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 accumulation of genetic damage in the forms of activated proto-oncogenes and inactivated tumor-suppressor genes is the driving force in the evolution of a normal cell to a malignant cell. For example, both the activation of ras oncogenes and the inactivation of several suppressor genes, including p53, have been observed in the development of human colon and lung tumors. Point mutations in key codons can activate ras proto-oncogenes and inactivate the p53 suppressor gene. Thus, several critical genes for tumorigenesis are potential targets for carcinogens and radiation that can induce point mutations at low doses. The ras proto-oncogenes are targets for many genotoxic carcinogens. Activation of the ras gene is an early event--probably the "initiating" step--in the development of many chemical-induced rodent tumors. ras Oncogenes are observed in more human tumors and at a higher frequency than any other oncogene, and activation of the proto-oncogene may occur at various stages of the carcinogenic process. Numerous proto-oncogenes other than the ras genes have been shown to be activated in human tumors and to a lesser extent in rodent tumors. Mechanisms that induce aberrant expression of proto-oncogenes are gene amplification and chromosomal translocation or gene rearrangement. Amplification of proto-oncogenes and possibly gene overexpression during the absence of gene amplification occur in the development of many human tumors. For a specific tumor type, amplification of any one proto-oncogene may occur at a low frequency, but the frequency of tumors in which at least one proto-oncogene is amplified can be much higher. Proto-oncogene amplification is usually associated with late stages of tumor progression; however, amplified HER2/neu has been observed in early clinical stages of mammary neoplasia. Activation of proto-oncogenes by chromosomal translocation has been detected at a high frequency in several hematopoietic tumors. Non-ras genes have been detected by DNA transfection assays in both human and rodent tumors. For example, ret and trk genes were found to be activated by gene rearrangements in human papillary thyroid carcinomas. Several potentially new types of oncogenes have also been detected by DNA transfection assays. The etiology of the genetic alterations observed in most human tumors is unclear at present. Examples of ras gene activation and those documented for mutations in the p53 gene demonstrate that exogenous conditions can induce oncogenic mutants of normal genes. The genetic alterations observed in most human tumors are probably generated by both spontaneous events and exogenous conditions.
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PMID:Role of proto-oncogene activation in carcinogenesis. 148 40

Defects in the c-ret proto-oncogene, a member of the protein tyrosine kinase receptor family, have recently been linked to two types of genetic syndromes, Hirschsprung's disease and the multiple endocrine neoplasia family of inherited cancers. RET/ptc2 is the product of a papillary thyroid carcinoma translocation event between the genes coding for c-ret and the type I alpha regulatory subunit of protein kinase A (RI alpha) (Lanzi, C., Borrello, M., Bongarzone, I., Migliazza, A., Fusco, A., Grieco, M., Santoro, M., Gambetta, R., Zunino, F., Della Porta, G., and Pierotti, M. (1992) Oncogene 7, 2189-2194). The resulting 596-residue protein contains the first two-thirds of RI alpha and the entire tyrosine kinase domain of c-ret (RETtk). An in vivo assay of growth stimulatory effects was developed, which consisted of microinjecting a RET/ptc2 expression plasmid into the nuclei of 10T1/2 mouse fibroblasts and observing the incorporation of 5-bromodeoxyuridine. This assay was used to determine that only the dimerization domain of RI alpha fused to RETtk is required for RET/ptc2's mitogenic activity. In addition, all of the reported Hirschsprung's disease point mutations in the RETtk (S289P, R421Q, and R496G) inactivate RET/ptc2 in our assay, confirming that these are loss of function mutations. Two tyrosines outside the conserved kinase core were also identified that are essential for full mitogenic activity of RET/ptc2. These two tyrosines, Tyr-350 and Tyr-586, are potential sites for Src homology 2 and phosphotyrosine binding domain interactions.
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PMID:Tyrosines outside the kinase core and dimerization are required for the mitogenic activity of RET/ptc2. 755 72

Ret is a receptor protein tyrosine kinase that has been implicated in the development of the enteric nervous, endocrine, and renal systems. Mutations associated with multiple endocrine neoplasia types 2A and 2B (MEN 2A and 2B) have been shown to activate the intrinsic kinase and transforming ability of ret (Santoro, M., Carlomagno, F., Romano, A., Bottaro, D. P., Dathan, N. A., Grieco, M., Fusco, A., Vecchio, G., Matoskova, B., Kraus, M. H., and Paolo DiFiore, P. (1995) Science 267, 381-383). Using the cytoplasmic domain of Ret as bait in a yeast two-hybrid screen of a mouse embryonic library, it was discovered that the src homology 2 (SH2) domain containing protein Grb10 bound Ret. Grb10 belongs to an emerging family of SH2 containing adapter proteins, the prototypical member being Grb7. Using glutathione S-transferase fusion proteins, it was demonstrated that the SH2 domain of Grb10 specifically interacted with Ret. Additionally, using an EGFR/Ret chimera, it was shown that Grb10 bound Ret in an activation dependent manner in vivo. This is the first description of a receptor protein tyrosine kinase that utilizes Grb10 as a signaling intermediate.
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PMID:The Ret receptor protein tyrosine kinase associates with the SH2-containing adapter protein Grb10. 766 56

