EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The fms-like tyrosine kinase 4 (FLT4) complementary DNA was cloned from a human HEL erythroleukemia cell library by polymerase chain reaction-amplification. We previously reported a partial sequence of FLT4 and showed that the FLT4 gene maps to chromosomal region 5q33-qter (O. Aprelikova, K. Pajusola, J. Partanen, E. Armstrong, R. Alitalo, S. Bailey, J. McMahon, J. Wasmuth, K. Huebner, and K. Alitalo, Cancer Res., 52: 746-748, 1992). Here we present the full-length sequence of the predicted FLT4 protein. The extracellular domain of FLT4 consists of 7 immunoglobulin-like loops, including 12 potential glycosylation sites. On the basis of structural similarities FLT4 and the previously known FLT1 and kinase insert domain-containing receptor tyrosine kinase/fetal liver kinase 1 (KDR/FLK1) receptors constitute a subfamily of class III tyrosine kinases. FLT4 was expressed as 5.8- and 4.5-kilobase mRNAs which were found to differ in their 3' sequences and to be differentially expressed in the HEL and DAMI leukemia cells. Interestingly, a Wilms' tumor cell line, a retinoblastoma cell line, and a nondifferentiated teratocarcinoma cell line expressed FLT4, whereas differentiated teratocarcinoma cells were negative. Most fetal tissues also expressed the FLT4 mRNA, with spleen, brain intermediate zone, and lung showing the highest levels. In in situ hybridization the FLT4 autoradiographic grains decorated bronchial epithelial cells of fetal lung. No evidence was obtained for the expression of FLT4 in the endothelial cells of blood vessels.
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PMID:FLT4 receptor tyrosine kinase contains seven immunoglobulin-like loops and is expressed in multiple human tissues and cell lines. 132 15

Cells of the human erythroleukemia cell line K562 constitutively secrete a factor that inhibits human T lymphocyte proliferation induced via CD3/Ti. The factor, termed K-TIF (K562-derived T cell inhibitory factor) is produced in either the presence or absence of fetal calf serum in cultures of K562 cells and can be precipitated by 70% NH4SO4. Gel filtration chromatography on Superose 12 resin by FPLC showed that the inhibitory factor has a molecular weight of approximately 30-35 kDa. A protein of this size, metabolically labeled with [35S]methionine, specifically bound human peripheral blood mononuclear cells. Chromatofocusing with Mono P by FPLC (pH gradient 7.2-5) indicates that the inhibitory factor has an isoelectric point of 6.0-6.4.
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PMID:Identification and characterization of a T cell growth inhibitory factor produced by K562 erythromyeloid cells. 191 42

Harvey and Kirsten murine sarcoma viruses have previously been shown to transform fibroblastic cells in culture, and type C virus pseudotypes of these viruses cause erythroleukemia in susceptible mice. We report a cell culture assay for quantitating the growth-promoting effect of Harvey and Kirsten viruses on erythroid cells. Murine hemopoietic cells were infected in vitro with Harvey or Kirsten sarcoma virus, and then cultured in methylcellulose in the presence of relatively low concentrations of erythropoietin. Under these conditions, large colonies of erythroid cells form in the semi-solid culture media 6 to 8 days after infection. The induction of erythroid bursts was not caused by the murine type C helper viruses used to pseudotype either Ha-MuSV or Ki-MuSV, or by media from cells carrying the Ki-MuSV and Ha-MuSV genomes. Induction of the erythroid colonies is under genetic control at the Fv1 susceptibility locus, but not at the Fv2 susceptibility locus. A striking feature of the erythroid colonies induced by the Harvey and Kirsten viruses was that they not only proliferated to large size but also differentiated along the erythroid lineage and synthesized hemoglobin. The results indicate that Ha-MuSV and Ki-MuSV can induce proliferation of erythroid precursor cells apparently without interfering with the differentiation program of the cells. The relation between the growth-promotion effect of these viruses on erythroid precursor cells and their ability to induce erythroleukemia is discussed.
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PMID:Harvey and Kirsten sarcoma viruses promote the growth and differentiation of erythroid precursor cells in vitro. 627 11

