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)

Interleukin (IL)-4 and IL-9 regulate the proliferation of T lymphocytes through interactions with their receptors. Previous studies have shown that unknown tyrosine kinases are involved in the proliferative signaling triggered by IL-4 and IL-9. Here we show that IL-4 and IL-9 induce overlapping (170, 130, and 125 kilodalton (kDa)) and distinct (45 and 88/90 kDa, respectively) protein tyrosine phosphorylation in T lymphocytes. We further identify the 170-kDa tyrosine-phosphorylated protein as 4PS/insulin receptor substrate-1-like (IRS-1L) protein and 130-kDa protein as JAK1 kinase. Furthermore, we demonstrate for the first time that JAK1 forms complexes with the IL-4 receptor and 4PS/IRS-1L protein following ligand-receptor interaction. In addition, we demonstrate that IL-9, but not IL-4, induced tyrosine phosphorylation of Stat 91 transcriptional factor. The overlapping and distinct protein tyrosine phosphorylation and activation of the same JAK1 kinase in T lymphocytes strongly suggests that IL-4 and IL-9 share the common signal transduction pathways and that the specificity for each cytokine could be achieved through the unique tyrosine-phosphorylated proteins triggered by individual cytokines.
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PMID:JAK1 kinase forms complexes with interleukin-4 receptor and 4PS/insulin receptor substrate-1-like protein and is activated by interleukin-4 and interleukin-9 in T lymphocytes. 792 91

The erythropoietin (EPO) receptor and the interleukin-2 (IL-2) receptor beta-chain subunit are members of the cytokine receptor superfamily. They have conserved primary amino acid sequences in their cytoplasmic domains and activate phosphorylation of common substrates, suggesting common biochemical signaling mechanisms. We have generated a cell line, CTLL-EPO-R, that contains functional cell surface receptors for both EPO and IL-2. CTLL-EPO-R cells demonstrated similar growth kinetics in EPO and IL-2. Stimulation with EPO resulted in the rapid, dose-dependent tyrosine phosphorylation of JAK2. In contrast, stimulation with IL-2 or the related cytokine IL-4 resulted in the rapid, dose-dependent tyrosine phosphorylation of JAK1 and an additional 116-kDa protein. This 116-kDa protein was itself immunoreactive with a polyclonal antiserum raised against JAK2 and appears to be a novel member of the JAK kinase family. Immune complex kinase assays confirmed that IL-2 and IL-4 activated JAK1 and EPO activated JAK2. These results demonstrate that multiple biochemical pathways are capable of conferring a mitogenic signal in CTLL-EPO-R cells and that the EPO and IL-2 receptors interact with distinct JAK kinase family members within the same cellular background.
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PMID:Erythropoietin and interleukin-2 activate distinct JAK kinase family members. 793 73

Interleukin (IL) 7 is an important cytokine regulating both T and B cell development and inducing the formation of lymphokine-activated killer cells and cytolytic T lymphocytes. This study reports the role of JAK family kinases in the IL-7 signalling pathway in a T cell clone. The results have shown that out of 4 members of JAK family tyrosine kinases (JAK1, JAK2, JAK3 and Tyk2), only JAK3 was tyrosine-phosphorylated and activated in cells of a T cell clone by stimulation with IL-7. Furthermore, STAT1 alpha (STAT, the signal transducers and activators of transcription) and p44 of MAPK (mitogen-activated protein kinases) were tyrosine phosphorylated by IL-7 stimulation, indicating that the two signal pathways might be involved in IL-7 signal transduction.
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PMID:JAK3 Janus kinase is involved in interleukin 7 signal pathway. 795 77

We have previously shown that the IL-6R in a growth-responsive B cell line, AF10, induces activation of mitogen-activated protein (MAP) kinase. Here we demonstrate the activation of Raf-1 and MEK-1, which act as a MAP kinase kinase kinase and a MAP kinase kinase, respectively, in the MAP kinase cascade induced by IL-6 in AF10 cells. IL-6 also induced tyrosine phosphorylation of the signaling transducing subunit of the IL-6R in AF10 cells, along with tyrosine phosphorylation of the gp130-associated tyrosine protein kinase JAK1 and the adaptor molecule p52shc. Although induction of tyrosine phosphorylation and activation of MAP kinase by IL-6 in a differentiation-responsive B cell line, SKW 6.4, were below the limits of detection, the phorbol ester PMA did activate Raf-1, MEK-1, and MAP kinase without inducing the phosphorylation of gp130, JAKs, or p52shc. These results suggest that JAK kinase family members associated with the IL-6R may participate in the activation of MAP kinase in AF10 cells by way of an adaptor protein and Ras-dependent kinase cascade.
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PMID:Involvement of Janus kinases, p52shc, Raf-1, and MEK-1 in the IL-6-induced mitogen-activated protein kinase cascade of a growth-responsive B cell line. 796 20

