted the rapid, de novo accumulation of Bim(EL), a proapoptotic 'BH3-only' member of the Bcl-2 protein family. Bim(EL) expression was an early event, occurring several hours prior to caspase activation. In contrast to studies in neurons, activation of the JNK --> c-Jun pathway was neither necessary nor sufficient to induce Bim(EL) expression. Selective inhibition of either the ERK pathway (with U0126) or the PI3K pathway (with LY294002) caused an increase in the expression of Bim(EL). Furthermore, selective activation of the ERK1/2 pathway by deltaRaf-1:ER* substantially reduced Bim(EL) expression, abolished conformational changes in Bax and blocked the appearance of apoptotic cells. The ability of deltaRaf-1:ER* to repress Bim(EL) expression required the ERK pathway but was independent of the PI3K --> PDK --> PKB pathway. Thus, serum withdrawal-induced expression of Bim(EL) occurs independently of the JNK --> c-Jun pathway and can be repressed by the ERK pathway independently of the PI3K pathway. This may contribute to Raf- and Ras-induced cell survival at low serum concentrations.
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PMID:Activation of ERK1/2 by deltaRaf-1:ER* represses Bim expression independently of the JNK or PI3K pathways. 1261 53

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