The Shc gene encodes three overlapping proteins which all contain a carboxy-terminal SH2 domain. Shc proteins are ubiquitously expressed and are downstream targets and effectors of activated tyrosine kinases (TK). We investigated tyrosine-phosphorylation of Shc proteins in normal and transformed cells. In tumor cells with known TK gene alterations Shc proteins were constitutively phosphorylated and complexed with the activated TK. No constitutive Shc phosphorylation was found in primary cell cultures and normal tissues. In 14 of 27 tumor cell lines with no reported TK alterations, Shc proteins were constitutively phosphorylated and formed stable complexes with novel tyrosine-phosphorylated polypeptides. Ten distinct Shc-associated phosphoproteins were identified with molecular weights ranging from 30 to 200 kDa. In a subset of carcinoma cell lines, phosphorylated Shc proteins complexed with a p175 phosphoprotein that was identified as the constitutively activated EGFR. In one glioblastoma cell line, a Shc-associated p190 was identified as the activated PDGFR. In 13 of 14 acute leukemia samples phosphorylated Shc proteins were constitutively complexed with a p140 phosphoprotein. Some of the Shc-associated phosphoproteins (EGFR, PDGFR, erbB-2, Met, bcr-abl, H4-ret) bound both the Shc- and Grb2-SH2 domains in vitro; others (p175; p70-p80) only the Shc-SH2 domain and yet others (p140) only the Grb2-SH3 domains. These results indicate that Shc proteins are common substrates of constitutively activated TKs and that the analysis of Shc phosphorylation allow the identification of tumors with constitutive TK activation.
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PMID:Constitutive phosphorylation of Shc proteins in human tumors. 767 49

The c-ret proto-oncogene encodes a receptor tyrosine kinase that plays important roles in human disease and in normal mammalian development. Mutations in the human RET gene are associated with multiple endocrine neoplasia syndromes and Hirschsprung's disease in humans, while targeted mutagenesis of murine c-ret resulted in severe developmental abnormalities affecting the excretory and peripheral nervous systems. To examine the evolutionary conservation of the ret protein sequence and its developmental expression pattern, we isolated and sequenced cDNA clones of chicken c-ret and examined its expression in chick embryos and adult tissues. The cytoplasmic domains of chicken and human ret were relatively well conserved (91% similar), but the extracellular domains were more divergent (68% similar), although the conservation of cysteine residues in this region suggests a conserved secondary structure. As in mouse and human, chicken c-ret encodes two protein isoforms. The number and sizes of the transcripts were similar to those in human and mouse cells, and during chick embryogenesis, c-ret mRNA was observed in many of the same sites as in the mouse, including the Wolffian duct and ureteric bud, the enteric, dorsal root, sympathetic and facioacoustic ganglia, and the ventral spinal cord. Evolutionary differences in expression were observed in the trigeminal ganglion, the ventral roots of the spinal cord, the mesenchymal cells of the branchial arches and the adult testes. The results are discussed with regard to the role of the ret receptor in normal development and disease.
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PMID:Isolation and characterization of a chicken homolog of the c-ret proto-oncogene. 786 41

A chimeric expression vector which encoded for a molecule encompassing the extracellular domain of the epidermal growth factor (EGF) receptor (EGFR) and the intracellular domain of the ret kinase (EGFR/ret chimera) was generated. Upon ectopic expression in mammalian cells, the EGFR/ret chimera was correctly synthesized and transported to the cell surface, where it was shown capable of binding EGF and transducing an EGF-dependent signal intracellularly. Thus, the EGFR/ret chimera allows us to study the biological effects and biochemical activities of the ret kinase under controlled conditions of activation. Comparative analysis of the growth-promoting activity of the EGFR/ret chimera expressed in fibroblastic or hematopoietic cells revealed a biological phenotype clearly distinguishable from that of the EGFR, indicating that the two kinases couple with mitogenic pathways which are different to some extent. Analysis of biochemical pathways implicated in the transduction of mitogenic signals also evidenced significant differences between the ret kinase and other receptor tyrosine kinases. Thus, the sum of our results indicates the existence of a ret-specific pathway of mitogenic signaling.
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PMID:An epidermal growth factor receptor/ret chimera generates mitogenic and transforming signals: evidence for a ret-specific signaling pathway. 826 35

