Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04626 (erbB-2)
 5,251 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An epidermal growth factor (EGF) receptor monoclonal antibody (mAb), mAb LA22, was used to analyze the covalent coupling of human EGF receptors to mouse EGF by the amine-reactive cross-linking agent disuccinimidyl suberate. A soluble Mr 105,000 truncated form of the receptor secreted by A-431 epidermoid carcinoma cells and consisting of the ligand-binding extracellular domain was cross-linked to 125I-labeled EGF. Digestion of this complex with an endoproteinase that specifically cleaves at the COOH side of glutamyl residue released a single radiolabeled glycosylated fragment of Mr 18,000 that reacted with mAb LA22. As the epitope for mAb LA22 resided between Ala-351 and Asp-364 of the mature receptor, this result localized the cross-linked receptor residue(s) to the 47-amino acid interval from Phe-321 to Glu-367. The receptor residue(s) involved in the covalent coupling of rat 125I-labeled transforming growth factor alpha was similarly localized to this region of the receptor. This receptor interval, which included two glycosylated asparaginyl residues at positions 328 and 337, contained but three amino acid residues that were potentially reactive with disuccinimidyl suberate: Lys-332, Lys-333, and Lys-336. Characterization of mAb LA22-reactive 125I-EGF-labeled receptor fragments generated by an endoproteinase specific for the COOH side of lysyl residue placed the NH2 termini of the two smallest fragments between the glycosylated residues Asn-328 and Asn-337. These results indicated that disuccinimidyl suberate cross-linked the NH2 group of EGF residue Asn-1 to the human EGF receptor residue Lys-336. Our results further suggest that EGF and transforming growth factor alpha, two members of the EGF family of peptide growth factors, interact with closely apposed or identical features of the receptor.
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PMID:Human epidermal growth factor receptor residue covalently cross-linked to epidermal growth factor. 169 2

Monoclonal antibodies to myc, c-erbB-2 and epidermal growth factor-receptor (EGF-R) were raised using a synthetic peptide approach. The antibodies were characterised by ELISA, immunoblotting, immunoprecipitation and immunocytochemical procedures against cognate peptide and native proteins. All of the monoclonal antibodies detected peptide-blockable bands of appropriate molecular weight (myc-p62/66 kDa, c-erbB-2-185kDa; EGF-R-150/170 kDa) on immunoblots. The monoclonal antibodies to c-erbB-2 and EGF-R immunostained subpopulations of tumour cells on sections of formalin-fixed, paraffin wax embedded human infiltrating and invasive ductal carcinomas of breast. Intense blood cell staining was observed with the EGF-R antibody. This staining was shown to be peptide blockable and may reveal a true localisation for the EGF-receptor protein, a closely-related (erbB) protein or a degradation product. The monoclonal antibody to a common peptide from the myc protein family was epitope scanned using a modification of the Geysen pin technique. Hexapeptide sequence Ala-Pro-Ser-Glu-Asp-Ile was found to be bound most strongly by the myc monoclonal antibody, and amino acids Pro2 and Glu4 were found to be essential for antibody binding. The use of synthetic peptides for the production of monoclonal antibodies with predetermined specificity, which may be precisely identified using the epitope scanning technique, is discussed.
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PMID:The production and characterisation of monoclonal antibodies to myc, c-erbB-2 and EFG-receptor using a synthetic peptide approach. 169 66

The protein kinase associated with the purified epidermal growth factor (EGF) receptor from membrane (Mr = 150,000) or vesicle (Mr = 170,000) preparations of A-431 cells was shown to catalyze the phosphorylation of the peptide Leu-Glu-Asp-Ala-Glu-Tyr-Ala-Ala-Arg-Arg-Arg-Gly at the tyrosine residue. EGF enhanced peptide phosphorylation by 3-5-fold. The steady state kinetic analysis of the purified kinase from membranes showed that the reaction mechanism was of the sequential type in either the presence of absence of EGF. Thus, the peptide and ATP must bind to the enzyme before any product is released. Both neurotensin 8-13 and kyotorphin were inhibitors but not substrates of the protein kinase. Kyotorphin was a linear noncompetitive inhibitor with ATP as the variable substrate and a linear competitive inhibitor with peptide as the variable substrate. ADP, a product of the kinase reaction, was a linear noncompetitive inhibitor with respect to ATP and a linear competitive inhibitor with respect to peptide. Based on these data, it can be suggested that the tyrosine protein kinase from A-431 cells catalyzes a Ordered Bi Bi reaction where peptide is the first substrate to bind and ADP is the last product to be released.
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PMID:The kinetics of tyrosine phosphorylation by the purified epidermal growth factor receptor kinase of A-431 cells. 610 Dec 63

