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 Tec protein tyrosine kinase (PTK) family includes Btk, Itk/Tsk/Emt, Tec, Rlk/Txk and Bmx, which are involved in signals mediated by various surface receptors. We have previously found (W.-C. Yang et al., J. Biol. Chem. 1999. 274: 607) that Tec is involved in T cell signaling in a way distinct from Itk. However, little is known about the role of Tec in regulation of cytokine expression in the CD28 pathway. Here, we show in heterologous COS-7 cells that co-expression of Src family kinases such as Lck increases Tec activation or CD28-mediated Tec activation, whereas co-expression of kinase-dead Lck blocks Tec activation or CD28-mediated Tec activation. These data suggest that CD28 activates Tec via Src family PTK. As is the case for the IL-2 promoter, transcription of the IL-4 promoter is enhanced by overexpression of wild-type Tec but inhibited by overexpression of a kinase-dead version of Tec following CD28 activation. These results imply that Tec can modulate transcription of Th1 and Th2 cytokines in a kinase-dependent manner. Consistent with the hypothesis postulated above that Lck can regulate Tec activation, overexpression of kinase-dead Lck can block Tec-induced cytokine expression following CD28 ligation.
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PMID:Tec kinase is involved in transcriptional regulation of IL-2 and IL-4 in the CD28 pathway. 1038 46

The Tec family has emerged recently as a subfamily among nonreceptor type protein-tyrosine kinases, consisting of Tec, Btk, Itk/Tsk/Emt, Bmx, and Txk/Rlk. Because many members of this family have been shown to be activated in response to growth and differentiation stimuli in hematopoietic tissues, they are presumed to function in vivo as important signaling mediators. Although that hypothesis was further strengthened by the knowledge that mutations in Btk cause agammaglobulinemia in humans, we have only limited information concerning the molecular interaction through which Tec kinases exert their effects. One characteristic feature of Tec family members is the presence of a pleckstrin homology domain in their protein structure, suggesting a physical and functional interaction with the phospholipid-dependent signaling pathways. Recent data have revealed that Tec kinases regulate phospholipase C isoforms. This review summarizes current knowledge concerning the in vivo roles of the Tec family proteins.
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PMID:The Tec family protein-tyrosine kinases: a subset of kinases for a subset of signalings. 1064 36

The Tec family is a recently emerging subfamily of non-receptor protein-tyrosine kinases (PTKs) represented by its first member, Tec. This family is composed of five members, namely Tec, Btk. Itk/Emt/Tsk, Bmx and Txk/Rlk. The most characteristic feature of this family is the presence of a pleckstrin homology (PH) domain in their protein structure. The PH domain is known to bind phosphoinositides; on this basis, Tec family PTKs may act as merge points of phosphotyrosine-mediated and phospholipid-mediated signaling systems. Many Tec family proteins are abundantly expressed in hematopoietic tissues, and are presumed to play important roles in the growth and differentiation processes of blood cells. Supporting this, mutations in the Btk gene cause X chromosome-linked agammaglobulinemia (XLA) in humans and X chromosome-linked immunodeficiency (Xid) in mice, indicating that Btk activity is indispensable for B-cell ontogeny. In addition, Tec family kinases have been shown to be involved in the intracellular signaling mechanisms of cytokine receptors, lymphocyte surface antigens, heterotrimeric G-protein-coupled receptors and integrin molecules. Efforts are being made to identify molecules which interact with Tec kinases to transfer Tec-mediated signals in vivo. Candidates for such second messengers include PLC-gamma2, guanine nucleotide exchange factors for RhoA and TFII-I/BAP-135. This review summarizes current knowledge concerning the input and output factors affecting the Tec kinases.
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PMID:Tec family of protein-tyrosine kinases: an overview of their structure and function. 1064 81

