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)

We have investigated the effects of T lymphocytes on induction of mouse plasma cell tumors. We show that ABL-MYC, a plasmacytomagenic retrovirus that constitutively expresses v-abl and c-myc, is able to induce plasmacytomas in 100% of athymic BALB/c mice, with or without intraperitoneal pristane pretreatment. Other induction regimens are ineffective under these conditions, indicating that the combination of v-abl and c-myc oncogenes is uniquely able to transform plasma cells in mice that are deficient in T lymphocytes. Furthermore, in the absence of pristane, ABL-MYC-infected athymic congenics developed plasmacytomas in half the time required for euthymic BALB/c mice, suggesting that T lymphocytes can have a negative effect and can retard, but not totally inhibit, the outgrowth of plasmacytomas. This phenomenon could not be appreciated in other regimens of plasmacytoma induction, because only ABL-MYC is sufficient to induce plasmacytomas in athymic mice or in euthymic mice in the absence of pristane pretreatment.
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PMID:Overexpression of v-abl uniquely cooperates with c-myc dysregulation in induction of plasma cell tumors, bypassing the need for T-lymphocytic help and overcoming T-lymphocytic interference. 869 May 15

The product of the c-myc proto-oncogene has a central role in induction of apoptosis, a physiological form of cell death characterised in vitro by morphological rounding, detachment and nuclear disintegration. Induction of apoptosis by serum withdrawal from c-Myc-transformed chicken embryo fibroblasts (CEF) results in early proteolysis of focal adhesion kinase (ppl25FAK), a tyrosine kinase implicated in the conversion of integrin signals into their biological responses. Proteolysis of pp125 FAK occurs in adherent cells prior to commitment to death, suggesting that it contributes to c-Myc-induced apoptosis, rather than being a consequence of it. Furthermore, c-Myc-induced detachment, cell death and cleavage of pp125FAK are coordinately suppressed by treating with insulin or plating on the extracellular matrix components collagen and fibronectin. In addition, proteolysis of pp125FAK is suppressed by a beta1-specific integrin antibody, which promotes cell survival in the face of the oncoprotein-induced signal for apoptosis. These results provide compelling evidence that the c-Myc-induced cell death programme in CEF requires disruption of the integrin signalling pathways which normally function when cells are spread on ECM, and that maintaining cellular pp125FAK, which couples integrins to their downstream effectors, is closely linked to cell survival.
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PMID:Targeted proteolysis of the focal adhesion kinase pp125 FAK during c-MYC-induced apoptosis is suppressed by integrin signalling. 870 May 28

The proliferation of chronic myelogenous leukemia (CML) cells and the transformation of normal hematopoietic cells by BCR-ABL appear to require the expression of a functional MYC protein, suggesting an approach to treatment of Philadelphia leukemias based on simultaneous targeting of BCR-ABL and c-MYC. To test this hypothesis, CML-blast crisis (CML-BC) primary cells were treated in vitro with bcr-abl and c-myc antisense phosphorothioate oligodeoxynucleotides ([S]ODNs), individually or in combination. Compared with antisense ODNs targeting of individual oncogenes, downregulation of both BCR-ABL and c-MYC by specific antisense [S]ODNs resulted in a synergistic antiproliferative effect. Colony formation of normal bone marrow cells was not affected by either treatment. To assess the therapeutic potential of multiple oncogene downregulation, SCID mice injected with CML-BC primary cells were treated systematically with equal doses of bcr-abl or c-myc antisense [S]ODNs or with a combination of both antisense [S]ODNs. Compared with mice treated with individual compounds, the disease process was significantly retarded in the group treated with both [S]ODNs as revealed by flow cytometry, clonogenic assay, and RT-PCR analysis to detect leukemic cells in mouse tissue cell suspensions. These effects correlated with a markedly increased survival of leukemic mice treated with both antisense [S]ODNs. Leukemic cells harvested from antisense [S]ODN-treated mice were sensitive to the effects of antisense [S]ODNs in vitro, suggesting that the treatment can be successfully repeated. These data demonstrate the therapeutic potential of targeting multiple cooperating oncogenes.
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PMID:Antisense oligodeoxynucleotide combination therapy of primary chronic myelogenous leukemia blast crisis in SCID mice. 870 8

