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)

ITK and Rlk/Txk are the predominant Tec family of tyrosine kinases expressed in T cells, and are involved in T cell antigen receptor mediated activation of T cells. These kinases require prior activation of Lck, Zap-70 and PI3-kinase for efficient activation. They share major substrates with both Lck and Zap-70, however the pathways they regulate are unclear. Recent evidence suggests that these kinases may not activate unique pathways, but instead serve as amplifiers for the upstream kinases Lck and Zap-70. This review will discuss the evidence for this view.
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PMID:The Tec family of tyrosine kinases in T cells, amplifiers of T cell receptor signals. 1212 69

An effective inflammatory immune response first requires the recruitment of cells to the site of inflammation and then their appropriate activation and regulation. Chemokines are critical in this response since they are both chemotactic and immunoregulatory molecules. In this regard, the interaction between CCL5 and CCR5 may be critical in regulating T cell functions, by mediating their recruitment and polarization, activation, and differentiation. Various tyrosine phosphorylation signaling cascades can be engaged following chemokine receptor aggregation on T cells, including the Jak-Stat pathway, FAK activation, the MAP kinase pathway, PI3-kinase activation, and transactivation of the T cell receptor. This review will address specific aspects related to chemokine-T cell interactions and the molecular signaling mechanisms that influence T cell function in an inflammatory immune response.
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PMID:Chemokines: attractive mediators of the immune response. 1249 36

We previously demonstrated that FAK-transfected HL-60 (HL-60/FAK) cells exhibit anti-apoptotic capacity. Here, we report that HL-60/FAK cells proliferate much faster than vector-transfected control (HL-60/Vect) cells with a 1.5-fold faster doubling time. This observation prompted us to investigate the mechanism of how HL-60/FAK cells augment cell proliferation. Since a protein kinase C (PKC) inhibitor, chelerythrine, or a PI3-kinase inhibitor, LY294002, suppressed cell proliferation effectively, both PKC and PI-3-kinase pathways are presumed to be involved in the cell proliferation. Among cyclins and CDKs, cyclin D3 expression was particularly prominent in the HL-60/FAK cells. Among PKC family, particularly PKCalpha, beta and eta isoforms were activated and directly associated with FAK in HL-60/FAK cells. We assumed that FAK activates PKC and PI3-kinase-Akt pathway, which resulted in marked induction of cyclin D3 expression and CDK activity.
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PMID:FAK overexpression upregulates cyclin D3 and enhances cell proliferation via the PKC and PI3-kinase-Akt pathways. 1268 45

We investigated the localization of components of translational machinery and their regulators in the postsynaptic region. We examined several components, especially those involved in translational regulation: components of (1) MAPK-Mnk-eIF4E, (2) PI3-kinase-PDK-Akt/PKB-FRAP/mTOR-PHAS/4EBP, (3) p70S6K-S6 ribosomal protein and (4) eEF2 kinase/CaMKIII-eEF2 pathways. Western blotting detected all the components examined in the synaptic fractions, and their differential localization to the synaptic subcompartments: initiation or elongation factors, except for eIF5, were detected predominantly in the dendritic lipid raft fraction, which contained ER marker proteins. In contrast, most of their regulatory kinases were distributed to both the postsynaptic density (PSD) and the dendritic lipid raft fractions, or enriched in the former fraction. Localization of eIF4E at synaptic sites was further examined immunohistochemically at the electron microscopic level. The eIF-4E-immunoreactivity was localized to the postsynaptic sites, especially to the microvesicle-like structures underneath the postsynaptic membrane in the spine, some of which were localized in close proximity to PSD. These results suggest that the postsynaptic local translational system, in at least four major regulatory pathways, is similar to those in the perinuclear one, and that it takes place, at least partly, immediately beneath the postsynaptic membrane. The results also suggest the presence of ER-associated type of translational machinery at the postsynaptic sites.
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PMID:Localization of translational components at the ultramicroscopic level at postsynaptic sites of the rat brain. 1271 Oct 90