The activation of Janus protein tyrosine kinases (JAKs) and signal transducer and activator of transcription (STAT) proteins by interleukin (IL)-2, the T cell antigen receptor (TCR) and interferon (IFN) alpha was explored in human peripheral blood-derived T cells and the leukemic T cell line Kit225. An IL-2-induced increase in JAK1 and JAK3, but not JAK2 or Tyk2, tyrosine phosphorylation was observed. In contrast, no induction of tyrosine phosphorylation of JAKs was detected upon stimulation of the TCR. IFN alpha induced the tyrosine phosphorylation of JAK1 and Tyk2, but not JAK2 or JAK3. IFN alpha activated STAT1, STAT2 and STAT3 in T cells, but no detectable activation of these STATs was induced by IL-2. However, IL-2 regulates the DNA binding and tyrosine phosphorylation of two STAT-like protein complexes which do not include STAT1, STAT2 or STAT3. STAT4 is not activated by IL-2. The activation of STAT5 cannot be excluded, so the IL-2-activated complexes most probably include at least one novel STAT. No STAT activity was detected in TCR-stimulated lymphocytes, indicating that the JAK/STAT pathway defined in this study constitutes an IL-2R-mediated signaling event which is not shared by the TCR. Finally, in other cell types the correlation between JAK1 activation and the induction of STAT1 has suggested that JAK1 may activate STAT1. The observation that IL-2 and IFN alpha activate JAK1 to a comparable degree, but only IFN alpha activates STAT1, indicates that JAK1 activation is not the only determining factor for STAT1 activation. Moreover, the data show that JAK1 stimulation is also not sufficient for STAT3 activation.
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PMID:Activation of JAK kinases and STAT proteins by interleukin-2 and interferon alpha, but not the T cell antigen receptor, in human T lymphocytes. 798 57

The mechanism of action of prolactin (PRL) was studied in murine lymphoid BAF-3 cells transfected with either the long form of the PRL receptor (PRL-R), or a chimeric receptor consisting of the extracellular domain of the PRL-R and the transmembrane and intracellular domain of the erythropoietin receptor (PRL/EPO-R). PRL sustained normal and long-term proliferation of BAF-3 cells expressing either the PRL-R or the hybrid PRL/EPO-R. Upon [125I]PRL cross-linking, both types of BAF-3 transfectants were shown to express two [125I]PRL cross-linked species differing in size by 20 kDa. These cross-linked complexes, after denaturation, were recognized by antibody against the PRL-R, indicating that they contain the transfected receptor. PRL induced rapid and transient tyrosine phosphorylation of both the PRL-R and the PRL/EPO-R in BAF-3 transfectants. Furthermore, PRL induced rapid tyrosine phosphorylation of the Janus kinase 2 (JAK2) which was already physically associated with the PRL-R or the PRL/EPO-R in the absence of ligand. JAK1 was also associated with PRL-R and PRL/EPO-R in the absence of ligand. However, only in BAF-3 cells expressing the PRL-R does PRL induce rapid and transient tyrosine phosphorylation of JAK1. These results demonstrate that JAK protein tyrosine kinases couple PRL binding to tyrosine phosphorylation and proliferation.
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PMID:Identification of JAK protein tyrosine kinases as signaling molecules for prolactin. Functional analysis of prolactin receptor and prolactin-erythropoietin receptor chimera expressed in lymphoid cells. 801 58

The functional interleukin 2 (IL-2) receptors contain the beta and gamma chains which are necessary for the transduction of cell growth signals. Monoclonal antibodies specific for the beta chain and gamma chain coimmunoprecipitated JAK1 and 114-kDa JAK2 tyrosine kinases, respectively. Tyrosine phosphorylation of JAK1 and JAK2 was induced upon IL-2 stimulation, and IL-2 activated the JAK2 kinase. These results demonstrate that the JAK1 and JAK2 tyrosine kinases are physically associated with the beta chain and gamma chain, respectively, and suggest that regulation of the kinases may be linked to IL-2-induced signal transduction.
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PMID:Physical association of JAK1 and JAK2 tyrosine kinases with the interleukin 2 receptor beta and gamma chains. 804 79

