Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

We have detected transforming activity by a tumorigenicity assay using NIH3T3 cells transfected with DNA from a chronic myeloproliferative disorder patient. Here, we report the cDNA cloning of the corresponding oncogene, designated UFO, in allusion to the as yet unidentified function of its protein. Nucleotide sequence analysis of a 3116bp cDNA clone revealed a 2682-bp-long open reading frame capable of directing the synthesis of a 894 amino acid polypeptide. The predicted UFO protein exhibits characteristic features of a transmembrane receptor with associated tyrosine kinase activity. The UFO proto-oncogene maps to human chromosome 19q13.1 and is transcribed into two 5.0 kb and 3.2 kb mRNAs in human bone marrow and human tumor cell lines. The UFO locus is evolutionarily conserved between vertebrate species. A 4.0 kb mRNA of the murine UFO homolog is expressed in a variety of different mouse tissues. We thus have identified a novel element of the complex signaling network involved in the control of cell proliferation and differentiation.
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PMID:A novel putative tyrosine kinase receptor with oncogenic potential. 183 74

The protein kinase domains of v-kit, the oncogene of the acute transforming feline retrovirus HZ4-FeSV (HZ4-feline sarcoma virus), CSF-1R (macrophage colony stimulating factor receptor) and PDGFR (platelet derived growth factor receptor) display extensive homology. Because of the close structural relationship of v-kit, CSF-1R and PDGFR we predicted that c-kit would encode a protein kinase transmembrane receptor (Besmer et al., 1986a; Yarden et al., 1986). We have now determined the primary structure of murine c-kit from a DNA clone isolated from a brain cDNA library. The nucleotide sequence of the c-kit cDNA predicts a 975 amino acid protein product with a calculated mol. wt of 109.001 kd. It contains an N-terminal signal peptide, a transmembrane domain (residues 519-543) and in the C-terminal half the v-kit homologous sequences (residues 558-925). c-kit therefore contains the features which are characteristic of a transmembrane receptor kinase. Comparison of c-kit, CSF-1R and PDGFR revealed a unique structural relationship of these receptor kinases suggesting a common evolutionary origin. The outer cellular domain of c-kit was shown to be related to the immunoglobulin superfamily. The sites of expression of c-kit in normal tissue predict a function in the brain and in hematopoietic cells. N-terminal sequences which include the extracellular domain and the transmembrane domain as well as 50 amino acids from the C-terminus of c-kit are deleted in v-kit. These structural alterations are likely determinants of the oncogenic activation of v-kit.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Primary structure of c-kit: relationship with the CSF-1/PDGF receptor kinase family--oncogenic activation of v-kit involves deletion of extracellular domain and C terminus. 245 20

TRK is a human transforming gene generated in a colon carcinoma by a somatic rearrangement that fused a nonmuscle tropomyosin gene to sequences that shared extensive homology with members of the tyrosine-protein kinase supergene family. These sequences are likely to be derived from a transmembrane receptor gene whose putative ligand binding domain has been replaced by tropomyosin. In the present studies, we have expressed the entire coding sequences of the TRK oncogene as well as its protein kinase-related carboxyl-terminal domain in Escherichia coli. Antisera raised against these bacteria-synthesized TRK polypeptides has allowed us to identify the gene product of the TRK oncogene as a 70-kDa protein. Immunoprecipitates containing p70TRK have an associated protein kinase activity specific for tyrosine residues. Moreover, p70TRK is phosphorylated in vivo in serine (75%), threonine (20%), and tyrosine (5%) residues. Finally, immunofluorescence and cellular fractionation studies indicate that p70TRK is preferentially located in the cytoplasmic fraction.
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PMID:Identification and biochemical characterization of p70TRK, product of the human TRK oncogene. 347 1

KIT constitutes the cell surface transmembrane receptor protein tyrosine kinase for a growth factor variously termed steel factor (SLF), stem cell factor, mast cell growth factor, or Kit ligand. Inherited mutations of the KIT gene result in piebaldism in humans and dominant white spotting (W) in mice. Patches of hypopigmented skin and hair in these disorders represent regions lacking in melanocytes, the result of defective melanoblast differentiation, migration, proliferation, or survival during embryonic development. Here we show that incubation of normal human melanocytes with a KIT antisense oligodeoxynucleotide greatly inhibits cell proliferation in culture, whereas incubation with a KIT sense oligodeoxynucleotide has no effect. The KIT oligodeoxynucleotides also had little or no effect on cell survival.
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PMID:Inhibition of proliferation of human melanocytes by a KIT antisense oligodeoxynucleotide: implications for human piebaldism and mouse dominant white spotting (W). 751 54

