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 family of Neu differentiation factors (NDFs, or heregulins) includes a dozen secreted glycoproteins, whose receptor binding domain displays two variants, alpha and beta, and they bind to two receptor tyrosine kinases, ErbB-3 and ErbB-4. Certain isoforms were reported to induce growth-arrest and differentiation of mammary tumor cells, while other breast cancer cell lines responded mitogenically. The present study addressed the biologic effects of various NDF isoforms on normal EGF-dependent epithelial cells, Balb/MK keratinocytes, that can undergo either proliferation or differentiation. We found that beta isoforms of NDF induced a mitogenic effect, that was significantly smaller than the maximal response to EGF. By contrast with NDF-beta, NDF-alpha isoforms exerted almost no mitogenic effect, but they were sufficient to maintain keratinocytes in culture. Consistent with their higher mitogenic potency, NDF-beta isoforms bound to Balb/MK cells with higher affinity (Kd = 2.2 nM) than alpha isoforms, however both groups shared their receptor, that we identified as ErbB-3. No transcript of ErbB-4 was detectable in the keratinocytes, but these cells express multiple NDF mRNAs and also ErbB-2. We conclude that different isoforms of NDF induce distinct growth regulatory effects on cultured keratinocytes, through direct interaction with ErbB-3.
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PMID:ErbB-3 mediates differential mitogenic effects of NDF/heregulin isoforms on mouse keratinocytes. 773 91

Overexpression of the erbB-2 gene contributes to aggressive behavior of various human adenocarcinomas, including breast cancer, through an unknown molecular mechanism. The erbB-2-encoded protein is a member of the ErbB family of growth factor receptors, but no direct ligand of ErbB-2 has been reported. We show that in various cells ErbB-2 can form heterodimers with both EGF receptor (ErbB-1) and NDF receptors (ErbB-3 and ErbB-4), suggesting that it may affect the action of heterologous ligands without the involvement of a direct ErbB-2 ligand. This possibility was addressed in breast cancer cells through either overexpression of ErbB-2 or by blocking its delivery to the cell surface by means of an endoplasmic reticulum-trapped antibody. We report that ErbB-2 overexpression enhanced binding affinities to both EGF and NDF, through deceleration of ligand dissociation rates. Likewise, removal of ErbB-2 from the cell surface almost completely abolished ligand binding by accelerating dissociation of both growth factors. The kinetic effects resulted in enhancement and prolongation of the stimulation of two major cytoplasmic signaling pathways, namely: MAP kinase (ERK) and c-Jun kinase (SAPK), by either ligand. Our results imply that ErbB-2 is a pan-ErbB subunit of the high affinity heterodimeric receptors for NDF and EGF. Therefore, the oncogenic action of ErbB-2 in human cancers may be due to its ability to potentiate in trans growth factor signaling.
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PMID:ErbB-2 is a common auxiliary subunit of NDF and EGF receptors: implications for breast cancer. 861 1

Four transmembrane tyrosine kinases constitute the ErbB receptor family: the epidermal growth factor (EGF) receptor, ErbB-2, ErbB-3, and ErbB-4. We have measured the endocytic capacities of all four members of the EGF receptor family, including ErbB-3 and ErbB-4, which have not been described previously. EGF-responsive chimeric receptors containing the EGF receptor extracellular domain and different ErbB cytoplasmic domains (EGFR/ErbB) have been employed. The capacity of these growth factor-receptor complexes to mediate 125I-EGF internalization, receptor down-regulation, receptor degradation, and receptor co-immunoprecipitation with AP-2 was assayed. In contrast to the EGF receptor, all EGFR/ErbB receptors show impaired ligand-induced rapid internalization, down-regulation, degradation, and AP-2 association. Also, we have analyzed the heregulin-responsive wild-type ErbB-4 receptor, which does not mediate the rapid internalization of 125I-heregulin, demonstrates no heregulin-regulated receptor degradation, and fails to form association complexes with AP-2. Despite the substantial differences in ligand-induced receptor trafficking between the EGF and ErbB-4 receptors, EGF and heregulin have equivalent capacities to stimulate DNA synthesis in quiescent cells. These results show that the ligand-dependent down-regulation mechanism of the EGF receptor, surprisingly, is not a property of any other known ErbB receptor family member. Since endocytosis is thought to be an attenuation mechanism for growth factor-receptor complexes, these data imply that substantial differences in attenuation mechanisms exist within one family of structurally related receptors.
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PMID:All ErbB receptors other than the epidermal growth factor receptor are endocytosis impaired. 861 10