Extensive data indicate that the transcription factor NF kappa B is activated by signals downstream of oncoproteins such as Ras or breakpoint cluster region (BCR)-ABL. Consistent with this, evidence has been presented that NF kappa B activity is required for Ras and BCR-ABL to transform cells. However, it remains unclear whether these oncoproteins activate a full spectrum of NF kappa B-dependent gene expression or whether they may augment or interfere with other stimuli that activate NF kappa B. The data presented here indicate that BCR-ABL expression in 32D myeloid cells or oncogenic Ras expression in murine fibroblasts blocks the ability of tumor necrosis factor (TNF) to activate NF kappa B. This suppression of NF kappa B is manifested by an inhibition of TNF-induced inhibitor of NF kappa B (IKK) activity and NF kappa B DNA binding potential but not by blocking TNF-induced nuclear accumulation of NF kappa B/p65. The inhibition of NF kappa B is not observed in oncogenic Raf-expressing cells and is not fully restored by the suppression of PI3-kinase or MEK pathways. Oncogenic Ras suppresses the ability of TNF to activate the expression of NF kappa B-dependent genes, such as iNOS (inducible nitric oxide synthase) and RANTES (regulated on activation normal T-cell expressed and secreted). These studies suggest that the ability of Ras and BCR-ABL to activate NF kappa B involves an uncharacterized pathway that does not involve classic IKK activity and that suppresses the TNF-induced IKK pathway through a Raf/MEK/Erk-independent mechanism.
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PMID:Oncoprotein suppression of tumor necrosis factor-induced NF kappa B activation is independent of Raf-controlled pathways. 1285 13

Beta1,4-galactosyltransferase1 (beta1,4GT1) is localized both in the Golgi complex and on the cell surface. In our previous study, we first reported that beta1,4GT1 was associated with cycloheximide-induced apoptosis in human hepatocarcinoma cells. In this study, we transfected constitutively active protein kinase B (Gag-PKB), a central mediator of anti-apoptotic signals transduced by the PI3-kinase, into SMMC-7721 human hepatocarcinoma cells, and examined its effect on apoptosis and beta1,4GT1 activity. Flow cytometry analysis showed that apoptosis was inhibited in Gag-PKB transfected SMMC-7721 cells. At the same time, beta1,4GT1 mRNA level and enzyme activities were downregulated in these cells, consistent with which, the content of beta1,4 Gal branch in the glycoconjugates was decreased in stably transfected cells. Cotransfection of beta1,4GT1 promoter/luciferase reporter and Gag-PKB decreased the luciferase reporter activity in a dose-dependent manner, indicating that the differences in mRNA levels might be regulated through promoter function. All these findings suggested that changes of beta1,4GT1 activity might be involved in apoptotic pathway in hepatocarcinoma cells.
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PMID:Constitutively active PKB/Akt inhibited apoptosis and down-regulated beta1,4-galactosyltransferase 1 in hepatocarcinoma cells. 1295 Oct 46

Glutamate receptor activation of mitogen-activated protein (MAP) kinase signalling cascades has been implicated in diverse neuronal functions such as synaptic plasticity, development and excitotoxicity. We have previously shown that Ca2+-influx through NMDA receptors in cultured striatal neurones mediates the phosphorylation of extracellular signal-regulated kinase 1/2 (ERK1/2) and Akt/protein kinase B (PKB) through a phosphatidylinositol 3-kinase (PI 3-kinase)-dependent pathway. Exposing neurones to the Src family tyrosine kinase inhibitor PP2, but not the inactive analogue PP3, inhibited NMDA receptor-induced phosphorylation of ERK1/2 and Akt/PKB in a concentration-dependent manner, and reduced cAMP response element-binding protein (CREB) phosphorylation. To establish a link between Src family tyrosine kinase-mediated phosphorylation and PI 3-kinase signalling, affinity precipitation experiments were performed with the SH2 domains of the PI 3-kinase regulatory subunit p85. This revealed a Src-dependent phosphorylation of a focal adhesion kinase (FAK)-p85 complex on glutamate stimulation. Demonstrating that PI3-kinase is not ubiquitously involved in NMDA receptor signal transduction, the PI 3-kinase inhibitors wortmannin and LY294002 did not prevent NMDA receptor Ca2+-dependent phosphorylation of c-Jun N-terminal kinase 1/2 (JNK1/2). Further, inhibiting Src family kinases increased NMDA receptor-dependent JNK1/2 phosphorylation, suggesting that Src family kinase-dependent cascades may physiologically limit signalling to JNK. These results demonstrate that Src family tyrosine kinases and PI3-kinase are pivotal regulators of NMDA receptor signalling to ERK/Akt and JNK in striatal neurones.
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PMID:Inhibiting Src family tyrosine kinase activity blocks glutamate signalling to ERK1/2 and Akt/PKB but not JNK in cultured striatal neurones. 1500 68