We have mapped five genes encoding protein tyrosine kinases (PTKs) to the pericentromeric region of human chromosome 4. PTK4 and TYRO4, which encode nonreceptor intracellular PTKs, are located at 4p12 and 4q13, respectively. The other three genes, PDGFRA, KIT, and KDR, encode type III transmembrane receptor PTKs for known ligands. We have developed a contig of 29 yeast artificial chromosomes (YACs) spanning approximately 2 Mb of DNA at 4q12 that includes PDGFRA, KIT, and KDR, and we have used this YAC contig to map 12 different sequence-tagged sites in this region. PDGFRA, KIT, and KDR thus constitute a cluster of genes at 4q12 encoding closely related type III receptor PTKs. Mutations of the human KIT gene result in piebaldism, an autosomal dominant disorder of melanocyte development.
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PMID:A YAC contig spanning a cluster of human type III receptor protein tyrosine kinase genes (PDGFRA-KIT-KDR) in chromosome segment 4q12. 752 18

Multiple endocrine neoplasia (MEN) type 1 is an autosomal, dominantly inherited predisposition to develop neoplastic lesions of the parathyroid glands, the neuroendocrine pancreas-duodenum, and the anterior pituitary. The genetic defect was mapped to the centromeric part of the long arm of chromosome 11 based on studies of somatic deletions in MEN-1-associated tumors and linkage analysis in families in whom the disease is segregated. Combined family and tumor analysis has shown that tumorigenesis in MEN-1 involves loss of the wild-type chromosome, indicating that the putative MEN-1 gene is a tumor suppressor gene. Similar deletions are also seen in a proportion of sporadic parathyroid and pancreatic tumors, suggesting that tumorigenesis involves related mechanisms in both sporadic and familial cases. Based on results from linkage analysis in more than 40 MEN-1 families, predictive testing for MEN-1 using DNA polymorphisms can now be performed with high accuracy. Hence, biochemical screening programs can focus on individuals at risk to identify early signs of tumor development. MEN-2, an autosomal dominant cancer syndrome of variable expressivity, has previously been localized to chromosome 10q11.2 by positional cloning tactics. The RET protooncogene mapping to the MEN2 susceptibility locus has recently emerged as a candidate gene for MEN-2A. RET, a transmembrane receptor protein, has a large glycosylated extracellular domain containing clustered cysteine residues and calcium-binding motifs, a single hydrophobic transmembrane domain, and a cytoplasmic domain with tyrosine kinase catalytic activity. Several germline missense mutations in a codon specifying one of these highly conserved cysteine residues have been detected in patients affected with MEN-2A.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic aspects of multiple endocrine neoplasia types 1 and 2. 758 11

The RET proto-oncogene encodes a transmembrane receptor of the tyrosine kinase family, recently found to be the gene responsible for the multiple endocrine neoplasia type 2A and 2B syndromes. RET was found specifically activated, by gene rearrangement, in human thyroid carcinomas of the papillary subtype. In most cases the activation consisted of an in frame fusion of the RET tyrosine-kinase domain, at the carboxy-terminus, with heterologous genes at the amino-terminus. These chimeric oncogenes are collectively named RET/PTC. Two forms of these gene products, RET/PTC1 and RET/PTC3, have been tested for their ability to induce meiotic maturation in Xenopus oocytes. Injection of RET/PTC mRNAs into immature oocytes induced maturation-promoting-factor (MPF) activation and germinal vesicle breakdown (GVBD). The injected oocytes expressed polypeptides recognized by an anti-RET gene product antibody as well as by an antiphosphotyrosine antibody, indicating activation of the tyrosine-kinase domain. The RET/PTC induced maturation was dependent on endogenous ras; in fact, the coinjection of RET/PTC mRNA with a neutralizing anti-ras antibody blocked oocytes maturation without interfering with the accumulation and tyrosine-phosphorylation of the RET/PTC protein.
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PMID:Activated RET oncogene products induce maturation of xenopus oocytes. 762 18

