Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Signals that can mediate ligand-induced receptor internalization and calcium regulation are present in a 48-amino acid "calcium-internalization" domain in the C' terminus of the epidermal growth factor (EGF) receptor. The basis of calcium and internalization regulation signalled by this 48-amino acid sequence was analyzed using deletion and substitution mutant receptors. Cells expressing truncated receptors containing either the NH2- or COOH-terminal portion of the 48-residue domain displayed high affinity EGF-dependent endocytosis and receptor down-regulation. These endocytosis-competent EGF receptor mutants that lacked any autophosphorylation site were unable to increase the concentration of intracellular calcium. To investigate the role of self-phosphorylation in EGF-induced calcium mobilization, phenylalanine was substituted for the single autophosphorylated tyrosine residue in this region of an internalization-competent truncated receptor. The receptor-mediated calcium response was abolished, while ligand-dependent receptor internalization was unimpaired. These results demonstrate that EGF-dependent receptor endocytosis and calcium mobilization are separate events. Tyrosine self-phosphorylation is required for increased [Ca2+]i, while structural features distinct from autophosphorylation are required for receptor internalization.
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PMID:Ligand-induced internalization and increased cell calcium are mediated via distinct structural elements in the carboxyl terminus of the epidermal growth factor receptor. 174 39

Activation of phospholipase C (PLC), leading to a rise in cytosolic Ca2+, and of phospholipase A2 (PLA2) leading to a release of arachidonic acid, are among the early transmembrane signalling events that have been demonstrated in response to occupancy of the epidermal growth factor (EGF) receptor. The tyrosine kinase activity of the receptor has been shown to be necessary for both of these responses. This requirement for the tyrosine kinase activity could conceivably implicate a role for receptor autophosphorylation in the activation of PLA2. We now demonstrate that coupling of the EGF receptor to PLA2 was not impaired in a deletion mutant (CD126) devoid of the 126 amino acids from the C-terminus which include four major autophosphorylation sites. Functional coupling of the EGF receptor to PLA2 was demonstrated using three different experimental designs: (1) release of [14C]arachidonic acid from prelabelled intact cells. (2) release of [3H]arachidonic acid from prelabelled cells permeabilized with glass beads, and (3) direct measurement of PLA2 enzymic activity in cell-free extracts using an 'in vitro' assay employing exogenous phospholipid substrate. Functional coupling of the EGF receptor to PLA2 occurred despite the absence of a demonstrable Ca(2+)-signalling response and the detection of diminished but persistent PLC-gamma phosphorylation on tyrosine residues in the CD126 deletion mutants. These results point to a clear distinction in the biochemical mechanism and role for receptor autophosphorylation in functional coupling of the EGF receptor to PLA2 activation versus Ca2+ signalling.
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PMID:Distinct structural specificities for functional coupling of the epidermal growth factor receptor to calcium-signalling versus phospholipase A2 responses. 190 21

We have used resonance energy transfer to monitor epidermal growth factor (EGF) receptor micro-aggregation at the surface of intact human epidermoid carcinoma (A431) cells. EGF molecules labeled with fluorescein isothiocyanate and eosin isothiocyanate were demonstrated to bind tightly to cellsurface receptors, to elicit immediate changes in cytosolic free [Ca2+], and to undergo endocytosis. Under conditions which maintain the integrity of the cell, we observed no energy transfer between the donor fluorescein isothiocyanate-labeled EGF molecules and the acceptor eosin isothiocyanate-labeled growth factors bound to receptors. However, after disruption of cells by Dounce homogenization, a significant degree of energy transfer was observed (approximately 10-20%) with membranes, indicative of receptor aggregation. These results suggest that EGF does not cause micro-aggregation of the majority of its receptors on the surface of intact A431 cells within the time period of the early events associated with growth factor action. Moreover, it appears that the A431 cells contain some component which imparts a constraint on the ability of EGF receptors to aggregate, and that some of this component is lost upon the disruption of cells.
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PMID:Comparison of epidermal growth factor (EGF) receptor-receptor interactions in intact A431 cells and isolated plasma membranes. Large scale receptor micro-aggregation is not detected during EGF-stimulated early events. 202 2