The ErbB family includes two receptors, ErbB-1 and ErbB-3, that respectively bind to epidermal growth factor and Neu differentiation factor, and an orphan receptor, ErbB-2. Unlike ErbB-1 and ErbB-2, the intrinsic tyrosine kinase of ErbB-3 is catalytically impaired. By using interleukin-3-dependent cells that ectopically express the three ErbB proteins or their combinations, we found that ErbB-3 is devoid of any biological activity but both ErbB-1 and ErbB-2 can reconstitute its extremely potent mitogenic activity. Transactivation of ErbB-3 correlates with heterodimer formation and is reflected in receptor phosphorylation and the transregulation of ligand affinity. Inter-receptor interactions enable graded proliferative and survival signals: heterodimers are more potent than homodimers, and ErbB-3-containing complexes, especially the ErbB-2/ErbB-3 heterodimer, are more active than ErbB-1 complexes. Nevertheless, ErbB-1 signaling displays dominance over ErbB-3 when the two receptors are coexpressed. Although all receptor combinations activate the mitogen-activated protein kinases ERK and c-Jun kinase, they differ in their rate of endocytosis and in coupling to intervening signaling proteins. It is conceivable that combinatorial receptor interactions diversify signal transduction and confer double regulation, in cis and in trans, of the superior mitogenic activity of the kinase-defective ErbB-3.
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PMID:Diversification of Neu differentiation factor and epidermal growth factor signaling by combinatorial receptor interactions. 866 53

The ErbB family includes four homologous transmembrane tyrosine kinases. Whereas ErbB-1 binds to the epidermal growth factor (EGF), both ErbB-3 and ErbB-4 bind to the Neu differentiation factors (NDFs, or neuregulins), and ErbB-2, the most oncogenic family member, is an orphan receptor whose function is still unknown. Because previous lines of evidence indicated the existence of interreceptor interactions, we used ectopic expression of individual ErbB proteins and their combinations to analyze the details of receptor cross talks. We show that 8 of 10 possible homo-and heterodimeric complexes of ErbB proteins can be hierarchically induced by ligand binding. Although ErbB-2 binds neither ligand, even in a heterodimeric receptor complex, it is the preferred heterodimer partner of the three other members, and it favors interaction with ErbB-3. Selective receptor overexpression in human tumor cells appears to bias the hierarchical relationships. The ordered network is reflected in receptor transphosphorylation, ErbB-2-mediated enhancement of ligand affinities, and remarkable potentiation of mitogenesis by a coexpressed ErbB-2. The observed superior ability of ErbB-2 to form heterodimers, in conjunction with its uniquely high basal tyrosine kinase activity, may explain why ErbB-2 overexpression is associated with poor prognosis.
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PMID:A hierarchical network of interreceptor interactions determines signal transduction by Neu differentiation factor/neuregulin and epidermal growth factor. 881 40