In 1986, familial medullary thyroid carcinoma (FMTC) was recognized clinically as a distinct entity, clearly distinguished from multiple endocrine neoplasia (MEN), being characterized by the development of MTC in the absence of any additional neoplasms. Ret proto-oncogene was first identified in 1985 using transformation assay. The gene was mapped to the chromosome 10, similar to MEN and FMTC, and was expressed at high levels in MTC. In 1993, ret mutations were identified in patients with MEN2A and FMTC, and many other mutations has been clarified up to today. What is the normal function of RET and how ret mutations lead to tumor formation in MEN and FMTC are focus of intensive studies at present.
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PMID:[Familial occurrence of thyroid tumors]. 853 29

RET rearrangement was studied in papillary thyroid carcinomas (PTC) of children exposed to radioactive fallout in Belarus after the Chernobyl accident. To detect RET rearrangement in small tissue samples from thyroidectomy specimen (12 PTC of children; 2 PTC and 1 follicular carcinoma of adults; non-tumorous thyroid tissue of 4 children and 4 adults as controls), a RT-multiplex PCR was developed using primers suited to amplify fragments in different quantities depending on the presence or absence of RET rearrangements in the tissues. The type of rearrangement was determined by RT-PCR and direct sequencing using primers for ret/PTC1, 2 and 3. Two-thirds of the papillary thyroid carcinomas of the children revealed a RET rearrangement, with ret/PTC3 being more frequent by a factor of 3 than ret/PTC1. ret/PTC2 was not detected. All RET rearrangement-positive tumors had lymph node metastasis while half of the tumors with wild-type cRET had not. More than half of the cases with ret/PTC3 expressed not only the ELE/RET transcript as expected, but also the RET/ELE transcript. Intrachromosomal rearrangement involving RET and the adjacent H4 or ELE gene on chromosome no. 10 is a very frequent event in thyroid cancer of children of the Chernobyl-contaminated zone of Belarus.
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PMID:High prevalence of RET rearrangement in thyroid tumors of children from Belarus after the Chernobyl reactor accident. 854 2

Germline mutations of c-ret, encoding a receptor-type tyrosine kinase, were found to be associated with variants of multiple endocrine neoplasia type 2 (MEN2A, MEN2B), and familial medullary thyroid carcinoma. NIH/3T3 stable transfectants expressing RET with a mutation of MEN2A (MEN2A/RET) or MEN2B (MEN2B/RET) gained a transformed morphology, formed colonies in soft agar, and formed tumors in nude mice. These results confirmed that both MEN2A/RET and MEN2B/RET exert dominant transforming activities in NIH/3T3 cells. However, in contrast to their clinical manifestation, transfectants expressing MEN2A/RET exhibited a higher tumorigenicity in nude mice than transfectants expressing MEN2B/RET may depend on the presence of its ligand and/or substrates that are absent in NIH/3T3 cells. No change in the cellular localization of the mutated RET proteins was observed compared to c-RET. Interestingly, ret activation in NIT/3T3 cells appeared to be associated with up-regulation of homologous gap-junctional intercellular communication and increased expression of a gap-junctional protein, connexin43.
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PMID:Characterization of ret oncogenic activation in MEN2 inherited cancer syndromes. 861 78

The c-ret proto-oncogene encodes a receptor tyrosine kinase which plays an important role in neural crest as well as kidney development. Genetic studies have demonstrated that germ line mutations in the ret oncogene are the direct cause of multiple endocrine neoplasia (MEN) 2A and 2B, familial medullary thyroid carcinoma (FMTC), and Hirschsprung's disease. However, despite the large body of genetic and biological evidence suggesting the importance of RET in development and neoplastic processes, the signal transduction mechanisms of RET remain unknown. To begin to understand the molecular mechanisms of the disease states caused by mutations in RET, the patterns of autophosphorylation of the wild-type RET and the MEN mutants were studied using site-directed mutagenesis and phosphopeptide mapping. Among the 6 autophosphorylation sites found in the wild-type RET receptor, the MEN2B mutant lacked phosphorylation at Tyr-1096, leading to decreased Grb2 binding, while simultaneously creating a new phosphorylation site. These changes in autophosphorylation suggest that the MEN2B mutation may result in the more aggressive MEN2B phenotype by altering the receptor's signaling capabilities.
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PMID:Oncogenic RET receptors display different autophosphorylation sites and substrate binding specificities. 862 80

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