The proportion of BFU-E normally engaged in DNA synthesis is low in adult B6 (C57BL/6) mice of genotype Fv2rr (resistant to Friend erythroleukemia virus), as shown by 3H-thymidine or hydroxyurea "cell suicide" experiments in vivo and vitro. When bone marrow cells from these mice were subjected to a single wash in alpha medium, the proportion of BFU-E synthesizing DNA dramatically rose to levels as high as those normally seen among the BFU-E of congenic B6.S mice of genotype Fv2ss (sensitive to Friend erythroleukemia virus). Washing Fv2rr marrow cells did not significantly affect the proportion of CFU-S, CFU-nm (CFU-C) or CFU-E engaged in DNA synthesis. An activity responsible for keeping low the proportion of BFU-E in DNA synthesis was recovered in supernatants of FV2rr (but not FV2ss) bone marrow cells; its effect could be demonstrated on the BFU-E of either Fv2rr of Fv2ss washed bone marrow cells. This activity was nontoxic to the BFU-E, rapidly reversible and effective at, but not far below, the concentrations normally found in adult Fv2rr marrow. It was stable to 56 degrees C for 30 min, was nondialyzable, appeared in the void volume on G-25 Sephadex gel filtration and could be filtered through membranes that permitted passage of particles of less than 100,000 but not less than 50,000 daltons. Thus the Fv2 locus (or a locus closely linked to it) appears to act not in the BFU-E itself, but elsewhere, to control the amount or activity of a macromolecular negative regulator to which the BFU-E population responds by a reduction in the proportion synthesizing DNA. This study reveals the existence of a negative growth control mechanism for early erythropoietic progenitor cells, which is apparently physiological in nature and under strict genetic control.
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PMID:A washable macromolecule from Fv2rr marrow negatively regulates DNA synthesis in erythropoietic progenitor cells BFU-E. 733 30

We have purified SP-22, a substrate protein for mitochondrial ATP-dependent protease in bovine adrenal cortex. Native SP-22 showed an M(r) of 350,000 +/- 20,000, and was composed of more than 10 molecules of an M(r) 21,600 subunit. Subcellular and submitochondrial fractionation of adrenocortical tissues revealed that SP-22 was localized in the mitochondrial matrix, suggesting that SP-22 is a natural substrate for ATP-dependent protease, a matrix enzyme. The concentration of SP-22 in adrenocortical mitochondrial fractions was 16 +/- 3 micrograms/mg proteins (mean +/- SD, n = 6) as determined by radioimmunoassay using specific anti-SP-22 antibody. Adrenal cortex showed the highest concentration among the 15 bovine tissues tested, followed by liver, renal cortex, adrenal medulla, heart, and renal medulla. We determined the amino acid sequence of SP-22, which is composed of 195 amino acids. Amino acid 47 was not identified by the sequencer. FAB-mass spectrometry of AA47-AA55 fragment revealed that AA47 was cysteine-sulfinic acid (Cys-SO2H). By a homology search in the NBRF-PIR data base, SP-22 was found to be 91% homologous to murine erythroleukemia cell MER-5 protein, which may have an important role in the induction of differentiation. SP-22 was also homologous to the C22 component of alkyl hydroperoxide reductase in Salmonella typhimurium, thiol-specific antioxidant in Saccharomyces cerevisiae, and some other proteins. Since a segment around AA47 was highly conserved, this residue may be important for the biochemical functions of SP-22.
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PMID:Purification and characterization of a substrate protein for mitochondrial ATP-dependent protease in bovine adrenal cortex. 808 78

A 220-bp fragment of PTK7 cDNA was previously cloned from normal human melanocyte RNAs by means of the reverse transcription-polymerase chain reaction [Lee, S.-T., Strunk, K.M., and Spritz, R.A. (1993) Oncogene 8, 3403-3410]. We now report the cloning of the human full-length PTK7 cDNA and its characterization. The 1,070 amino acid PTK7 polypeptide deduced from the cDNA sequence constitutes receptor protein tyrosine kinase (RPTK), but has several unusual residues in some of the highly conserved tyrosine kinase motifs. PTK7 mRNA was expressed at the highest level in a human erythroleukemia cell line among tested samples, and at relatively high levels in liver, lung, pancreas, kidney, placenta, and melanocytes. Human PTK7 is 72% identical to chick KLG, suggesting that PTK7 is homologous or possibly orthologous to chick KLG, and that these represent a new subfamily of RPTKs.
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PMID:Characterization of the human full-length PTK7 cDNA encoding a receptor protein tyrosine kinase-like molecule closely related to chick KLG. 888 11

Clotrimazole (CLT), a member of the antifungal imidazole family of compounds, has been found to inhibit both calcium (Ca2+)-activated 86Rb and potassium (K) fluxes of human red cells and to inhibit red cell binding of 125I-charybdotoxin (ChTX) [11]. We have now used patch-clamp techniques to demonstrate reversible inhibition of whole cell KCa2+ currents in murine erythroleukemia (MEL) cells by submicromolar concentrations of CLT. Inhibition was equivalent whether currents were elicited by bath application of the Ca2+ ionophore A23187 or by dialyzing cells with a pipette solution containing micromolar concentrations of free Ca2+. The extent of inhibition of whole cell MEL KCa2+ currents was voltage-dependent, decreasing with increasing test potential. We also determined the single channel basis of the CLT inhibition in MEL cells by demonstrating the inhibition of a calcium-activated, ChTX-sensitive K channel by CLT in outside-out patches. The channel was also blocked by the des-imidazolyl metabolite of CLT, 2-chlorophenyl-bisphenyl-methanol (MET II) [15], thus demonstrating that the imidazole ring is not required for the inhibitory action of CLT. Single KCa2+ channels were also evident in inside-out patches of MEL cells. Block of K current by CLT was not unique to MEL cells. CLT also inhibited a component of the whole cell K current in PC12 cells. Channel specificity of block by CLT was determined by examining its effects on other types of voltage-sensitive currents. CLT block showed the following rank order of potency: K currents in PC12 cells > Ca2+ currents in PC12 cells >> Na currents in sympathetic neurons. These results demonstrate that direct inhibition of single KCa2+ by CLT can be dissociated from inhibition of cytochrome P-450 in MEL cells.
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PMID:The antifungal imidazole clotrimazole and its major in vivo metabolite are potent blockers of the calcium-activated potassium channel in murine erythroleukemia cells. 915 59