ABL-MYC is a recombinant retrovirus that constitutively expresses the v-abl and c-myc oncogenes. When used to infect immunized mice this virus rapidly and efficiently induces plasmacytomas of which an unusually high percentage secrete antigen (Ag)-specific monoclonal antibodies. These findings suggested that ABL-MYC targets Ag-stimulated B cells for transformation and that infection of lymphoid cells in vitro might be a useful, alternative method for generating monoclonal, Ag-specific plasmacytomas (ASPCTs). Therefore, we used helper virus-free ABL-MYC to infect suspensions of cells from spleens and other lymphoid organs from mice that had been immunized with a variety of Ags and transplanted them into naive mice. The results show that ABL-MYC preferentially transforms splenocytes that are Ag-reactive. They also demonstrate that ASPCTs can be produced by in vitro infection of cell suspensions from the spleen, lymph nodes and Peyer's patches of mice that had been immunized intraperitoneally with sheep red blood cells, Escherichia coli core RNA polymerase or Epstein-Barr virus gp340 protein or immunized orally with live Giardia lamblia parasites. The ASPCTs usually consisted of one to three colnes, secreted antibodies that were quantitatively and qualitatively similar to those obtained from hybridomas, and could continue to secrete Ag-reactive antibody over eight transplant generations.
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PMID:The ABL-MYC retrovirus generates antigen-specific plasmacytomas by in vitro infection of activated B lymphocytes from spleen and other murine lymphoid organs. 889 Aug 96

Interleukin 3 (IL-3) promotes development of hematopoietic cells through activation of the IL-3 receptor (IL-3R) complex consisting of alpha and beta subunits. The alpha subunit binds IL-3 with low affinity and forms a high-affinity receptor with the common beta subunit (beta c). The beta c subunit does not bind any cytokine by itself but is involved in the formation of high-affinity functional receptors for IL-5 and GM-CSF. As the alpha subunits provide the specificity to cytokines and beta c plays a major role in signal transduction, IL-3, GM-CSF and IL-5 exhibit similar functions when they act on the same cells. Surprisingly, no apparent hematological defect other than a reduced number of eosinophils was found in knock-out mice lacking an entire function of IL-3, GM-CSF and IL-5; this indicates a remarkable functional overlap with other cytokine systems for hematopoiesis. Binding of the cytokines to the receptor induces activation of the JAK2 tyrosine kinase that associates with beta c and triggers the signaling events. The membrane proximal region of beta c is responsible for activation of JAK2 and STAT5, as well as for induction of c-myc. The signals induced by this region are required for cell-cycle progression and DNA synthesis. Activation of the Ras pathway requires the distal region of beta c and is involved in the suppression of apoptosis. Proliferation of hematopoietic cells requires signals for both DNA synthesis and anti-apoptosis. In this review, we describe the recent findings of the function and signal transduction mediated by the IL-3R system.
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PMID:Function and signal transduction mediated by the interleukin 3 receptor system in hematopoiesis. 894 19