The protein superfamily of transmembrane receptor tyrosine kinases (RTKs) are essential components of intercellular signalling pathways necessary for normal cellular regulation. We report the cloning and developmental expression pattern of Nsk2, a novel, structurally distinct mammalian RTK characterised by a putative extracellular region bearing four immunoglobulin-like domains. The Nsk2 locus was mapped to the distal region of mouse chromosome 13 and was found to be expressed preferentially in skeletal muscle amongst adult mouse tissues. Moreover, increased steady-state levels of Nsk2 transcripts were apparent on terminal differentiation of committed skeletal myoblast cell lines in vitro and multiple isoforms of the Nsk2 RTK were identified in skeletal myotube cultures. RNA in situ hybridisation studies of mouse embryos confirmed skeletal myogenesis to be a major site of Nsk2 expression during normal embryogenesis, and identified other likely sites of Nsk2 function in ganglia of the developing peripheral nervous system and various embryonic epithelia, including those of kidney, lung and gut, during fetal development. Taken together, our data suggest normal functions for Nsk2 RTKs in distinctive aspects of skeletal muscle development, neurogenesis and mesenchymal-epithelial interactions during organ formation.
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PMID:Cloning and developmental expression of Nsk2, a novel receptor tyrosine kinase implicated in skeletal myogenesis. 762 44

The HER2/neu (c-erbB2) protooncogene, which encodes a transmembrane receptor (p185neu), contributes to tumor cell invasion/metastasis through mechanism(s) which are, at present, poorly defined. Since basement membrane degradation is a prerequisite for tumor progression, we undertook a study to determine if the expression of urokinase, a key protease implicated in extracellular matrix proteolysis, was regulated by this oncogene. Stable overexpression of a cDNA encoding HER2/neu in H460 lung cancer cells led to elevated secretion of urokinase which was a consequence of a higher level of protease mRNA. Transfection of the HER2/neu-overexpressing B 104-1 cells with a CAT reporter construct driven by the urokinase promoter, gave rise to increased CAT activity when compared with parental NIH3T3 cells, which have low levels of HER2/neu, suggesting that the protooncogene can enhance urokinase promoter activity. Since the enhanced expression of HER2/neu results in increased tumor invasion/metastasis (1), these data suggest that, at least in vitro, HER2/neu-induced expression of urokinase may contribute to tumor progression in p185neu-positive cancers.
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PMID:Up-regulation of urokinase-type plasminogen activator expression by the HER2/neu proto-oncogene. 765 95

Hepatocyte growth factor/scatter factor (HGF/SF) is a heparin-binding polypeptide which shares structural domains with enzymes of the blood clotting cascade. HGF/SF is secreted by cells of mesodermal origin and has powerful mitogenic, motogenic and morphogenic activity on epithelial and endothelial cells. HGF/SF is produced as a biologically inactive single-chain precursor (pro-HGF/SF) most of which is sequestered on the cell surface or bound to the extracellular matrix. Maturation into the active alpha beta heterodimer results from proteolytic cleavage by a urokinase-type protease, which acts as a pro-HGF/SF convertase. The primary determinant for receptor binding appears to be located within the alpha-chain. The interaction of the alpha-chain with the receptor is sufficient for the activation of the signal cascade involved in the motility response. However, the complete HGF/SF protein seems to be required to elicit a mitogenic response. HGF/SF binds with high affinity to a transmembrane receptor, p190MET, encoded by the MET proto-oncogene. p190MET is the prototype of a distinct subfamily of heterodimeric tyrosine kinases, including the putative receptors Ron and Sea. The mature form of p190MET is a heterodimer of two disulfide-linked subunits (alpha and beta). The alpha-subunit is extracellular and heavily glycosylated. The beta-subunit consists of an extracellular portion involved in ligand binding, a membrane spanning segment, and a cytoplasmic tyrosine kinase domain. Both subunits derive from glycosylation and proteolytic cleavage of a common precursor of 170 kDa. In polarized epithelial cells the HGF/SF receptor is selectively exposed in the basolateral plasmalemma, where it is associated with detergent-insoluble components. Two Met isoforms, carrying an intact ligand binding domain but lacking the kinase domain due to truncation of the beta-subunit, arise from alternative post-transcriptional processing of the mature form. One truncated form is soluble and released from the cells. HGF/SF binding triggers tyrosine autophosphorylation of the receptor beta-subunit. Autophosphorylation on the major phosphorylation site Y1235 upregulates the kinase activity of the receptor, increasing the Vmax of the phosphotransfer reaction. Negative regulation of the kinase activity occurs through phosphorylation of a unique serine residue (S985) located in the juxtamembrane domain of the receptor. This phosphorylation is triggered by two distinct pathways involving either protein kinase C activation or increase in intracellular Ca2+ concentration. Upon ligand binding, the HGF/SF receptor recruits and activates several cytoplasmic effectors, including phosphatidylinositol 3-kinase (PI 3-K), phospholipase C-gamma (PLC-gamma), pp60c-Src, a tyrosine phosphatase, and a Ras-guanine nucleotide exchanger.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Identification of functional domains in the hepatocyte growth factor and its receptor by molecular engineering. 776 52


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