Rlk/Txk is a T-cell-specific member of the Btk/Tec family of tyrosine kinases, whereas SLP-76 is a lymphoid adaptor that is essential for pre-TcR and mature TcR signaling. Although Rlk deficient T-cells show partial defects in T-cell proliferation, Rlk can complement ITK-/- cells with multiple defects in TcR initiated early events and interleukin (IL)-2 production. A key question is the nature of the target of Rlk responsible for bridging the TcR with the activation of IL-2 transcription. In this study, we identify a pathway in which Rlk phosphorylates SLP-76 leading to the phosphorylation of PLCgamma1, activation of ERKs, and the synergistic up-regulation of TcR-driven IL-2 NFAT/AP-1 transcription. Rlk phosphorylated the N-terminal region of SLP-76, a region that has been previously shown to serve as a target for ZAP-70. Loss of N-terminal YESP/YEPP sites of SLP-76 or the Rlk kinase activity attenuated cooperativity between Rlk and SLP-76. These observations support a model where the TcR can utilize Rlk (as well as ZAP-70) in the phosphorylation of key sites in SLP-76 leading to the up-regulation of Th1 preferred cytokine IL-2.
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PMID:Resting lymphocyte kinase (Rlk/Txk) targets lymphoid adaptor SLP-76 in the cooperative activation of interleukin-2 transcription in T-cells. 1066 May 34

The protein kinase Akt/PKB is activated via a multistep process by a variety of signals. In the early steps of this process, PI-3 kinase-generated D3-phosphorylated phosphoinositides bind the Akt PH domain and induce the translocation of the kinase to the plasma membrane where it co-localizes with phosphoinositide-dependent kinase-1. By binding to the PH domains of both Akt and phosphoinositide-dependent kinase-1, D3-phosphorylated phosphoinositides appear to also induce conformational changes that permit phosphoinositide-dependent kinase-1 to phosphorylate the activation loop of Akt. The paradigm of Akt activation via phosphoinositide-dependent phosphorylation provided a framework for research into the mechanism of activation of other members of the AGC kinase group (p70S6K, PKC, and PKA) and members of the Tec tyrosine kinase family (TecI, TecII, Btk/Atk, Itk/Tsk/Emt, Txk/Rlk, and Bm/Etk). The result was the discovery that these kinases and Akt are activated by overlapping pathways. In this review, we present our current understanding of the regulation and function of the Akt kinase and we discuss the common and unique features of the activation processes of Akt and the AGC and Tec kinase families. In addition, we present an overview of the biosynthesis of phosphoinositides that contribute to the regulation of these kinases.
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PMID:AKT/PKB and other D3 phosphoinositide-regulated kinases: kinase activation by phosphoinositide-dependent phosphorylation. 1087 70

Immunoglobulin-containing receptors expressed on B lineage lymphocytes play critical roles in the development and function of the humoral arm of the immune system. The preB cell antigen receptor (preBCR) contains the immunoglobulin mu heavy chain (Ig mu) and signals to the preB cell that heavy chain rearrangement has been successful, a process termed heavy chain selection. The B cell antigen receptor (BCR) contains both Ig heavy and light chains and is expressed on immature and mature B cells before and after antigen encounter. Both receptor types from a complex with the Ig alpha and Ig beta proteins that link the predominantly extracellular Ig with intracellular signal transduction pathways. Signaling through the BCR induces different cellular responses depending on the nature of the signaling agent and the development stage of the target cell. These responses include clonal anergy and apoptotic deletion in immature B cells and survival, proliferation, and differentiation in mature B and preB cells. Several protein tyrosine kinases are activated rapidly following engagement of the BCR/preBCR complexes, including members of the Src family (Lyn and Blk), the Syk/ZAP70 family (Syk), and the Tec family (Btk). In this review, we discuss possible mechanisms by which engagement of these similar receptor complexes can give rise to different cellular responses and the role that these kinases play in this process.
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PMID:Tyrosine kinase activation in the decision between growth, differentiation, and death responses initiated from the B cell antigen receptor. 1087 87

