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)

Retinoids are compounds that can elicit specific biological responses by virtue of their binding to and activating a specific receptor or a set of receptors. Retinoids produce various specific biological effects, including induction of terminal differentiation, regulation of cell proliferation, regulation of gene expression and regulation of the activity of specific enzymes in cells. In this article, the effects of retinoids on gene expression are reviewed. Among these effects suppression of myc expression and induction of EGF-receptor mRNA expression are considered to be closely related to regulation of cell proliferation. The effects of retinoids on cell growth are discussed on the basis of these two actions: myc mRNA suppression and EGFR mRNA induction. The mode of retinoidal action seems to be similar to that of steroids, as many investigators suggest. The molecular mechanism of retinoidal action is considered to be the formation of a retinoid-receptor complex and its interaction with regulatory elements of DNA. The possibility of application of the methodology used in the investigation of steroidal action to the study of retinoidal action is also discussed.
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PMID:[Regulation of cell growth by retinoids and gene expression]. 302 78

In rat brain, distinct epidermal growth factor-receptor immunoreactivity (EGFR-IR) first appeared in astroglia at about day 16 postnatal, reached maximum intensity at 19 days and then became much weaker as the animals reached adulthood. EGFR-IR was also observed in cerebellar Purkinje cells as early as 11 days postnatal and was maintained into adulthood. In adult and aged animals the most prominent EGF receptor immunostaining occurred in cerebral cortex neurons (layers IV and V) that had the morphology of basket cells. Immunoreactive neurons were abundant in the cingulate, frontal, frontoparietal and striate cortices. In the frontoparietal cortex, EGFR positive neurons were most numerous in the motor area, diminishing laterally towards the somatosensory area. The localization and time of appearance of EGFR-IR did not appear consistent with a direct mitogenic role of the EGF domain in astroglia proliferation during development. However, the EGFR may be involved in neuronal survival and/or neuron-glia signalling.
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PMID:Epidermal growth factor receptor immunoreactivity in rat brain. Development and cellular localization. 334 47

The discovery of EGFR gene amplification in glioblastoma multiforme has prompted interest in experimental therapies to target the receptor on brain tumor cells. To develop an animal model for in vivo study of such strategies, we transfected C6 glioma cells with a plasmid containing the neomycin resistance gene and the human EGFR gene under the control of the glucocorticoid-inducible MMTV promoter. Following selection with G418, individual clones that expressed EGFR at high levels were selected. Kinetics of EGF binding fit a dual site model indicating the presence of both high (KA = 2.5 x 10(9) M-1) and low (KA = 3.3 x 10(7) M-1) affinity receptors. To assess growth in vivo, graded numbers of either wild-type or transfected cells were implanted into the brains of CD Fischer 344 rats. No differences in survival were observed between groups of animals injected with either wild-type or transfected cells at inocula of 10(3) or 10(4) respectively. In addition, one-third of animals (7/21) challenged with 10(5) or 10(6) transfected cells survived > 50 days compared to 0% of animals (0/12) challenged with 10(5) or 10(6) wild-type cells. Such an effect suggests greater immunogenicity of transfected cells, but only at the larger inocula. Since C6 glioma cells will grow in both outbred and inbred strains, our model should have a number of applications including the in vivo study of EGFR targeting for glioma therapy.
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PMID:The effect of epidermal growth factor receptor (EGFR) expression on in vivo growth of rat C6 glioma cells. 747

Ligand dependent activation of receptor tyrosine kinases is mediated by an allosteric dimerization process that is responsible for the stimulation of protein tyrosine kinase activity and receptor autophosphorylation. In order to gain further insight into the processes which control this process, we have generated EGF receptor mutants that contain inserts of 20-40 amino acids in their juxtamembrane regions, on each side of the receptor's single transmembrane domain. An EGF receptor mutant with an insertion on the cytoplasmic side of the transmembrane domain exhibited typical EGF binding characteristics, ligand-dependent tyrosine autophosphorylation, as well as ligand-induced DNA synthesis. However, an EGF receptor mutant with an insertion on both sides of the transmembrane domain was found to be constitutively activated. This mutant also exhibited dramatically reduced EGF binding, but dimerized and had enhanced tyrosine kinase activity even in the absence of ligand. Moreover, NIH3T3 cells expressing this mutant receptor formed colonies in soft agar in the absence of EGF. This represents a novel example of a constitutively activated receptor, and provides further support for receptor dimerization as a mechanism for activation of EGFR and other receptor tyrosine kinases.
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PMID:Activation of the EGF receptor by insertional mutations in its juxtamembrane regions. 747 77