The epidermal growth factor (EGF) receptor, a tyrosine kinase which mediates the mitogenic and tumorigenic action of EGF on epithelial cells and fibroblasts, is a target for the regulatory action of other growth-modulating agents. We have identified at least three mechanisms by which heterologous agents such as tumor promoters regulate the EGF receptor: modulation of receptor binding or kinase activity through phosphorylation, down regulation of the receptor through internalization, and enhanced receptor synthesis through transcriptional activation. Both calcium- and sodium-dependent signaling pathways play a role in one or more of these processes.
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PMID:Regulation of the epidermal growth factor receptor by growth-modulating agents. 228 99

We have previously reported the isolation of a 35-kDa protein from A-431 cells that, in the presence of Ca2+, is an excellent in vitro substrate for the epidermal growth factor (EGF) receptor/kinase present in membrane preparations (Fava, R. A., and Cohen, S. (1984) J. Biol. Chem. 259, 2636-2645). In this communication we demonstrate that the phosphorylation of the 35-kDa protein is markedly enhanced in intact, 32P-labeled, A-431 cells following exposure of the cells to EGF. The 35-kDa protein immunoprecipitated from cells treated with EGF is phosphorylated to a 20-120-fold greater extent than comparable preparations from control cells. Both phosphotyrosine and phosphoserine residues are detected in the protein after treatment of the cells with EGF. EGF-dependent phosphorylation of the 35-kDa protein is barely detected unless the intact cells are exposed to EGF for periods greater than 5 min. We suggest that endosomes containing internalized EGF X receptor/kinase complexes are primarily responsible for the observed phosphorylation of the 35-kDa protein in intact cells.
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PMID:Epidermal growth factor stimulates the phosphorylation of the calcium-dependent 35,000-dalton substrate in intact A-431 cells. 240 81

Antisera were prepared against three synthetic peptides with amino acid sequences identical to those surrounding the three major autophosphorylation sites of the epidermal growth factor (EGF) receptor. The affinity-purified antibodies reacted strongly in an enzyme-linked immunosorbent assay against the immunizing peptide but showed little cross-reaction with the other two phosphorylation site peptides. EGF receptors labelled by autophosphorylation could be specifically precipitated by each of the phosphorylation site antibodies. The antibodies recognised EGF receptors labelled at each of the autophosphorylation sites, indicating that they could bind to the immunizing sequences irrespective of their states of phosphorylation. The antibodies were able to inhibit EGF receptor autophosphorylation without affecting EGF-stimulated tyrosine kinase activity towards exogenous peptide substrates, suggesting that the kinase and autophosphorylation sites were in distinct domains. Immunofluorescent staining of A431 cells showed that the autophosphorylation site sequences resided inside the cell. The autophosphorylation sites were shown to be within a domain of 20 000 mol. wt. which could be cleaved from the receptor through limited proteolysis by the calcium-dependent protease, calpain. The position of cleavage of the EGF receptor by the protease was mapped to lie between residues 996 and 1059. These results are discussed in the context of a model for the structure and function of the human EGF receptor.
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PMID:Antibodies to the autophosphorylation sites of the epidermal growth factor receptor protein-tyrosine kinase as probes of structure and function. 241 53

We have studied the relationship between differentiation capacity, plasma membrane composition, and epidermal growth factor (EGF) receptor expression of normal keratinocytes in vitro. The plasma membrane composition of the cells was modulated experimentally by cholesterol depletion, using specific inhibitors of cholesterol synthesis, such as 25-hydroxycholesterol and mevinolin. Exposure of the cells towards these inhibitors resulted in a drastic decrease of cholesterol biosynthesis, as determined from 14C-acetate incorporation into the various lipid fractions. This effect on cholesterol biosynthesis was reflected by changes in plasma membrane composition, as determined by lipid analysis of isolated plasma membrane fractions, these resulting in a decreased cholesterol-phospholipid ratio. The experimental modulation of plasma membrane composition by 25-hydroxycholesterol or mevinolin were accompanied by a decreased cornified envelope formation and by high expression of EGF binding sites. These phenomena were more pronounced in cells induced to differentiate by exposure of cells grown under low Ca2+ to normal Ca2+ concentrations, as compared to cells grown persistently under low Ca2+ concentrations. These results suggest a close correlation between plasma membrane composition, differentiation capacity, and EGF receptor expression.
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PMID:Differentiation of human keratinocytes: changes in lipid synthesis, plasma membrane lipid composition, and 125I-EGF binding upon administration of 25-hydroxycholesterol and mevinolin. 244 65