We have recently identified a novel ligand of the vascular endothelial growth factor (VEGF) family termed VEGF-related protein (VRP), which specifically binds to the FLT4 receptor. To characterize the signaling events after VRP engagement of its cognate receptor in hematopoietic cells, a population of human erythroleukemia (HEL) cells, termed HEL-JW, expressing high levels of FLT4 receptor was isolated. Stimulation of HEL-JW cells with VRP alone and in combination with the c-kit ligand/stem cell factor increased cell growth. VRP induced tyrosine phosphorylation of various proteins, including the FLT4 receptor. Further characterization of these tyrosine phosphorylated molecules revealed that Shc, Grb2, and SOS form a complex with the activated FLT4 receptor. HEL-JW cells also expressed RAFTK, a recently identified member of the focal adhesion kinase family. RAFTK was phosphorylated and activated upon VRP treatment, and there was an enhanced association of this kinase with the adaptor protein Grb2. Furthermore, the c-Jun NH2-terminal kinase (JNK), involved in growth activation and shown to mediate RAFTK signaling in other cell types, was activated by VRP stimulation. We also observed that VRP treatment of HEL-JW cells resulted in the phosphorylation of the cytoskeletal protein paxillin. This treatment resulted in an increased association of paxillin with RAFTK, which was mediated by the C-terminal region of RAFTK. These studies indicate that VRP stimulation induced the formation of a signaling complex at its activated receptor as well as activation of RAFTK. VRP-mediated activation of RAFTK may facilitate signal transduction to the cytoskeleton and downstream to the JNK pathway in FLT4-expressing blood cells.
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PMID:Signal transduction in human hematopoietic cells by vascular endothelial growth factor related protein, a novel ligand for the FLT4 receptor. 934 34

The FMS proto-oncogene encodes for the colony stimulating factor-1 receptor expressed on monocytes and B lymphocytes within the peripheral blood system. Allelic loss of the FMS gene occurs in patients with refractory anaemia and the 5q- syndrome associated with the myelodysplastic syndromes. To determine the frequency of FMS gene loss in patients with myeloid malignancy, 50 DNA samples from patients with acute myeloid leukaemia (AML) and 30 samples from haematologically normal samples were analysed using a quantitative Southern blotting technique. Allelic loss of one allele (hemizygous) was detected in five of 18 samples of AM-M4 and eight of 27 samples of AML M1, M2 and M3. In addition, loss of both FMS alleles (homozygous) was demonstrated in three of 18 samples of AML M4 and 0127 samples of AML M1, M2 and M3. One patient with AML M5 and one with AML M6 were assessed although no allelic loss of FMS was detected. Three samples from patients with secondary AML were also analysed and hemizygous loss was detected in one case. Homozygous or hemizygous loss of FMS was not detected in any of 30 DNA samples isolated from haematologically normal individuals. These data indicate that loss of the FMS gene is common in AML, with an increased frequency in those patients with AML subtype M4.
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PMID:Allelic loss of the FMS gene in acute myeloid leukaemia. 940 2

The KIT protein is a receptor tyrosine kinase of the platelet derived growth factor (PDGF) receptor family which regulates haematopoiesis, melanogenesis and gut and germ cell development. KIT regulates these diverse processes, at least in part, by inhibiting apoptosis. We have previously found that KIT can suppress p53-mediated apoptosis. The mechanism by which KIT suppresses apoptosis is, however, uncharacterized. Neither is it clear how p53 induces apoptosis. In this report we find that p53-dependent apoptosis proceeds through a pathway involving depolarization of the mitochondrial electropotential gradient (delta(psi)m) and the generation of reactive oxygen species (ROS). KIT activation suppresses p53-induced apoptosis in the mouse DP16 Friend erythroleukemia cell line by preventing delta(psi)m depolarization and ROS generation. Thus, the KIT kinase prevents apoptosis by regulating mitochondrial function and cellular redox state.
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PMID:Inhibition of p53-dependent apoptosis by the KIT tyrosine kinase: regulation of mitochondrial permeability transition and reactive oxygen species generation. 979 94

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