The receptors for human interleukin-3 (IL-3) and human granulocyte-macrophage colony-stimulating factor (GM-CSF), hIL-3R, hGM-CSFR, respectively, consists of two subunits, alpha and beta, both of which are members of the cytokine receptor superfamily. Phosphorylation of tyrosine residues in the hGMR beta subunit and several cellular proteins is observed after hGM-CSF stimulation. We analyzed the role of tyrosine residues in the hGMR beta subunit and the nature of tyrosine kinase, JAK2, in hGMR signal transduction using several hGMR beta subunit mutants. In addition to the box1 region, a membrane distal region (a.a. 544-589) of the hGMR beta was required for c-fos activation. Only one tyrosine residue (Tyr577) existed within the region 544 to 589, and substitution of Tyr577 to phenylalanine in GMR beta 589 resulted in loss of c-fos activation. In contrast, the same substitution in a wild type receptor did not affect GM-CSF induced activities such as c-fos messenger RNA (mRNA) induction and proliferation, but the substitution abolished Shc phosphorylation. These results suggest that the activation of Shc is not essential for c-fos activation and several tyrosine residues cooperate for c-fos activation. It is well documented that IL-3 or GM-CSF activate JAK2 in BA/F3 cells. The role of JAK2 in IL-3/GM-CSF functions, however, is largely unknown. We examined the role of JAK2 in GM-CSF induced signaling pathways. Dominant negative JAK2 (delta JAK2) lacking the C-terminus kinase domain suppressed IL-3/GM-CSF induced c-fos activation and c-myc activation and proliferation, suggesting that JAK2 was involved in both signaling pathways. Protein tyrosine phosphatase SHP-2 (also called PTP 1D) and Shc were phosphorylated by IL-3/GM-CSF in BA/F3 cells; however, these phosphorylation events were inhibited by the expression of delta JAK2. Taken together, these results indicate the JAK2 is a primary kinase regulating all the known activities of GM-CSF. JAK2 mediates GM-CSF induced c-fos activation through receptor phosphorylation and Shc/PTP 1D activation.
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PMID:Roles of JAK kinases in human GM-CSF receptor signal transduction. 897 26

Raised intracellular cyclic AMP (cAMP) has been demonstrated to exert an antiproliferative effect in myeloid cells. How the antiproliferative activity of cAMP is exerted in p210 BCR-ABL transformed myeloid cells was the subject of this investigation. It was hypothesized that cyclin dependent kinase 4, cdk4, might be a critical target enzyme to affect the related events of c-myc transcription and progression through G1 phase of the cell cycle within cells transformed by p210 BCR-ABL, and further, that cdk4 might be downregulated by cAMP to inhibit proliferation. In order to investigate the regulatory role of cdk4, synchronized cells were studied. In p210 BCR-ABL transformed cells transiting early G1 phase, treatment with a cAMP analogue led to inhibition of cyclin D1 synthesis, and marked reduction of cdk4 kinase activity. Within cells in which cdk4 was inhibited by cAMP, there was augmented interaction of E2F1 with the retinoblastoma protein, pRb in a nuclear matrix-associated cell fraction. As a result of E2F1 sequestration, raised intracellular cAMP was found to inhibit c-myc transcription in p210 BCR-ABL transformed myeloid cells synchronously transiting the early G1 phase of the cell cycle. A target of this transcriptional suppression exerted by cAMP was the E2F site of the c-myc P2 promoter. On the other hand, cyclin D1 content was not reduced by cAMP in these cells when it was applied at a later cell cycle stage at the interface between G1 and S. Corresponding to lack of cyclin D1 inhibition in these later G1-to-S phase cells, cdk4 activity was only modestly suppressed, and c-myc mRNA expression was also inhibited to a lesser degree. These studies show that Rb interaction with E2F1 is regulated by cdk4 and cyclin D1 within p210 BCR-ABL transformed leukemia cells in early G1 phase of the cell cycle. In this context, both cyclin D1 and cdk4 are subject to the level of intracellular cAMP. This interaction between Rb and E2F1, which is subject to the level of cAMP, is critical to transcriptional control of c-myc. Further, pRb regulation of E2F activity affects cellular potential for G1-S phase transition in p210 BCR-ABL transformed myeloid cells, in part, via its effect on c-myc transcription.
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PMID:Cyclic AMP negatively controls c-myc transcription and G1 cell cycle progression in p210 BCR-ABL transformed cells: inhibitory activity exerted through cyclin D1 and cdk4. 900 21