The mechanism through which insulin binding to the extracellular domain of the insulin receptor activates the intrinsic tyrosine kinase in the intracellular domain of the protein is unknown. For the c-neu/erbB-2 (c-erbB-2) protooncogene, a single point mutation within the transmembrane (TM) domain converting Val-664 to Glu (erbB-2V-->E) results in elevated levels of tyrosine kinase activity and cellular transformation. We report the construction of a chimeric insulin receptor in which the TM domain of the receptor has been substituted with that encoded by erbB-2V-->E. When expressed in Chinese hamster ovary cells this chimeric receptor displays maximal levels of autophosphorylation and kinase activity in the absence of insulin. This activity results in an increase in the level of insulin-receptor substrate 1 phosphorylation but a down-regulation in insulin-receptor substrate 1 protein and desensitization to insulin stimulation of glycogen synthesis. By contrast, basal levels of DNA synthesis are elevated to levels approximately 60% of those observed in serum-stimulated cells. Over-expression of chimeric insulin receptors containing the c-erbB-2 TM domain or a single point mutation in the insulin receptor TM domain of Val-938-->Asp, on the other hand, shows none of these alterations. Thus, the TM domain encoded by erbB-2V-->E contains structural features that can confer ligand-independent activation in a heterologous protein. Constitutive activation of the insulin receptor results in a relative increase in basal levels of DNA synthesis, but an apparent resistance to the metabolic effects of insulin.
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PMID:Substitution of the erbB-2 oncoprotein transmembrane domain activates the insulin receptor and modulates the action of insulin and insulin-receptor substrate 1. 768 76

An expression cloning method which allows direct isolation of cDNAs encoding substrates for tyrosine kinases was applied to the study of the epidermal growth factor (EGF) receptor (EGFR) signaling pathway. A previously undescribed cDNA was isolated and designated eps15. The structural features of the predicted eps15 gene product allow its subdivision into three domains. Domain I contains signatures of a regulatory domain, including a candidate tyrosine phosphorylation site and EF-hand-type calcium-binding domains. Domain II presents the characteristic heptad repeats of coiled-coil rod-like proteins, and domain III displays a repeated aspartic acid-proline-phenylalanine motif similar to a consensus sequence of several methylases. Antibodies specific for the eps15 gene product recognize two proteins: a major species of 142 kDa and a minor component of 155 kDa, both of which are phosphorylated on tyrosine following EGFR activation by EGF in vivo. EGFR is also able to directly phosphorylate the eps15 product in vitro. In addition, phosphorylation of the eps15 gene product in vivo is relatively receptor specific, since the erbB-2 kinase phosphorylates it very inefficiently. Finally, overexpression of eps15 is sufficient to transform NIH 3T3 cells, thus suggesting that the eps15 gene product is involved in the regulation of mitogenic signals.
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PMID:eps15, a novel tyrosine kinase substrate, exhibits transforming activity. 768 53

The identification of substrates of protein tyrosine phosphatases (PTPs) is an essential step toward a complete understanding of the physiological function of members of this enzyme family. PTPs are defined by a conserved catalytic domain harboring 27 invariant residues. From a mutagenesis study of these invariant residues that was guided by our knowledge of the crystal structure of PTP1B, we have discovered a mutation of the invariant catalytic acid (Asp-181 in PTP1B) that converts an extremely active enzyme into a "substrate trap." Expression of this D181A mutant of PTP1B in COS and 293 cells results in an enzyme that competes with endogenous PTP1B for substrates and promotes the accumulation of phosphotyrosine primarily on the epidermal growth factor (EGF) receptor as well as on proteins of 120, 80, and 70 kDa. The association between the D181A mutant of PTP1B and these substrates was sufficiently stable to allow isolation of the complex by immunoprecipitation. As predicted for an interaction between the substrate-binding site of PTP1B and its substrates, the complex is disrupted by vanadate and, for the EGF receptor, the interaction absolutely requires receptor autophosphorylation. Furthermore, from immunofluorescence studies, the D181A mutant of PTP1B appeared to retain the endogenous EGF receptor in an intracellular complex. These results suggest that the EGF receptor is a bona fide substrate for PTP1B in vivo and that one important function of PTP1B is to prevent the inappropriate, ligand-independent, activation of newly synthesized EGF receptor in the endoplasmic reticulum. This essential catalytic aspartate residue is present in all PTPs and has structurally equivalent counterparts in the dual-specificity phosphatases and the low molecular weight PTPs. Therefore we anticipate that this method may be widely applicable to facilitate the identification of substrates of other members of this enzyme family.
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PMID:Development of "substrate-trapping" mutants to identify physiological substrates of protein tyrosine phosphatases. 905 Aug 38

The hypothesis of structural alteration in transmembrane helices for signal transduction process is viewed by molecular dynamics simulation techniques. For the c-erbB-2 transmembrane domain involved in oncogenicity, the occurrence of conformational changes has been previously described as transition from the alpha to pi helix. This dynamical feature is thoroughly analyzed for the wild phenotype and oncogenic sequences from a series of 18 simulations carried out on one nanosecond time scale. We show that these structural events do not depend upon the conditions of simulations like force field or starting helix coordinates. We demonstrate that the oncogenic mutations Val659 Glu, Gln and Asp do not prevent the transition. Furthermore, we show that beta branched residues, in conjunction with Gly residues in the c-erbB-2 sequence, act as destabilizers for the alpha helix structure, pi deformations are tightly related to other local structural motifs found in soluble and membrane proteins. These structural alterations are discussed in term of structure-activity relationships for the c-erbB-2 activating mechanism mediated by transmembrane domain dimerization.
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PMID:Insight into signal transduction: structural alterations in transmembrane helices probed by multi-1 ns molecular dynamics simulations. 944 2

