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 Met proto-oncogene product is a tyrosine kinase receptor whose ligand is hepatocyte growth factor (HGF). The Met protein is first synthesized in the hepatocytes as a single chain precursor, or p170MET proreceptor, and is then processed to a mature heterodimer receptor consisting of an extracellular alpha subunit (p50 alpha MET) and a transmembrane beta subunit (p 145 beta MET). The beta subunit has a protein kinase domain which is activated through phosphorylation on tyrosine residue by the binding of HGF to the receptor. In order to elucidate the function of the Met gene product in hepatic disorders, we analyzed the expression and tyrosine phosphorylation of the Met protein on regeneration and carcinogenesis of the liver. For studies on carcinogenesis we used human hepatoma tissues, and for studies on regeneration we used rat hepatectomy. Two antibodies were used for western blotting; a mouse monoclonal anti-phosphotyrosine antibody, which recognizes phosphorylated tyrosine residue in proteins, and a polyclonal rabbit anti-Met antibody, which recognizes the C-terminus of both the Met beta chains and proreceptor. To compare the amount of protein in each experiment, the results of western blotting were evaluated using an image analyzing system. In experiments involving rats with partial hepatectomy, a decreased expression of the proreceptor with a decreased amount of tyrosine phosphorylation was observed within 12 hours of hepatectomy. However, there were no significant changes of the Met beta subunit during the experiment. These data suggest that the Met proreceptor is decreased in the early stages of liver regeneration. In experiments on human samples surgically removed from 18 patients with hepatocellular carcinoma, the met proteins, p 145 beta MET and p 160 MET proreceptor, were expressed both in cancer tissues (12/18, and 10/18, respectively) and in non-cancer tissues (8/18, and 15/18, respectively). From the comparative analyses of the intensity of the signals in cancerous region against those of non-cancerous region in the 18 individual cases, it was demonstrated that expression of p 160 MET proreceptor was increased in non-cancerous region more significantly than in cancerous region (p < 0.05). On the contrary, expression of p145 beta MET was increased in cancerous region more significantly than in non-cancerous region (p < 0.05), except for a few cases of poorly differentiated carcinomas in which p 145 beta MET signal was not detected. These findings suggested that a processing pathway from the proreceptor to the mature Met receptor is amplified in carcinogenesis of the liver.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Analysis of the hepatocyte growth factor receptor in regeneration and oncogenesis of hepatocytes]. 815 55

The c-MET proto-oncogene encodes the tyrosine kinase receptor for hepatocyte growth factor (HGF), also known as scatter factor, a potent mitogen and motogen for epithelial cells. The level of the HGF receptor expressed by epithelial cells varies in different growth conditions, being lower in growth arrested confluent monolayers and higher in growing sparse cells. The amount of HGF receptor mRNA increases from 3- to 5-fold after stimulation of confluent monolayers by serum and up to 10-fold after stimulation of protein kinase C by 12-O-tetradecanoylphorbol-13-acetate (TPA). An increased level of the receptor mRNA was also observed after cell stimulation with nanomolar concentration of HGF itself. The effect was transient, dose, and time-dependent. Transcription of a reporter gene under control of the cloned 297 base pair c-MET promoter was also stimulated by serum, TPA, or HGF. The accumulation of specific mRNA is followed by appearance of the HGF receptor precursor protein, which is further processed to the receptor mature form. After HGF stimulation, HGF receptor expression follows c-FOS and c-JUN induction with a peak approximately 4 h. Pretreatment with the protein synthesis inhibitor puromycin strongly reduced the response to HGF, while cycloheximide alone increased the level of the receptor mRNA. These data show that c-MET behaves as a delayed early-response gene and suggest that the HGF response is autoamplified by inducing the specific receptor.
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PMID:Hepatocyte growth factor (HGF) receptor expression is inducible and is part of the delayed-early response to HGF. 817 99

The MET oncogene, encoding the tyrosine kinase receptor for the hepatocyte growth factor/scatter factor, is expressed in epithelial cells and overexpressed in a significant proportion of human epithelial cancers, suggesting the occurrence of transcriptional alteration(s). To identify the MET promoter, we isolated recombinant cDNA clones encompassing the entire 5'-noncoding sequence of MET messenger RNAs. Using probes derived from this region, we cloned the entire genomic region spanning the first MET exon and the flanking regulatory sequences. The first exon, containing the entire untranslated sequence, is present in the MET mRNAs of 7.1, 5.9, and 4.6 kilobases, showing that the expression of the multiple transcripts is regulated by a single promoter. The start site of transcription was determined by primer extension and by rapid amplification of cDNA ends. We show that a 300-base pair fragment, containing sequences upstream from the start site, efficiently drives the expression of a reporter gene in transfected epithelial cells. This promoter fragment also contains the cis-acting elements responsible for phorbol-ester induction.
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PMID:Structure and inducible regulation of the human MET promoter. 817

