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)

Erythropoietin (EPO) regulates the proliferation and differentiation of erythroid cells through interaction with its receptor (EPOR). Although EPOR is a member of the cytokine receptor superfamily and lacks a kinase domain, EPO induces tyrosine phosphorylation, which is correlated with gene transcription and mitogenesis. Here we demonstrate that EPO induces tyrosine phosphorylation of JAK2 kinase and activates its in vitro autophosphorylation. Using EPOR mutants, phosphorylation and activation of kinase activity correlate with the induction of mitogenesis. Furthermore, JAK2 physically associates with a membrane-proximal region of the EPOR cytoplasmic domain that is required for biological activity. The results support the hypothesis that JAK2 is the kinase that couples EPO binding to tyrosine phosphorylation and mitogenesis.
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PMID:JAK2 associates with the erythropoietin receptor and is tyrosine phosphorylated and activated following stimulation with erythropoietin. 834 51

A male patient with CML received a BMT from his sister and developed chronic GVHD. The host-origin normal karyotype (46,XY) was identified for the first time in the 60th month after BMT. Detection of Y-chromosome-specific DNA in BM and peripheral blood (PB) showed that all BM samples obtained 6 months from BMT were positive for Y-specific DNA, while PB became positive in the 60th month after BMT. The BCR-ABL mRNA derived from leukemic cells was detected in the 36th month post-BMT, but not in the 60th month or thereafter. Fluorescence in situ hybridization revealed that 1.5% and 0.6% in BM and PB cells were Y-positive in the 70th month post-BMT, respectively. DNA analysis of hematopoietic progenitor colonies revealed 1 of 42 erythroid colonies to be host derived. These results indicate that host-origin hematopoietic cells survive chronic GVHD, while the Ph1 clone was eliminated.
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PMID:Hematopoietic recovery from host progenitors with normal karyotype devoid of Philadelphia chromosome in a patient with CML after allogeneic BMT. 837 40

The immature erythroid J2E cell line proliferates and terminally differentiates following erythropoietin stimulation. In contrast, the mutant J2E-NR clone does not respond to erythropoietin by either proliferating or differentiating. Here we show that erythropoietin can act as a viability factor for both the J2E and J2E-NR lines, indicating that erythropoietin-initiated maturation is separable from the prevention of cell death. The inability of J2E-NR cells to mature in response to erythropoietin was not due to a defect in the erythropoietin receptor sequence, although surface receptor numbers were reduced. Both the receptor and Janus kinase 2 were phosphorylated after erythropoietin stimulation of J2E-NR cells. However, protein interactions with the erythropoietin receptor and Grb2 were restricted in the mutant cells. Subsequent investigation of several other signaling molecules exposed numerous alterations in J2E-NR cells; phosphorylation changes to phosphatidylinositol 3-kinase, phospholipase Cgamma, p120 GAP, and mitogen-activated protein kinases (p42 and p44) observed in erythropoietin-stimulated J2E cells were not seen in the J2E-NR line. These data indicate that some pathways activated during erythropoietin-induced differentiation may not be essential for the prevention of apoptosis.
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PMID:Disrupted signaling in a mutant J2E cell line that shows enhanced viability, but does not proliferate or differentiate, with erythropoietin. 863 47

UT-7 is a human megakaryoblastic leukemia cell line with absolute dependence on interleukin-3, granulocyte-macrophage colony-stimulating factor, or erythropoietin (EPO) for growth and survival. We investigated the effect of thrombopoietin (TPO), the ligand for the receptor encoded by c-mpl proto-oncogene, on the proliferation and differentiation of UT-7 and its sublines. We found that UT-7/GM, which is a subline of UT-7, but neither UT-7 nor UT-7/EPO, can proliferate in response to TPO. The subline, UT-7/TPO, was established from UT-7/GM by culture at lower concentrations of TPO. UT-7/TPO cells had morphologically mature megakaryocytic characteristics such as developed demarcation membrane in the cytoplasm and multinucleated appearance. This was also confirmed by the high expression of platelet factor-4 and glycoprotein IIb at the mRNA levels and by the high level of DNA content. UT-7/TPO can be maintained by TPO alone, with a doubling time of 24 hours in log growth phase. In the absence of TPO, the majority of the cells died within a few days. Thus, UT-7/TPO has an absolute dependence on TPO for growth and survival and has mature megakaryocytic features. The mRNA for c-mpl was detected in UT-7/TPO and, to a lesser degree, in UT-7/GM. The mRNA level of NF- E2 p45, reported to be an erythroid-specific transcription factor, was upregulated in UT-7/TPO, whereas it was down-regulated in the erythroid subline, UT-7/EPO. There were no significant differences in GATA-1 and GATA-2 mRNA levels among UT-7 and its sublines. Not only EPO but also TPO induced the tyrosine phosphorylation of JAK2 tyrosine kinase and STAT5-related protein. These findings indicate that UT-7/TPO would be a useful model with which to analyze the gene regulation of megakaryocytic maturation-associated proteins and to study the specific actions of TPO.
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PMID:Establishment and characterization of the thrombopoietin-dependent megakaryocytic cell line, UT-7/TPO. 863 23