The importance of PLC activation in cell proliferation is evident from the fact that the hydrolysis of PtdIns(4,5)P2 is one of the early events that follow the interaction of many growth factors and mitogens with their respective receptors. However, the importance of PLC activation is not restricted to proliferation; it is one of the most common transmembrane signaling events elicited by receptors that regulate many other cellular processes, including differentiation, metabolism, secretion, contraction, and sensory perception. It is also clear that cell proliferation signaling does not always require PLC, as indicated by the fact that growth factors such as insulin and CSF-1 do not appear to elicit the hydrolysis of PtdIns(4,5)P2, even though the intracellular domains of their receptors carry a PTK domain and the receptors show topologies very similar to those of the PLC-activating growth factors PDGF, EGF, and FGF. The growth factor-dependent activation of PLC is initiated by the formation of a complex between the receptor PTK and PLC-gamma; the formation of this complex is mediated by a specific interaction between a tyrosine phosphate residue on the intracellular domain of PTK and the SH2 domain of PLC-gamma. The receptor PTK subsequently phosphorylates PLC-gamma, of which two distinct isozymes, PLC-gamma 1 and PLC-gamma 2, have been identified. Proliferation of T cells and B cells in response to the aggregation of their respective cell surface receptors is also accompanied by the activation of PLC-gamma isozymes at an early stage. Unlike growth factor receptors, the T cell and B cell receptors lack intrinsic PTK activity but associate with several non-receptor PTKs of the Src and Syk families. Although the specific kinases are not known, one or more of these enzymes phosphorylate and activate PLC-gamma 1 and PLC-gamma 2. Transduction of growth signals by G protein-coupled receptors such as those for thrombin or bombesin also requires PtdIns(4,5)P2 hydrolysis, which, in this instance, is mediated by PLC-beta isozymes. The PLC-beta subfamily consists of four distinct members: PLC-beta 1, PLC-beta 2, PLC-beta 3, and PLC-beta 4. Agonist interaction with specific G protein-coupled receptors causes the dissociation of Gq proteins into G alpha and G beta gamma subunits and the exchange of GDP bound to G alpha for GTP. The resulting GTP-bound G alpha subunit then activates PLC-beta isoforms by binding to the carboxyl-terminal region of the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphoinositide-specific phospholipase C and mitogenic signaling. 749 69

We have shown that members of the erbB family undergo homodimer and heterodimer formation. The rat p185c-neu and the epidermal growth factor receptor (EGFR) can associate into an active heterodimeric tyrosine kinase. Overexpression of these two receptors also results in a transformed phenotype. We now show that mutant Neu proteins resulting from a point mutation at the ATP-binding site (N757) or cytoplasmic domain deletions (N691stop) are still able to undergo EGF-induced heterodimerization with EGFR. Analysis of heterodimer formation between EGFR and truncated Neu proteins revealed that heterodimerization is preferred over homodimerization of EGFR. N757 can be transphosphorylated by associated EGFR upon EGF stimulation. However, the heterodimer composed of EGFR and N691stop is kinase inactive. These results provided evidence that the Neu ectodomain is sufficient to associate with EGFR physically, and the cytoplasmic domain interaction is required for heterodimeric kinase activation, indicating that Neu/c-erbB2 is not just a simple substrate for EGFR but a transactivator as well.
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PMID:Heterodimerization of epidermal growth factor receptor and wild-type or kinase-deficient Neu: a mechanism of interreceptor kinase activation and transphosphorylation. 750 75