Btk deficient (BtkM) mouse B-lymphocytes do not proliferate when stimulated with anti-immunoglobulin (anti-Ig) antibodies. In order to characterize the molecular basis of this unresponsiveness we have compared early signal transduction pathways triggered by ligating the B cell antigen receptor (BCR) of purified resting B cells from normal C57BL/6 (wild-type) and BtkM mice on C57BL/6 background. BCR-induced signalling events that occur during the first few minutes of activation, such as bulk tyrosine phosphorylations, mitogen-activated protein kinase (MAPK) activation, PI3-kinase dependent PKB/Akt kinase phosphorylation/activation and PLCgamma2 tyrosine phosphorylation are comparable in wild type and BtkM B cells. However, the initial extracellular calcium influx is reduced and the BCR-induced accumulation of phosphatidic acid (PA) display a more transient profile in the BtkM cells. BCR ligation did not induce detectable phosphatidyl-choline PLD activity, suggesting that the reduced PA is owing to a reduction in the phospho-inositide hydrolysis. These findings further support the notion that the proliferative defect of Btk deficient mouse B cells in response to anti-immunoglobulin stimulation stems from a failure to sustain phospholipase-dependent signalling.
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PMID:Reduced formation of phosphatidic acid upon B-cell receptor triggering of mouse B-lymphocytes lacking Bruton's tyrosine kinase. 1088 81

The Tec protein kinase family includes Btk, Itk, Tec, Rlk and Bmx, which are critically involved in signals mediated by various cytokines and antigen receptors. Btk mutations cause severe immunodeficiencies, with defective B cell function. In T cells, Tec regulates cytokine production. However, the downstream targets of these Tec kinases are poorly defined. Here we report that overexpression of Tec in T cells can regulate gene transcription through the nuclear factor of activated T cells (NF-AT). Using different reporter gene constructs, we establish that Tec in transfected T cells dramatically induced NF-AT-dependent gene transcription, which was prevented by a dominant-negative mutant of NF-AT or by the immunosuppressive drug cyclosporin A. Tec appears to regulate NF-AT nuclear import. In addition, Tec influences cytoplasmic free calcium increase. Taken together, our results identify NF-AT as a major downstream target of Tec kinases that is critically involved in transcriptional gene regulation. These observations highlight signaling pathways regulated by Tec kinases and provide new pharmacological targets to regulate immune functions.
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PMID:Role of Tec kinase in nuclear factor of activated T cells signaling. 1105 74

X-linked agammaglobulinemia (XLA) is a heritable immunodeficiency disorder that is caused by a differentiation block leading to almost complete absence of B lymphocytes and plasma cells. The affected protein is a cytoplasmic protein tyrosine kinase, Bruton's agammaglobulinemia tyrosine kinase (Btk). Btk along with Tec, Itk, Bmx and Txk belong to a distinct family of protein kinases. These proteins contain five regions; PH, TH, SH3, SH2 and kinase domains. Mutations causing XLA may affect any of these domains. About 380 unique mutations have been identified and are collected in a mutation database, BTKbase. Here, we describe the structure, function, and interactions of the affected signaling molecules in atomic detail.
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PMID:Bruton tyrosine kinase (BTK) in X-linked agammaglobulinemia (XLA). 1110 16

The Btk family kinases represent new members of non-receptor tyrosine kinases, which include Btk/Atk, Itk/Emt/Tsk, Bmx/Etk, and Tec. They are characterized by having four structural modules: PH (pleckstrin homology) domain, SH3 (Src homology 3) domain, SH2 (Src homology 2) domain and kinase (Src homology 1) domain. Increasing evidence suggests that, like Src-family kinases, Btk family kinases play central but diverse modulatory roles in various cellular processes. They participate in signal transduction in response to virtually all types of extracellular stimuli which are transmitted by growth factor receptors, cytokine receptors, G-protein coupled receptors, antigen-receptors and integrins. They are regulated by many non-receptor tyrosine kinases such as Src, Jak, Syk and FAK family kinases. In turn, they regulate many of major signaling pathways including those of PI3K, PLCgamma and PKC. Both genetic and biochemical approaches have been used to dissect the signaling pathways and elucidate their roles in growth, differentiation and apoptosis. An emerging new role of this family of kinases is cytoskeletal reorganization and cell motility. The physiological importance of these kinases was amply demonstrated by their link to the development of immunodeficiency diseases, due to germ-line mutations. The present article attempts to review the structure and functions of Btk family kinases by summarizing our current knowledge on the interacting partners associated with the different modules of the kinases and the diverse signaling pathways in which they are involved.
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PMID:Signaling network of the Btk family kinases. 1111 46

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