CHK/HYL is a non-receptor tyrosine kinase that belongs to CSK (C-terminal Src kinase) family. Northern blotting and RT-PCR analyses showed that CHK/HYL was expressed in large spectrum of hematopoietic cells except for erythroid cells and brain. To explore the function of CHK/HYL in hematopoietic cells, we generated CHK/HYL deficient mice. The mutant mice were apparently normal and fertile, while CSK knockout mice died until E11.5 from a defect in the neural tube formation. Hematological observations including blood counts and FACS analysis showed no significant abnormalities in CHK/HYL mutant mice. CHK/HYL did not affect the activity of Src, Hck, and Fgr in cultured bone marrow cells, although CSK negatively regulates Src family kinases. These results suggest that CHK/HYL might not have the same function as CSK.
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PMID:Analysis of CSK homologous kinase (CHK/HYL) in hematopoiesis by utilizing gene knockout mice. 869 8

The phenotypes of mice that harbor a defect in the genes encoding either stem cell factor (SCF) or its receptor, c-kit, indicate that this ligand/receptor pair is necessary for maintenance of normal hematopoiesis in the adult. Our objective was to determine whether SCF, like erythropoietin, is necessary for acute erythroid expansion during recovery from hemolytic anemia. Monoclonal antibody ACK2, which recognizes the murine c-kit receptor, was used to selectively block the hematopoietic growth-promoting effects of SCF. Mice were treated with phenylhydrazine on day 0 and day 1 to induce hemolytic anemia and also received no antibody, control IgG, or ACK2 on day 0. The mice were killed on day 3 and the hematocrit (Hct), reticulocyte count, and numbers of erythroid and myeloid hematopoietic progenitor cells (colony-forming unit-erythroid [CFU-E], burst-forming unit [BFU]-E, and CFU-granulocyte-macrophage [GM]) were quantitated in the femoral marrow and spleen using hematopoietic colony-forming assays. Induction of hemolytic anemia with phenylhydrazine resulted in a drop in the Hct from approximately 50% to 30%, and an approximate 8- to 10-fold increase in the reticulocyte count. The numbers of CFU-E increased modestly in the femur, and approximately 25- to 50-fold in the spleen, in comparison with normal mice. BFU-E and CFU-GM values did not increase in the femur but expanded 6- to 10-fold in the spleen, in comparison with normal mice. This confirms that much of the erythroid expansion in response to hemolytic anemia occurs in the murine spleen. Neutralizing quantities of the ACK2 antibody reduced femoral CFU-E, BFU-E, and CFU-GM content to less than half that found in phenylhydrazine-treated control mice and nearly totally ablated splenic hematopoiesis. These results suggest that c-kit receptor function may be required for optimal response to acute erythropoietic demand and that erythropoiesis in the splenic microenvironment is more dependent on SCF/c-kit receptor interaction than is erythropoiesis in the marrow microenvironment. Because expansion of late erythropoiesis in the spleen was preferentially blocked, we tested the hypothesis that homing of more primitive hematopoietic cells to the spleen was dependent on c-kit receptor function. Lethally irradiated mice were injected with marrow cells obtained from mice that had received phenylhydrazine plus control IgG or with marrow cells obtained from mice that had received phenylhydrazine plus ACK2. In parallel experiments, normal murine marrow cells were treated in vitro with control IgG or with ACK2 and were injected into lethally irradiated mice. The fraction of BFU-E and CFU-GM retrieved from the marrow and spleen of the recipient mice 4 hours later was reduced by approximately 75% when progenitor cells had been exposed to ACK2, in comparison with control IgG. These data suggest that interaction of SCF with the c-kit receptor affects the homing behavior of hematopoietic progenitor cells in the adult animal.
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PMID:Interaction of stem cell factor and its receptor c-kit mediates lodgment and acute expansion of hematopoietic cells in the murine spleen. 870 4