Signaling by epidermal growth factor (EGF)-like ligands is mediated by an interactive network of four ErbB receptor tyrosine kinases, whose mechanism of ligand-induced dimerization is unknown. We contrasted two existing models: a conformation-driven activation of a receptor-intrinsic dimerization site and a ligand bivalence model. Analysis of a Neu differentiation factor (NDF)-induced heterodimer between ErbB-3 and ErbB-2 favors a bivalence model; the ligand simultaneously binds both ErbB-3 and ErbB-2, but, due to low-affinity of the second binding event, ligand bivalence drives dimerization only when the receptors are membrane anchored. Results obtained with a chimera and isoforms of NDF/neuregulin predict that each terminus of the ligand molecule contains a distinct binding site. The C-terminal low-affinity site has broad specificity, but it prefers interaction with ErbB-2, an oncogenic protein acting as a promiscuous low-affinity subunit of the three primary receptors. Thus, ligand bivalence enables signal diversification through selective recruitment of homo- and heterodimers of ErbB receptors, and it may explain oncogenicity of erbB-2/HER2.
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PMID:Bivalence of EGF-like ligands drives the ErbB signaling network. 930 36

Two receptor tyrosine kinases, ErB-3 and ErbB-4, mediate signaling by Neu differentiation factors (NDFs, also called neuregulins), while ErbB-1 and ErbB-2 serve as co-receptors. We show that the two NDF/neuregulin receptors differ in spatial and temporal expression patterns: The kinase-defective receptor, ErbB-3, is expressed primarily in epithelial layers of various organs, in the peripheral nervous system, and in adult brain, whereas ErbB-4 is restricted to the developing central nervous system and to the embryonic heart. An example of alternating expression of the two receptors is provided by the developing cerebellum: During postnatal cerebellar development, ErbB-4 expression slightly decreases along with a decline in NDF transcription, whereas ErbB-3 expression commences after the peak of neurogenesis. To study functional differences, we established primary brain cultures and found that ErbB-3 was expressed only in oligodendrocytes, whereas ErbB-4 expression was shared by oligodendrocytes, astrocytes and neurons. Blocking the action of endogenous NDF in vitro, by using a soluble form of ErbB-4, accelerated neurite outgrowth in both primary cultures and in neuronal-type cultures of the P19 teratocarcinoma, suggesting an inhibitory effect of NDF on neural differentiation. Apparently, ErbB-3 is associated with proliferation of P19 cells, whereas ErbB-4 correlates with a differentiated phenotype. We conclude that the two NDF receptors play distinct, rather than redundant, developmental and physiological roles.
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PMID:Differential expression of NDF/neuregulin receptors ErbB-3 and ErbB-4 and involvement in inhibition of neuronal differentiation. 941 71

The ErbB-1 receptor tyrosine kinase binds to six different growth factors, whose prototype is the epidermal growth factor (EGF). Two homologous epithelial receptors, ErbB-3 and ErbB-4, bind all isoforms of another family of growth factors, the Neu differentiation factors (NDFs/neuregulins). The fourth member of the ErbB family, ErbB-2, acts as the preferred heterodimeric partner of ligand-occupied complexes of the three other ErbB proteins. Here we report that at high concentrations, EGF can induce cell growth and differentiation in the absence of ErbB-1. This function is shared by betacellulin, but not by three other ligands, including the transforming growth factor alpha (TGFalpha). The functional receptor was identified as a heterodimer between ErbB-3 and ErbB-2, a previously identified oncogenic complex. When singly expressed, neither ErbB-3 nor ErbB-2 can mediate signaling by EGF. In addition, when co-expressed, blocking either receptor by using site-specific antibodies inhibited EGF and betacellulin activities, indicating strict cooperativity between ErbB-3 and ErbB-2. Through analysis of chimeras between EGF and TGFalpha, we identified the middle portion of EGF (loop B) as the site that enables activation of ErbB-2/ErbB-3. In conclusion, cooperative and promiscuous binding of stroma-derived growth factors by the epithelium-expressed ErbB-2/ErbB-3 heterodimer may be significant to cancer development. The mechanistic implications of our results for a model that attributes receptor dimerization to ligand bivalency, as well as to a recently proposed mechanism of secondary dimerization, are discussed.
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PMID:The oncogenic ErbB-2/ErbB-3 heterodimer is a surrogate receptor of the epidermal growth factor and betacellulin. 954 26

