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 order to know the function of protein tyrosine kinases (PTKs) in the development of sea urchin embryos, we performed reverse transcription-polymerase chain reaction (RT-PCR) to obtain partial cDNA fragments for PTK genes using primers to highly conserved regions of the PTK family. A total of seven PTK sequences were identified, two of which represented receptor PTK (RTK1 and RTK2), and five of which were non-receptor PTKs (NRTK1-5). RTK1 was highly similar to FGF receptor and Ret kinase, while RTK2 showed features of the insulin receptor family. NRTK1 and 2 belonged to the Src family and could be involved in egg activation at fertilization. NRTK3 showed the features of the Btk family kinases, while NRTK4 seemed to be a member of the Syk/ZAP70 family. NRTK5 is the Csk-type kinase of the sea urchin, which is known to negatively regulate the Src family kinases. RTK1 was not detected in unfertilized eggs and was activated after blastula stage. All the other PTK genes were expressed both maternally in unfertilized eggs and zygotically after fertilization, though each gene showed distinct temporal patterns.
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PMID:The protein tyrosine kinases of the sea urchin Anthocidaris crassispina. 952 Jun 36

The immunodominant T cell determinant of type II collagen (CII) recognized by DBA/1 mice (I-Aq) is CII 260-267. The aims of this study were to determine the role of the amino acid residues within CII 245-270 in T cell signal transduction. To that end, we utilized I-Aq-restricted, CII-specific T cell hybridomas and examined tyrosine phosphorylation of TCR-zeta following stimulation with either wild-type CII 245-270 or a panel of analogue peptides. A variety of patterns occurred, ranging from increased phosphorylation of TCR-zeta to either partial or a complete abrogation of phosphorylation. Critical substitutions also completely abrogated the phosphorylation of ZAP70, a downstream molecule in TCR-zeta signaling. Evaluation of the supernatants of the T cell hybridomas for cytokine production in response to the peptides revealed a close correlation between the induction of phosphorylation of TCR-zeta and the amount of cytokine induced. Selected analogue peptides were tested as tolerogens in neonatal mice. Analogues that did not induce the phosphorylation of zeta chain, such as B3 (CII 251-270s263F-->N), were completely unable to induce tolerance, while analogues that caused a partial phosphorylation, such as B6 (CII 251-270s267Q-->T) and A3 (CII 245-270s269P-->A), induced partial tolerance judged by intermediate degrees of suppression of arthritis. We conclude that discrete alterations in specific amino acid residues of antigenic peptides had profound effects on T cell signaling and that the signaling correlated with T cell cytokine secretion and T cell function in the induction of tolerance and suppression of arthritis.
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PMID:Characterization of signal transduction through the TCR-zeta chain following T cell stimulation with analogue peptides of type II collagen 260-267. 953 Dec 68

We have previously shown that a tyrosine to leucine replacement in the transmembrane region of T cell receptor (TCR)-beta results in a deficient induction of CD95-L and apoptosis upon TCR triggering in a transfected T cell line. By contrast, interleukin (IL)-2 production and the expression of CD25 and CD69 were normally induced. Since the mutation in TCR-beta also resulted in impaired association of CD3-zeta, it was proposed that this chain is specifically required for the induction of apoptosis. We now show that the deficient induction of CD95-L and apoptosis does not derive from a general lower production of second messengers, since intracellular Ca2+ fluxes and tyrosine phosphorylation of total proteins were elicited at wild-type levels. Unlike in T cell clones stimulated with partial agonists, both p21 and p18 forms of tyrosine-phosphorylated CD3-zeta were detected, although the overall level of tyrosine-phosphorylated CD3-zeta was low. More strikingly, inducible association of ZAP70 to CD3-zeta was strongly inhibited, despite a normal induction of ZAP70 tyrosine phosphorylation. Finally, ZAP70 was not concentrated near the plasma membrane in the apoptosis-deficient cells. These results suggest that CD3-zeta is necessary for engagement of a specific signaling pathway leading to CD95-L expression that also needs the recruitment of ZAP70.
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PMID:T cell receptor (TCR) engagement in apoptosis-defective, but interleukin 2 (IL-2)-producing, T cells results in impaired ZAP70/CD3-zeta association. 954 30