The 84-, 91-, and 113-kDa proteins of the ISGF-3 alpha complex are phosphorylated on tyrosine residues upon alpha interferon (IFN-alpha) treatment and subsequently translocate to the nucleus together with a 48-kDa subunit. In this study, we investigated the presence and the functional status of ISGF-3 alpha subunits and Tyk-2 and JAK1 tyrosine kinases in mutant HeLa cells defective in the IFN-alpha/beta and -gamma response. Stable cell fusion analysis revealed a single complementation group among one class (class B) of mutants. The class B mutants contain detectable level of mRNA and proteins of the 84-, 91-, and 113-kDa proteins, but neither the protein nor mRNA is inducible by IFN-alpha or -gamma. The 91-kDa protein IFN-gamma-activated factor fails to be activated into a DNA-binding state after IFN-alpha or -gamma treatment. In addition, the 91-kDa protein is unable to localize in the nucleus after IFN-alpha and -gamma treatment, and the 113-kDa protein fails to translocate after IFN-alpha treatment. Immunoprecipitation studies document a failure of phosphorylation of the 84- or 91-kDa proteins after IFN-alpha or -gamma treatment. Similarly, no tyrosine-phosphorylated 113-kDa protein was detected after IFN-alpha treatment. The inability of class B mutants to phosphorylate the 84-, 91-, or 113-kDa protein on tyrosine residues correlated with the loss of biological response to IFN-alpha and -gamma. The genetic defect appears to be the absence of the tyrosine kinase JAK1. Our data therefore confirm a recent report that JAK1 plays a critical early signaling role for both IFN-alpha/beta and IFN-gamma systems.
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PMID:Mutant cell lines unresponsive to alpha/beta and gamma interferon are defective in tyrosine phosphorylation of ISGF-3 alpha components. 811 47

The interleukin 6 receptor-associated signal transducer, gp130, is shared by receptor complexes for leukemia inhibitory factor, oncostatin M, ciliary neurotrophic factor, and interleukin 11. We show here that JAK2 kinase is rapidly tyrosine phosphorylated in mouse embryonic stem cells whose pluripotentiality is maintained only by gp130-sharing cytokines after stimulation that is known to induce gp130 homodimerization. JAK1 is also tyrosine phosphorylated, but to a lesser extent, under the same conditions. Comparable results are obtained with hemopoietic lineage cells such as myeloid leukemic M1 cells and pro-B-cell line-derived transfectants expressing gp130, the former of which differentiate into macrophages after stimulation of gp130 and the latter of which initiate DNA synthesis. gp130-dimerizing stimulus upregulates kinase activity of JAK2 as revealed by immunocomplex kinase assay. Deletion or point mutation in the membrane-proximal cytoplasmic motifs in gp130 that are conserved in the hemopoietic cytokine receptor family results in the loss of tyrosine phosphorylation of JAK2, which coincides with the lack of signal transducing capability of gp130 mutants.
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PMID:Activation of JAK2 kinase mediated by the interleukin 6 signal transducer gp130. 813 89

We have cloned and sequenced a cDNA (JAK3) encoding a novel member of the JAK family of protein tyrosine kinases. JAK3 was identified by RT-PCR of rat mesangial cells using degenerate oligonucleotide primers, and a full-length clone was isolated from a rat spleen cDNA library. The primary structure of JAK3 showed cDNA with an open reading frame of 1,100 amino acids which comprises the PTK catalytic domain and a second kinase-related domain characteristic for JAK kinase. JAK3 was phylogenetically shown to be most closely related to JAK2 among the previously known JAK family members, JAK1, JAK2 and Tyk2. Southern analysis revealed that JAK3 is a single copy gene and well conserved in the vertebral genome. Northern analysis indicated that the 4.0 kb mRNA was transcribed in a variety of tissues including spleen, lung, kidney and intestine.
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PMID:Molecular cloning of rat JAK3, a novel member of the JAK family of protein tyrosine kinases. 814 63

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