Signaling through the erythropoietin receptor (EPO-R) is crucial for proliferation, differentiation, and survival of erythroid progenitor cells. EPO induces homodimerization of the EPO-R, triggering activation of the receptor-associated kinase JAK2 and activation of STAT5. By mutating the eight tyrosine residues in the cytosolic domain of the EPO-R, we show that either Y343 or Y401 is sufficient to mediate maximal activation of STAT5; tyrosine residues Y429 and Y431 can partially activate STAT5. Comparison of the sequences surrounding these tyrosines reveals YXXL as the probable motif specifying recruitment of STAT5 to the EPO-R. Expression of a mutant EPO-R lacking all eight tyrosine residues in the cytosolic domain supported a low but detectable level of EPO-induced STAT5 activation, indicating the existence of an alternative pathway for STAT5 activation independent of any tyrosine in the EPO-R. The kinetics of STAT5 activation and inactivation were the same, regardless of which tyrosine residue in the EPO-R mediated its activation or whether the alternative pathway was used. The ability of mutant EPO-Rs to activate STAT5 did not directly correlate with their mitogenic potential.
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PMID:Multiple tyrosine residues in the cytosolic domain of the erythropoietin receptor promote activation of STAT5. 871 Aug 69

Chronic myeloid leukemia (CML) is a clonal myeloproliferative disorder of a stem cell, involving myeloid, erythroid, megacaryocyte, lymphoid B-cells and "natural killer" cells. The hallmark of CML is the Philadelphia (Ph) chromosome which is a shortened chromosome 22 (22q-) resulting from a reciprocal translocation involving chromosome 9 and chromosome 22, designed t (9;22) (q34;q11). This translocation juxtaposes parts of two genes; ABL on chromosome 9 and BCR (breakpoint cluster region) on chromosome 22. Transcription of the BCR/ABL fusion gene results in an hybrid mRNA that is translated into a 210 kDa or 190 kDa protein, depending on the location of the breakpoint in the bcr region. This protein plays a key role in CML: its tyrosine-kinase activity, that differs from the normal ABL product, may be involved in leukemic cell growth. Nonetheless, the loss of the negative cell growth regulation by c-ABL, or BCR/ABL fusion protein interaction with other cellular genes (such as RAS or c-MYC) could also be involved in CML pathophysiology. A better understanding of the molecular mecanisms of CML could lead to specific treatment, such as tyrosine-kinase inhibitors, synthetic oligodeoxynucleotides, or site-specific DNA-binding proteins designed against BCR/ABL oncogenic fusion sequence.
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PMID:[Chronic myeloid leukemia, biological aspects]. 873 43

Cytokine receptors act at least partially by associating with Janus tyrosine protein kinases at the conserved box one motif of the receptor. These receptor-associated kinases then activate STAT transcription factors through phosphorylation. We found that the 78-kDa erythropoietin receptor (EPOR), a highly modified form of the 66-kDa receptor which is abundant in HCD57 cells, was phosphorylated on serine residues without EPO stimulation. Coprecipitation experiments showed the 78-kDa EPOR but not the more abundant 66-kDa EPOR was associated with JAK2, a Janus protein kinase, in both the presence and absence of EPO. Solubilized 78-kDa EPOR bound to purified, genetically engineered JAK2 better than the 62-76-kDa receptor proteins, and additional phosphorylation of tyrosine residues further increased the binding of the 78-kDa EPOR to JAK2-agarose beads. STAT5 DNA binding was activated by 10-100-fold lower concentrations of EPO in HCD57 cells than in primary erythroid cells, and STAT5 associated with the EPOR in an EPO-dependent manner. These data suggest that phosphorylation of either serine or tyrosine residues of the EPOR can enhance the association of the receptor with JAK2, possibly increasing the sensitivity to EPO.
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PMID:Association of JAK2 and STAT5 with erythropoietin receptors. Role of receptor phosphorylation in erythropoietin signal transduction. 894 8

In response to erythropoietin, J2E cells proliferate and differentiate into mature hemoglobin-producing erythroid cells. Here we show that following hormonal stimulation, between 10 and 17 proteins, including the erythropoietin receptor and JAK2, were tyrosine phosphorylated immediately after exposure to the hormone. Although the receptor was only phosphorylated to 15% of its maximum with 0.1 unit/ml erythropoietin, this was sufficient to induce peak hemoglobin synthesis. The importance of JAK2 to J2E cell maturation was demonstrated by inhibiting JAK2 protein synthesis with antisense oligonucleotides; not only was erythropoietin-stimulated mitogenesis inhibited by this procedure, but differentiation was also suppressed. In addition, the activation of STAT5 paralleled the kinetics of receptor phosphorylation. During differentiation, 94% decrease in surface erythropoietin receptors was detected 48 h after ligand binding, but transcription of the receptor gene, mRNA steady-state levels, protein content, and translation rates did not alter with hormonal stimulation. We concluded from these experiments that (a) sub-maximal receptor phosphorylation is sufficient for differentiation to proceed; (b) JAK2 is required for erythropoietin-induced cell division and maturation; and (c) post-translational processing, or translocation, play important roles in controlling surface erythropoietin receptor numbers.
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PMID:Regulation of the erythropoietin receptor and involvement of JAK2 in differentiation of J2E erythroid cells. 905 92

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