We have recently shown that altered peptide ligands influence differentiation of CD4+ T cells into Th1 and Th2 subsets. In the present study, we have examined the biochemical signals in naive CD4+ T cells after priming with altered peptide ligand (APL) that correlate with differences in cytokine expression. Although we observed zeta-chain phosphorylation in APL-stimulated cells, other signaling events such as ZAP70 and Lnk phosphorylation are not initiated. This altered pattern observed in the early phosphorylation events correlates with a distinct Ca2+ mobilization pattern that characterizes APL-stimulated cells. By changing the calcium signaling environment during T cell priming, we present data indicating that qualitative differences in calcium mobilization are associated with differentiation of naive CD4+ T cells into Th1- and Th2-like effector subsets.
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PMID:Distinct biochemical signals characterize agonist- and altered peptide ligand-induced differentiation of naive CD4+ T cells into Th1 and Th2 subsets. 955 Mar 76

The potential role of the cytoskeleton in signaling via the T cell antigen receptor (TCR) was investigated using pharmacological agents. In Jurkat T cells, disruption of the actin-based cytoskeleton with cytochalasin D or disruption of the microtubules with colchicine did not affect TCR induction of proximal signaling events triggered by CD3 mAb. Polymerized actin and tubulin, therefore, were not required for TCR-mediated signal transduction. Nocodazole, however, was found to inhibit dramatically TCR signaling, independently of its ability to depolymerize microtubules. This effect was TCR-specific, because signaling via the human muscarinic acetylcholine receptor 1 in the same cells was unaffected. A mechanism for the inhibition of TCR signaling by nocodazole was suggested by in vitro assays, which revealed that the drug inhibited the kinase activity of LCK and, to a lesser extent, FYN. The kinase activity of ZAP-70 in vitro, however, was unaffected. These results, therefore, suggested that nocodazole prevented initial phosphorylation of the TCR by LCK after stimulation, and as a result, it blocked activation of downstream signaling pathways. Immunofluorescence analyses also revealed that nocodazole and the specific SRC-family kinase inhibitor PP1 delocalized ZAP-70 from its constitutive site at the cell cortex. These effects did not require the SH2 domains of ZAP-70. The localization of ZAP-70 to the cell cortex is, therefore, regulated by the activity of SRC-family kinases, independently of their ability to phosphorylate immunoreceptor tyrosine-based activation motifs of the TCR.
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PMID:Nocodazole inhibits signal transduction by the T cell antigen receptor. 957 43

TcRzeta/CD3 ligation initiates a signaling cascade involving CD4/CD8-p56(lck), p59(fyn), and ZAP-70, as well as lymphoid downstream proteins VAV, SLP-76, and FYB/SLAP. A current question concerns the nature of the downstream binding partner(s) of FYB in T cells. In this study, using a two-hybrid screen with FYB as bait, we have identified eight clones, four of which correspond to the recently published lymphoid protein SKAP55, and two which correspond to a related protein with some 44% homology to SKAP55 (termed SKAP55-related protein, SKAP55R). The SKAP55 clones showed only minor differences (two substitutions and one residue deletion) from SKAP55. SKAP55R has the same overall structure as SKAP55 except for the presence of a unique N terminus with a well-defined coiled-coil domain. Both SKAP55 and SKAP55R were found to bind FYB through their SH3 domains and to act as substrates for the FYN kinase in T cells. Furthermore, immunofluorescence confocal microscopy showed that FYB and SKAP55 colocalize in the perinuclear region of cells. SKAP55 also colocalizes with another FYB binding protein, SLP-76. Taken together, these observations demonstrate that FYB is part of an interactive matrix with SKAP55 and a SKAP55-related protein.
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PMID:FYB (FYN binding protein) serves as a binding partner for lymphoid protein and FYN kinase substrate SKAP55 and a SKAP55-related protein in T cells. 967 55