Elevated plasma levels of free fatty acids (FFA) can produce insulin resistance in skeletal muscle tissue and liver and, together with alterations in beta-cell function, this has been referred to as lipotoxicity. This study explores the effects of FFAs on insulin action in rat adipocytes. Cells were incubated 4 or 24 h with or without an unsaturated FFA, oleate or a saturated FFA, palmitate (0.6 and 1.5 mM, respectively). After the culture period, cells were washed and insulin effects on glucose uptake and lipolysis as well as cellular content of insulin signaling proteins (IRS-1, PI3-kinase, PKB and phosphorylated PKB) and the insulin regulated glucose transporter GLUT4 were measured. No significant differences were found in basal or insulin-stimulated glucose uptake in FFA-treated cells compared to control cells, regardless of fatty acid concentration or incubation period. Moreover, there were no significant alterations in the expression of IRS-1, PI3-kinase, PKB and GLUT4 following FFA exposure. Insulin's ability to stimulate PKB phosphorylation was also left intact. Nor did we find any alterations following FFA exposure in basal or cAMP-stimulated lipolysis or in the ability of insulin to inhibit lipolysis. The results indicate that oleate or palmitate does not directly influence insulin action to stimulate glucose uptake and inhibit lipolysis in rat fat cells. Thus, lipotoxicity does not seem to occur in the fat tissue itself.
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PMID:No in vitro effects of fatty acids on glucose uptake, lipolysis or insulin signaling in rat adipocytes. 1511 17

Adipose tissue is a primary target of insulin, but knowledge about insulin signalling in human adipocytes is limited. We developed an electroporation technique for transfection of primary human adipocytes with a transfection efficiency of 15% +/- 5 (mean +/- S.D.). Human adipocytes were co-transfected with a mutant of IRS-3 (all four potential PI3-kinase binding motifs mutated: IRS-3F4) and HA-tagged protein kinase B (HA-PKB/Akt). HA-PKB/Akt was immunoprecipitated from cell lysates with anti-HA antibodies, resolved with SDS-PAGE, and immunoblotted with phospho-specific antibodies. We found that IRS-3F4 blocked insulin stimulation of HA-PKB/Akt phosphorylation and in further analyses also translocation of recombinant HA-tagged glucose transporter to the plasma membrane. IRS-3F4 also blocked insulin-induced activation of the transcription factor Elk-1. Our results demonstrate the critical importance of IRS for metabolic as well as mitogenic signalling by insulin. This method for transfection of primary human adipocytes will be useful for studying insulin signalling in human adipocytes with molecular biological techniques.
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PMID:Expression of a mutant IRS inhibits metabolic and mitogenic signalling of insulin in human adipocytes. 1522 27

Protein tyrosine phosphatase 1B (PTP1B) inhibition increases insulin sensitivity and normalizes blood glucose levels in animals. The molecular events associated with PTP1B inhibition that increase insulin sensitivity remain controversial. Insulin resistant, diabetic ob/ob mice, dosed with PTP1B antisense for 3 weeks exhibited a decrease in PTP1B protein levels and a change in the expression level of p85alpha isoforms in liver, characterized by a reduction in p85alpha and an upregulation of the p50alpha and p55alpha isoforms. Transfection of mouse hepatocytes with PTP1B antisense caused a downregulation PTP1B and p85alpha protein levels. Furthermore, transfection of mouse hepatocytes with PTP1B siRNA downregulated p85alpha protein expression and enhanced insulin-induced PKB phosphorylation. Treatment of mouse hepatocytes with p85alpha antisense oligonucleotide caused a reduction of p85alpha and an increase in p50alpha and p55alpha isoforms and enhanced insulin-stimulated PKB activation. These results demonstrate that PTP1B inhibition causes a direct differential regulation of p85alpha isoforms of PI3-kinase in liver and that reduction of p85alpha may be one mechanism by which PTP1B inhibition improves insulin sensitivity and glucose metabolism in insulin-resistant states.
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PMID:Reduction of PTP1B induces differential expression of PI3-kinase (p85alpha) isoforms. 1536

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