Human granulocyte-macrophage colony-stimulating factor (hGM-CSF) activates a set of genes such as c-fos, jun, myc, and early growth response gene 1 (egr-1). Studies on BA/F3 cells that express hGM-CSF receptor (hGMR) showed that two different signaling pathways controlled by distinct regions within the beta subunit are involved in activation of c-fos/c-jun genes and in c-myc, respectively. However, the region(s) of the beta subunit responsible for activation of the egr-1 gene and other regulatory genes has not been identified. We describe here how egr-1 promoter is activated by hGMR through two regions of the beta subunit, with these regions being required for activation of the c-fos promoter. Coexpression of dominant negative (dn) Ras (N17ras) or dn JAK2 almost completely suppressed the activation of egr-1 and c-fos promoters. Deletion analysis of egr-1 promoter showed two cis-acting regions responsible for activation by hGM-CSF or mouse interleukin-3 (mIL-3), one between nucleotide positions (nt) -56 and -116, and the other between nt -235 and -480, which contains tandem repeats of the serum response element (SRE) sites. Similar experiments with the c-fos promoter showed that cis-acting regions containing the SRE/AP-1 sites is sufficient for activation by hGM-CSF. Based on these observations, we propose that signaling pathways activating egr-1 and c-fos promoters are controlled by SRE elements, either through the same or overlapping pathways that involve JAK2 and Ras.
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PMID:Characterization of cis-acting sequences and trans-acting signals regulating early growth response 1 and c-fos promoters through the granulocyte-macrophage colony-stimulating factor receptor in BA/F3 cells. 902 42

The IL-3 and GM-CSF (hGMR) receptors consist of two subunits, alpha and beta, both of which are members of the cytokine receptor superfamily. Phosphorylation of tyrosine residues of hGMR beta subunit and several cellular proteins are observed with hGM-CSF stimulation. We analyzed role of tyrosine residue of hGMR beta subunit and nature of tyrosine kinase, JAK2 in hGMR signals using several hGMR beta subunit mutants. In addition to box1 region, a membrane distal region (a.a. 544-589) of hGMR beta is required for c-fos activation. Only one tyrosine residue (Tyr577) exists within the region 544-589, and substitution of Tyr577 to phenylalanine in GMR beta 589 resulted in the loss of c-fos activation. In contrast, the same substitution in a wild type receptor did not affect GM-CSF-induced activities such as c-fos mRNA induction and proliferation but abolished Shc phosphorylation. These results suggest that the activation of Shc is not essential for c-fos activation and several tyrosine residues co-ordinate to activate c-fos activation. It is well documented that IL-3 or GM-CSF activates JAK2 in BA/F3 cells. However the role of JAK2 in IL-3/GM-CSF functions is largely unknown. We examined the role of JAK2 in GM-CSF-induced signaling pathways. Dominant negative JAK2 (delta JAK2) lacking the C-terminus kinase domain, suppressed IL-3/GM-CSF induced c-fos activation, c-myc activation and proliferation suggesting that JAK2 is involved in both signaling pathways. PTP1D and Shc are phosphorylated by IL-3/GM-CSF in BA/F3 cells, however these phosphorylation events were inhibited by expression of delta JAK2. Taken together, these results indicate that JAK2 is a primary kinase regulating all the known activities of GM-CSF. JAK2 mediates GM-CSF induced c-fos activation through receptor phosphorylation and Shc/PTP1D activation.
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PMID:Roles of JAK kinase in human GM-CSF receptor signals. 920 4

Full activation of T cells with antigen (Ag) and antigen-presenting cells initiates effector functions and proliferation. When T cells are re-stimulated through the T cell receptor (TCR) after a primary stimulation with Ag, growth arrest and cell death are induced. Activation of a T cell clone by cross-linking of TCR induces interleukin (IL)-2 unresponsiveness and ultimately cell death. While the proliferative signal delivered by IL-2 induces c-myc, bcl-2 and cyclin D3 expression, the expression of bcl-2 and cyclin D3 is completely suppressed upon TCR stimulation. Furthermore, TCR stimulation induces a decrease in the protein levels of JAK3 and STAT5, suggesting that IL-2 unresponsiveness and growth arrest of T cells result from down-regulation of JAK3 and STAT5.
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PMID:Induction of interleukin-2 unresponsiveness and down-regulation of the JAK-STAT system upon activation through the T cell receptor. 924 97

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