Growth factor receptors provide unique opportunities for development of targeted anticancer therapy. Members of the type I receptor tyrosine kinase family, including epidermal growth factor (EGF) receptor (EGFR) and ErbB-2/neu, are often overexpressed in various human cancer cells, including breast. Recently, it has been shown that both ErbB-3 and ErbB-4 are receptors for heregulin (HRG)/Neu differentiation factor. Eight chimeric toxins composed of the extracellular and EGF-like domains of four different HRG isoforms and truncated Pseudomonas exotoxin (PE38KDEL) were constructed. The fusion proteins exhibited activity similar to the native HRG in inducing ErbB receptors phosphorylation. The EGF-like domain of HRG13 and HRGbeta2 fused to PE38KDEL showed the highest cytotoxic activity, with a IC50 of < or = 0.001 ng/ml. The alpha isoforms that were fused to PE38KDEL were 100-fold less active than the beta isoforms. The HRG-Pseudomonas exotoxin (PE) toxins show extremely high activity against cells expressing ErbB-4 receptor, alone or together with other members of the ErbB receptor family. Cells that do not express ErbB-4 but express ErbB-3 receptor, together with the ErbB-2 or EGFR, exhibited moderate sensitivity to HRG-PE toxins. HRG-PE toxins have little or no activity against cells expressing EGFR, ErbB-2, or ErbB-3 alone. More than an 80% tumor regression was achieved by intratumor injection of 1 microg of fusion proteins per day for 5 days. Continuous i.p. administration of EGF-like domain of HRGbeta1-PE38KDEL for 7 days via a miniosmotic pump at a dose of 40 microg/kg/day inhibited the growth of ErbB-4 receptor positive but not ErbB-4 receptor negative cell lines in athymic nude mice. We conclude that there is therapeutic potential of HRG-PE toxins in the therapy of cancers overexpressing the ErbB-4 or ErbB-2 plus ErbB-3 receptors.
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PMID:Recombinant heregulin-Pseudomonas exotoxin fusion proteins: interactions with the heregulin receptors and antitumor activity in vivo. 956 95

ErbB-3 is a member of the epidermal growth factor receptor (EGFR/ErbB) family. In addition to the previously reported 6.2 kb full-length and 1.4 kb truncated c-erbB3 transcripts, we have observed a 1.7 kb c-erbB3 human transcript in Northern blots that specifically hybridizes to a probe of the extracellular domain of the receptor. Using 3'-RACE we have isolated four novel c-erbB3 cDNA clones of 1.6, 1.7, 2.1 and 2.3 kb from a human ovarian carcinoma-derived cell line. All four alternate transcripts are synthesized by readthrough of an intron and use of an alternative polyadenylation signal within this intron. Identical c-erbB3 transcripts are expressed in normal human placental tissues. Expression of these alternate transcripts is tissue-specific as indicated by Northern blot and RNase protection analyses. Fibroblasts transfected with expression vectors carrying these alternate c-erbB3 cDNA clones stably express truncated ErbB-3 products. Three of these four cDNA clones express a receptor product that is secreted. Immunoprecipitation analysis of primary cultures of human ovarian carcinomas also demonstrate the expression of a 90 kDa ErbB-3 related protein that is secreted. Furthermore, we demonstrate conservation of the exon-intron junctions between members of the erbB gene family in those regions of the gene encoding the extracellular domain. This gene structure is also conserved in the c-erbB1 homologues of Drosophila and C. elegans. Growth regulatory roles for related truncated ErbB products recently have been reported. It is, therefore, possible that the products of these four alternate c-erbB3 transcripts may also play important growth regulatory roles in normal and transformed cells.
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PMID:Isolation and characterization of four alternate c-erbB3 transcripts expressed in ovarian carcinoma-derived cell lines and normal human tissues. 968 22

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