We reported previously that a conformation-specific antibody, Ab P2, to a 16-amino acid peptide (Glu-Gly-Tyr-Lys-Lys-Lys-Tyr-Gln-Gln-Val-Asp-Glu-Glu-Phe-Leu-Arg) of the cytoplasmic domain of the beta-type platelet-derived growth factor receptor also recognizes the epidermal growth factor (EGF) receptor. Although the antibody is not directed to phosphotyrosine, it recognizes in immunoprecipitation the activated and hence phosphorylated form of both receptors. In P2 peptide, there are two tripeptide sequences, Asp-Glu-Glu and Tyr-Gln-Gln, that are also present in the EGF receptor. Our present studies using either EGF receptor C-terminal deletion mutants or point mutations (Tyr-->Phe) and our previous studies on antibody inhibition by P2-derived peptides suggest that Gln-Gln in combination with Asp-Glu-Glu forms a high-affinity complex with Ab P2 and that such complex formation is dependent on tyrosine phosphorylation. Of the five phosphate acceptor sites in the EGF receptor, clustered in the extreme C-terminal tail, phosphorylation of three tyrosine residues (992, 1068, and 1086) located between Asp-Glu-Glu and Gln-Gln is necessary for Ab P2 binding. In contrast, the acceptor sites Tyr 1173 and 1148 play no role in the conformation change. Asp-Glu-Glu and Gln-Gln are located 169 amino acids apart, and it is highly likely that the interactions among three negatively charged phosphotyrosine residues in the receptor C terminus may result in the bending of the peptide chain in such a way that these two peptides come close to each other to form an antibody-binding site. Such a possibility is also supported by our finding that receptor dephosphorylation results in complete loss of Ab P2-binding activity. In conclusion, we have identified a domain within the cytoplasmic part of the EGF receptor whose conformation is altered by receptor phosphorylation; furthermore, we have identified the tyrosine residues that positively regulate this conformation.
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PMID:Phosphorylation of tyrosine 992, 1068, and 1086 is required for conformational change of the human epidermal growth factor receptor c-terminal tail. 1006 1

Female transgenic FVB mice transfected with the mammary erbB-2/neu oncogene were injected 0.1 ml 0.9% solution of sodium chloride (control), 1 meg Vilon peptide (Lys-Glu) or Epitalon peptide (Ala-Glu-Asp-Glu), s.c., 5 days in succession once a month, beginning from the age of 2 months. The characteristics of mammary tumor induction in the control and experimental groups did not differ until the age of 9 months. Later on, Epitalon-treated mice revealed distinct inhibition of carcinogenesis. One tumor per animal was detected in 7% (control), 4% (Vilon) and 16% (Epitalon) (p < 0.05). Two or more tumors per animal were in 75%, 95% and 56%, respectively (p < 0.05). Largest diameter of mammary adenocarcinoma in the Epitalon group was smaller than in controls by 33% (p < 0.05). Although the number of mice with metastases to the lung in all three groups was practically identical, their incidence in the Vilon group was 2.6 times higher than in Epitalon-treated animals (p < 0.05). Largest diameter of metastasis in the Epitalon group was the smallest, too. Our data point to inhibition of mammary carcinogenesis by Epitalon in transgenic erbB-2/neu mice.
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PMID:[Effect of Epitalon and Vilon treatment on mammary carcinogenesis in transgenic erbB-2/NEU mice]. 1210 68

Dimerization and phosphorylation of the epidermal growth factor (EGF) receptor (EGFR) are the initial and essential events of EGF-induced signal transduction. However, the mechanism by which EGFR ligands induce dimerization and phosphorylation is not fully understood. Here, we demonstrate that EGFRs can form dimers on the cell surface independent of ligand binding. However, a chimeric receptor, comprising the extracellular and transmembrane domains of EGFR and the cytoplasmic domain of the erythropoietin receptor (EpoR), did not form a dimer in the absence of ligands, suggesting that the cytoplasmic domain of EGFR is important for predimer formation. Analysis of deletion mutants of EGFR showed that the region between (835)Ala and (918)Asp of the EGFR cytoplasmic domain is required for EGFR predimer formation. In contrast to wild-type EGFR ligands, a mutant form of heparin-binding EGF-like growth factor (HB2) did not induce dimerization of the EGFR-EpoR chimeric receptor and therefore failed to activate the chimeric receptor. However, when the dimerization was induced by a monoclonal antibody to EGFR, HB2 could activate the chimeric receptor. These results indicate that EGFR can form a ligand-independent inactive dimer and that receptor dimerization and activation are mechanistically distinct and separable events.
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PMID:Ligand-independent dimer formation of epidermal growth factor receptor (EGFR) is a step separable from ligand-induced EGFR signaling. 1213 89


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