The prostatic growth factors require a membrane specific receptor to which they must bind in order to carry out their biological activities correctly. The aim of this study was to isolate and quantify the epidermal growth factor receptor in prostatic tissue and indirectly determine the growth factors acting on it (EGF, TGF alpha, PDGF, NGF, IGF). From September, 1992 to June, 1993, we studied 55 patients. These were divided into two groups: the first group comprised 49 patients with benign prostatic hyperplasia (BPH) and 6 patients with prostatic carcinoma comprised the second group. Samples of the prostate were obtained following suprapubic (12 cases), TUR (38 cases), radical prostatectomy (1 case) and transrectal biopsy (4 cases). The EGFR was determined by radioimmunoassay (EGFR-RIA, Vienna Lab, Labordiagnostica GmbH). For the overall group of patients, we obtained mean EGFR values of 6.36 +/- 0.59 fmol/mg of protein and a positivity of 96.36% and 100% for BPH and malignant proliferative processes, respectively. The foregoing data show that EGFR was isolated from the tissue we analyzed and has an evident role in the regulation of prostate growth.
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PMID:[Involvement of epidermal growth factor receptor (EGFR) in the etiopathogenesis of prostatic proliferative processes]. 752 95

Loss of genetic material on chromosome 10 is regarded as a prominent feature in the genesis of glioblastomas. To use chromosome 10 deletions as diagnostic markers for glioblastomas we investigated, if the loss of chromosome 10 material could be restricted on the region 10q21-26. By PCR microsatellite analysis on frozen tissue and paraffin material from the ZULCH brain tumor collection we found (1) loss of heterozygosity in 10q21-26 in 75% of the investigated DNA from frozen tissue and (2) an interstitial loss in the region of the microsatellite marker D10S186. The combined immunohistochemical analysis of overexpression of EGFR, EGF and TGF alpha with LOH on chromosome 10 showed that chromosome 10 deletions are not exclusively bound to EGFR overexpression.
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PMID:[Alleles in chromosome 10p21-26 in malignant gliomas]. 753 11

Transgenic mice expressing either the activated or wild type neu oncogene heritably develop metastatic mammary tumors. Tumor development in this transgenic mouse model correlates with activation of the Neu tyrosine kinase. Recently, we have shown that these Neu-induced mammary tumors possess elevated c-Src tyrosine kinase activity. Here, we demonstrate that c-Src requires tyrosine phosphorylated Neu for its ability to associate with Neu in vivo and this association is likely the result of a direct physical binding of c-Src SH2 domain to the tyrosine phosphorylated Neu. By contrast, the c-Src SH2 domain did not interact directly with tyrosine phosphorylated EGFR. Moreover, in established cell lines expressing elevated levels of EGFR, EGF stimulation results in transphosphorylation of Neu and formation of complexes between c-Src and tyrosine phosphorylated Neu. Taken together, these observations suggest that activation of c-Src by these two closely related EGFR family members results from a direct and specific interaction of c-Src with tyrosine phosphorylated Neu.
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PMID:Direct and specific interaction of c-Src with Neu is involved in signaling by the epidermal growth factor receptor. 754 62

Laminin, murine epidermal growth factor (mEGF), and the synthetic laminin peptide Lam.B1(925-933) (a linear peptide from the B1 chain of murine laminin, CDPGY1GSR-amide) all stimulate endothelial cell motility above basal rates, whereas a synthetic mEGF fragment, mEGF33-42 (a linear peptide from the C-loop of mEGF, acetyl-C-[S-Acm]-VIGYSGDR-C-[S-Acm]-amide), inhibits motility. In both human SK HEP-1 and embryonic chick endothelial cells, mEGF33-42 blocks both EGF- and laminin-stimulated locomotion of endothelial cells. In vivo, mEGF33-42 also blocks both laminin- and mEGF-induced angiogenesis in the chick. In the human cell line. Lam.B1(925-933) has an additive effect in coincubation with either laminin or mEGF, but it blocks their effects in the chick cells. Lam.B1(925-933) alone stimulates angiogenesis in the chick but blocks laminin-induced angiogenesis. Thus, mEGF33-42 acts as a general laminin antagonist, whereas Lam.B1(925-933) acts as a laminin agonist in human cells, but in chick cells it acts as a partial antagonist. We propose that the presence of an anionic group at the eighth residue of mEGF33-42 may be the source of the antagonistic effects seen with this peptide as compared with the laminin fragment. These findings have important implications in the design of human antiangiogenic agents, and also in the use of chick models in the study of human disease.
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PMID:Murine epidermal growth factor (EGF) fragment (33-42) inhibits both EGF- and laminin-dependent endothelial cell motility and angiogenesis. 754 18

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