Calpactins I and II are related 39-kilodalton (kDa) proteins that interact with phospholipids and actin in a calcium-dependent manner and are substrates of tyrosine protein kinases. They contain a short amino-terminal tail attached to a 36-kDa core domain. Monoclonal antibodies (Mabs) were raised to bovine calpactin II and used as site-specific probes of its structure and function. All of the antibodies reacted with native calpactin II and gave rise to a single band of 39 kDa among total cell protein displayed on Western blots. Most of the antibodies (9/14) reacted with determinants on the tail as shown by Western blots and competition with a synthetic tail peptide. Four antibodies reacted with determinants on the core and a 10-kDa tryptic fragment. Antibody-calpactin II complexes were tested for their ability to interact with lipid, actin, and Ca2+ and to serve as substrates of the epidermal growth factor (EGF) receptor tyrosine protein kinase. Whereas none of the antibodies had a detectable effect on actin binding, two anticore antibodies reduced calpactin's affinity for phospholipid. Ca2+-binding sites are known to reside within the core region, yet most antitail antibodies markedly increased the affinity of calpactin II for Ca2+, with four Ca2+-binding sites observed. Antitail antibodies either (i) abolished or (ii) greatly stimulated (10-fold) the phosphorylation of calpactin II by the EGF receptor. These results suggest that the interactions between calpactin II and Ca2+, phospholipid, or the EGF receptor are more complex than previously thought and can be modulated by interactions occurring in the tail.
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PMID:Antibodies to the N-terminus of calpactin II (p35) affect Ca2+ binding and phosphorylation by the epidermal growth factor receptor in vitro. 245 34

Phosphorylation of the epidermal growth factor (EGF) receptor following activation of protein kinase C appears to negatively regulate EGF binding and the receptor-associated tyrosine kinase activity. We have identified two agents, the calcium ionophore A23187 and the non-phorbol tumor promoter thapsigargin, that similarly inhibit the EGF receptor binding and kinase activities through protein kinase C-independent pathways. Both agents activate protein kinases that phosphorylate the EGF receptor in A431 cells. To test the hypothesis that negative regulation of the EGF receptor always occurs through phosphorylation of threonine-654, a site uniquely phosphorylated by protein kinase C, we analyzed the tryptic phosphopeptides of EGF receptors isolated from cells treated with these agents. While limited phosphorylation of threonine-654 results from the A23187 treatment, no significant phosphorylation of this residue is detected after thapsigargin treatment. These results suggest that EGF receptor phosphorylation is a general mechanism for altering receptor properties and that site(s) of phosphorylation other than threonine-654 may negatively regulate the kinase activity as well as the binding of the EGF receptor.
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PMID:Phosphorylation at threonine-654 is not required for negative regulation of the epidermal growth factor receptor by non-phorbol tumor promoters. 249 63

The epidermal growth factor (EGF) receptor tyrosine kinase activity is required for both the earliest EGF-stimulated post-binding events (enhancement of inositol phosphate formation and Ca2+ influx, activation of Na+/H+ exchange), and the ultimate EGF-induced mitogenic response. To assess the role of EGF receptor kinase in EGF-induced metabolic effects (2-deoxyglucose and 2-aminoisobutyric acid uptake), we used NIH3T3 cells (clone 2.2), which do not possess endogenous EGF receptors and which were transfected with cDNA constructs encoding either wild type or kinase-deficient human EGF receptor (HER). In addition, we tested the importance of three HER autophosphorylation sites (Tyr-1068, Tyr-1148, and Tyr-1173) in transduction of EGF-stimulated 2-deoxyglucose uptake. Taking our data together, we conclude the following: (i) HER tyrosine kinase activity is required to elicit EGF stimulation of both 2-deoxyglucose and 2-aminoisobutyric acid uptake; (ii) mutations on individual HER autophosphorylation sites, Tyr-1068, Tyr-1148, and Tyr-1173 do not impair EGF-stimulated 2-deoxyglucose uptake.
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PMID:Metabolic effects induced by epidermal growth factor (EGF) in cells expressing EGF receptor mutants. 278 9


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