The MET gene, encoding the tyrosine kinase receptor for Hepatocyte Growth Factor, is a potentially harmful oncogene overexpressed in a significant fraction of human cancers. To study the molecular mechanisms responsible for oncogenic activation, the biochemical and biological properties of a number of MET constructs were analysed. The native heterodimeric receptor (alpha beta), the beta chain alone, as well as a kinase defective mutant did not transform rodent fibroblasts upon transfection. The cytoplasmic domain, truncated immediately below the transmembrane region, acquired constitutive tyrosine kinase activity in vivo, produced foci of transformation, and was tumorigenic in nude mice. Removal of the first 39 amino acids of the juxtamembrane domain resulted in loss of constitutive activation in vivo and transforming potential, without impairment of the in vitro kinase activity. Replacement of the juxtamembrane domain with 5' TPR sequences restored constitutive kinase activation and transforming properties. Site-directed mutagenesis of either of the two tyrosine residues involved in the positive regulation of the catalytic activity upon phosphorylation (Y1234 or Y1235 in the kinase domain of the HGF receptor), strongly impaired TRP-MET transforming potential. These data show that: (1) the truncated cytoplasmic HGF receptor has constitutive kinase activity and is oncogenic; (2) the first 39 amino acids of the juxtamembrane domain and (3) the regulatory tyrosines in the catalytic domain are required to unleash its transforming potential.
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PMID:Structural and functional domains critical for constitutive activation of the HGF-receptor (Met). 818 64

The c-MET proto-oncogene product is a transmembrane tyrosine kinase receptor which was recently shown to transmit an array of important cellular responses induced by Hepatocyte Growth Factor (HGF). These biological effects include induction of mitogenesis, motogenesis, morphogenesis, metastogenesis and anti-tumor activity on a variety of epithelial cells. All of these processes are known to be associated with normal and abnormal tissue growth and development. The 190 kDa c-MET protein is encoded by a major transcript of 8 kilobases (kb), which is reported to be expressed predominantly in epithelial tissues. The expression pattern of c-MET mRNA and protein are drastically modified in many tumor tissues and cell lines. Currently, no information is available on the molecular mechanisms that regulate c-MET mRNA level. In the present communication, we report for the first time that the inflammatory cytokines such as IL-1 alpha, IL-6 and TNF-alpha, as well as TGF-beta 1, EGF, HGF and the steroidal hormones (estrogen, progesterone, tamoxifen and dexamethasone) markedly influence the steady-state levels of the 8 kb c-MET mRNA in human carcinoma cell lines derived from human tissues such as ovary, breast and endometrium. We demonstrate that c-MET receptor protein is present at high levels in primary tumors of human ovaries (clear cell carcinomas). We present evidence that the 8 kb c-MET mRNA undergoes rapid degradation with a half-life of less than 30 min and that this decay can be quickly inhibited by cycloheximide. Our results suggest that the expression of the c-met proto-oncogene resembles that of an immediate early response gene.
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PMID:Modulation of c-MET proto-oncogene (HGF receptor) mRNA abundance by cytokines and hormones: evidence for rapid decay of the 8 kb c-MET transcript. 820 49

The proto-oncogene c-met encodes a heterodimeric (alpha, beta) tyrosine kinase receptor which binds the hepatocyte growth factor (HGF). Recently, overexpression of the Met/HGF receptor gene has been detected in fresh samples of carcinomas and in epithelial tumor cell lines but not in cell lines derived from human leukemia and lymphoma. Our analysis of 50 primary samples of human leukemia and lymphoma and 23 hematopoietic cell lines revealed expression of mRNA and protein of the met/HGF receptor in 6 out of the 73 hematopoietic tumor samples analyzed. Four of the six samples positive for expression of the Met/HGF receptor gene were derived from patients with Hodgkin's disease. In addition, in one Burkitt's lymphoma cell line and in one acute myeloid leukemia (AML), expression of the Met/HGF receptor gene was detected. In normal unstimulated lymphocytes, granulocytes or monocytes we did not find expression of the Met/HGF receptor gene. Upon stimulation with the phorbol ester TPA we detected a weak expression of Met/HGF receptor specific transcripts of 9.0 kb in peripheral blood mononuclear cells of a healthy donor. Cytogenetic analyses of three of the four cell lines which express the Met/HGF receptor gene revealed structural or numerical abnormalities of the long arm of chromosome 7, where the Met/HGFR gene is located, in each of the three cell lines analyzed. In one of these cell lines (L540) the Met/HGFR gene is translocated to a marker chromosome. Southern blot and pulsed field gel electrophoresis experiments did not show any rearrangement in a region of 600 kb around the Met/HGF receptor gene excluding an activation of Met/HGFR by a TPR/Met oncogenic rearrangement as described for MNNG-HOS cells and for some gastric tumors. Our data indicate that the Met/HGFR gene is deregulated in a few cases of human leukemia, Burkitt's lymphoma and Hodgkin's disease possibly by chromosomal rearrangements resulting in an overexpression of the normal Met/HGF receptor mRNA and protein without formation of a hybrid gene.
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PMID:The Met/hepatocyte growth factor receptor (HGFR) gene is overexpressed in some cases of human leukemia and lymphoma. 828 71