Antigen receptors initiate T-cell activation and determine the specificity of the immune response by activating membrane-localized protein tyrosine kinases. Signalling pathways initiated by these kinases control expression of the genes that mediate T-cell effector function. A major challenge in immunology is to work out the route taken by membrane-generated signals as they transit to the nucleus. Substrates for the ZAP70/Syk tyrosine kinases are important, but 'missing', links in this process. There has finally been some progress in characterizing one of these important linkers: LAT, an integral membrane protein that acts as an adaptor to couple antigen receptors to intracellular signalling cascades.
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PMID:The real LAT steps forward. 969 35

T lymphocytes express a range of tyrosine kinases that are involved in signalling processes driving cell activation, proliferation and differentation. Two tyrosine kinases expressed only in T cells, the Itk/Emt and Txk gene products, are members of the Tec family of kinases. The role of Tec kinases in cellular function is poorly understood, although a Tec kinase specific to B cells, Btk, is essential for B-cell development. To explore the contribution of the T-cell-specific Tec kinases to lymphocyte function, we have expressed human Txk in the baculovirus system and conducted the first characterization of its activity. We find that Txk exhibits a substrate preference in vitro quite distinct from that of the major T-cell kinases Lck and ZAP70, suggesting that Tec-family kinases might act on a distinct range of substrates. We also investigated the interactions of Txk with the cytoplasmic domains of the key signalling molecules CD3zeta, CD28 and CTLA4 and find that none of these are phosphorylated by Txk, nor are they ligands for the SH2 or SH3 domains of Txk. We conclude that it is unlikely that Txk has a role in the early signal transduction events associated with these key pathways controlling T-cell activation.
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PMID:Functional analysis of the T-cell-restricted protein tyrosine kinase Txk. 976 24

Cytotoxic T lymphocyte-associated molecule-4 (CTLA-4) is a cell surface receptor expressed on activated T cells that can inhibit T cell responses induced by activation of the TCR and CD28. Studies with phosphorylated peptides based on the CTLA-4 intracellular domain have suggested that tyrosine phosphorylation of CTLA-4 may regulate its interactions with cytoplasmic proteins that could determine its intracellular trafficking and/or signal transduction. However, the kinase(s) that phosphorylate CTLA-4 remain uncharacterized. In this report, we show that CTLA-4 can associate with the Src kinases Fyn and Lck and that transfection of Fyn or Lck, but not the unrelated kinase ZAP70, can induce tyrosine phosphorylation of CTLA-4 on residues Y201 and Y218. A similar pattern of tyrosine phosphorylation was found in pervanadate-treated Jurkat T cells stably expressing CTLA-4. Phosphorylation of CTLA-4 Y201 in Jurkat cells correlated with cell surface accumulation of CTLA-4. CTLA-4 phosphorylation induced the association of CTLA-4 with the tyrosine phosphatase SHP-2, but not with phosphatidylinositol 3-kinase. In contrast, Lck-induced phosphorylation of CD28 resulted in the recruitment of phosphatidylinositol 3-kinase, but not SHP-2. These findings suggest that phosphorylation of CD28 and CTLA-4 by Lck activates distinct intracellular signaling pathways. The association of CTLA-4 with Src kinases and with SHP-2 results in the formation of a CTLA-4 complex with the potential to regulate T cell activation.
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PMID:Regulation of cytotoxic T lymphocyte-associated molecule-4 by Src kinases. 997 79

Engagement of the T cell receptor (TCR) by peptide antigen bound to the major histocompatibility complex molecules initiates a biochemical cascade involving protein tyrosine kinases (PTKs) such as Lck, ZAP70 and Csk, and protein tyrosine phosphatases (PTPases) such as CD45, SHP-1 and SHP-2. In the process of T cell activation, immune tyrosine-based activation motifs (ITAMs) and immune tyrosine-based inhibitory motifs(ITIMs) within the cytoplasmic region of CD3 and CD152 molecules play a key role in the activation of PTKs and PTPases. Consequently, Ras/MAP kinase and PLC gamma 1 pathways are activated to induce IL-2 gene transcription through AP-1 and NF-AT generation. Recent biochemical and genetic evidence has suggested that dysfunction in these TCR-related molecules resulted in immuno-deficiency, breakdown of tolerance and abnormal T cell development.
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PMID:[T cell receptor and its related molecules in signal transduction]. 1007 90

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