The c-MET proto-oncogene encodes the tyrosine kinase receptor for hepatocyte growth factor (HGF), also known as scatter factor, a powerful mitogen and motility factor for epithelial cells. We now show that the two previously described forms of the Met/HGF receptor, the intact p190MET and the truncated p140MET, are expressed in physiological conditions in the human central nervous system (CNS). The receptors were identified by Western blot analysis with monoclonal antibodies directed against different epitopes. By immunohistochemical staining the Met/HGF receptor was found to be expressed in a homogeneous cell population, equally distributed between the grey and the white matter, showing morphological features and immunochemical markers specific for the resident microglial cells. These data suggest a possible role for the c-MET proto-oncogene and HGF in microglial reactions to CNS injuries.
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PMID:Selective expression of the Met/HGF receptor in human central nervous system microglia. 838 Sep 19

Using a DNA transfection-tumorigenicity assay we have recently identified the UFO oncogene. It encodes a tyrosine kinase receptor characterized by the juxtaposition of two immunoglobulin-like and two fibronectin type III repeats in its extracellular domain. Here we describe the genomic organization of the human UFO locus. The UFO receptor is encoded by 20 exons that are distributed over a region of 44 kb. Different isoforms of UFO mRNA are generated by alternative splicing of exon 10 and differential usage of two imperfect polyadenylation sites resulting in the presence or absence of 1.5-kb 3' untranslated sequences. Primer extension and S1 nuclease analyses revealed multiple transcriptional initiation sites including a major site 169 bp upstream of the translation start site. The promoter region is GC rich, lacks TATA and CAAT boxes, but contains potential recognition sites for a variety of trans-acting factors, including Sp1, AP-2 and the cyclic AMP response element-binding protein. Proto-UFO and its oncogenic counterpart exhibit identical cDNA and promoter regions sequences. Possible modes of UFO activation are discussed.
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PMID:The genomic structure of the human UFO receptor. 838 Dec 25

With the use of reverse transcriptase-polymerase chain reaction techniques focused on a unique kinase insert sequence, the complementary DNA for a mouse tyrosine kinase receptor gene, designated sam3, was isolated from a mouse brain complementary DNA library as a member of the heparin-binding growth factor receptor family or fibroblast growth factor receptor family. The kinase insert region was selected as the probe synthesized by polymerase chain reaction techniques because it composes a unique structure in this receptor family. The sam3 protein, 800 amino acids long, has high homology to mouse K-sam/bek (67%) and N-sam/flg (63%), which we also cloned as the mouse counterparts of human K-sam/bek and N-sam/flg genes, other members of this family. The sam3 protein also has high homology to human FGFR3 (92%) and chicken cek2 (80%) proteins. The sam3 protein is most likely to be a mouse counterpart of human FGFR3 and chicken cek2 proteins. mRNAs of K-sam/bek, N-sam/flg, and sam3/FGFR3 genes were detected in mouse embryo through some adult tissues. The relative amounts of these mRNAs were different depending on the organs examined. Thus, these gene products may have different biological functions in organ development including the central nervous system.
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PMID:Isolation of the complementary DNA encoding a mouse heparin-binding growth factor receptor with the use of a unique kinase insert sequence. 838 56

We previously showed that the proto-oncogene RON encodes the tyrosine kinase receptor for Macrophage Stimulating Protein (MSP), originally isolated as a chemotactic factor for peritoneal macrophages. To elucidate the biological role of MSP we studied the expression of the Ron receptor in vivo, and the response to the factor in vitro. RON specific transcripts were detectable in mouse liver from early embryonal life (day 12.5 p.c.) through adult life. Adrenal gland, spinal ganglia, skin, lung and--unexpectedly--ossification centers of developing mandible, clavicle and ribs were also positive at later stages (day 13.5-16.5 p.c.). From day 17.5 RON was expressed in the gut epithelium and in a specific area of the central nervous system, corresponding to the nucleus of the hypoglossus. In adult mouse tissues RON transcripts were observed in brain, adrenal glands, gastro-intestinal tract, testis and kidney. Epithelial, osteoclast-like and neuroendocrine cells express the Ron receptor and respond to MSP in vitro. In the neuroendocrine PC12 cell line, while NGF induced growth arrest and morphological differentiation, MSP behaved as a strong mitogen. These findings show that the Ron receptor and its ligand are involved in the development of epithelial tissues, bones, and neuroendocrine derivatives driving cells towards the proliferation program.
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PMID:The proto-oncogene RON is involved in development of epithelial, bone and neuro-endocrine tissues. 854 20

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