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Query: UNIPROT:P04626 (
erbB-2
)
5,251
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
epidermal growth factor (EGF) receptor
is a plasma membrane glycoprotein. It contains four distinct segments: an N-terminal EGF binding domain which is exposed at the cell surface; a short transmembrane segment; a cytoplasmic domain with protein-tyrosine kinase activity; and a C-terminal regulatory segment. Binding of EGF to the external domain of the receptor activates the protein-tyrosine kinase activity of the receptor, and this elevated kinase activity is presumed to be involved in the activation of cell growth. The v-erbB transforming gene of avian erythroblastosis virus is derived, by retroviral transduction, from the gene (c-erbB) which encodes the avian EGF receptor. The transforming capacity of v-erbB appears to result from truncation of the receptor. In
erythroid
cells, truncation of the N-terminal ligand binding domain is sufficient for transformation, whereas in fibroblasts removal of an additional C-terminal segment is required for transformation. The EGF receptor is subject to complex regulatory controls, including ligand activation, downregulation by internalization, autophosphorylation and autoregulation and transmodulation involving phosphorylation by kinase C. This review is centered around the hypothesis that the transforming capacity of the truncated v-erbB gene product results from a loss in sensitivity to regulators and the consequent activation of protein kinase activity.
...
PMID:The erbB gene and the EGF receptor. 287 33
The expression of transforming growth factor-alpha (TGF-alpha) in human differentiating leukemic cell lines and in circulating human eosinophils prompted the search for an analogous function in normal human bone marrow (BM) cells. Immunohistochemistry, using a monoclonal antibody directed to the mature form of the TGF-alpha molecule, showed TGF-alpha on the erythroblasts of normal donors. This novel property of
erythroid
cells was found on cells at all stages of maturation, most clearly on nucleated forms but to some extent also on erythrocytes within the BM. The presence of membrane-bound TGF-alpha on erythroblasts was confirmed by immunomagnetic cell sorting with polyclonal TGF-alpha antibodies; the recovered cells consisted almost entirely of erythroblasts. Using another monoclonal antibody directed to TGF-alpha, immunohistochemistry showed a different pattern of positive cells including eosinophilic precursor cells, in accordance with earlier findings in blood eosinophils. In addition, the TGF-alpha immunoreactivity was shown in promyelocytes and neutrophilic myelocytes. The presence of
epidermal growth factor (EGF) receptor
mRNA in BM cells was demonstrated by reverse transcription polymerase chain reaction, whereas EGF receptor-carrying cells were recognized by immunohistochemistry, using polyclonal antibodies directed to the cytoplasmic part of the EGF receptor. The EGF receptor-positive cell constituted about 3% of the nucleated BM cell population. It was classified as a blastlike cell of myelomonocytic origin by morphologic criteria and CD68 positivity. Our results may indicate a novel function of TGF-alpha in erythrocytic differentiation.
...
PMID:Transforming growth factor-alpha (TGF-alpha) in human bone marrow: demonstration of TGF-alpha in erythroblasts and eosinophilic precursor cells and of epidermal growth factor receptors in blastlike cells of myelomonocytic origin. 772 72
In an increasing number of hematopoietic cytokine receptor systems (T-cell receptor, B-cell receptor, and macrophage colony-stimulating factor, stem cell factor, interleukin-3, and erythropoietin [EPO] receptors), inhibitory roles for the protein tyrosine phosphatase hematopoietic cell phosphatase (HCP; SHPTP1, PTP1C, and SHP1) have been defined in proliferative signaling. However, evidence exists to suggest that HCP also may exert important effects on blood cell differentiation. To investigate possible roles for HCP during late
erythroid
differentiation, effects of manipulating HCP expression or recruitment on EPO-induced hemoglobinization in erythroleukemic SKT6 cells have been investigated. No effects of EPO on levels of HCP, Syp, Stat5, the EPO receptor, or GATA-1 expression were observed during induced differentiation. However, the tyrosine phosphorylation of JAK2, the EPO receptor, and Stat5 was efficiently activated, and HCP was observed to associate constitutively with the EPO receptor in this differentiation-specific system. In studies of HCP function, inhibition of HCP expression by antisense oligonucleotides enhanced hemoglobinization, whereas the enforced ectopic expression of wild-type (wt) HCP markedly inhibited EPO-induced globin expression and Stat5 activation. Based on these findings,
epidermal growth factor (EGF) receptor
/EPO receptor chimeras containing either the wt EPO receptor cytoplasmic domain (EECA) or a derived HCP binding site mutant (EECA-Y429,431F) were expressed in SKT6 cells, and their abilities to mediate differentiation were assayed. Each chimera supported EGF-induced hemoglobinization, but efficiencies for EECA-Y429,431F were enhanced 400% to 500%. Thus, these studies show a novel role for HCP as a negative regulator of EPO-induced
erythroid
differentiation. In normal
erythroid
progenitor cells, HCP may act to prevent premature commitment to terminal differentiation. In erythroleukemic SKT6 cells, this action also may enforce mitogenesis.
...
PMID:Hematopoietic cell phosphatase negatively regulates erythropoietin-induced hemoglobinization in erythroleukemic SKT6 cells. 931 Apr 68
Erythrocyte production in mammals is known to depend on the exposure of committed progenitor cells to the glycoprotein hormone erythropoietin (Epo). In chimeric mice, gene disruption experiments have demonstrated a critical role for Epo signaling in development beyond the
erythroid
colony-forming unit (CFU-e) stage. However, whether this might include the possible Epo-specific induction of red blood cell differentiation events is largely unresolved. To address this issue, mechanisms of induced globin expression in Epo-responsive SKT6 cells have been investigated. Chimeric receptors containing an
epidermal growth factor (EGF) receptor
extracellular domain and varied Epo receptor cytoplasmic domains first were expressed stably at physiological levels in SKT6 cells, and their activities in mediating induced hemoglobinization were assayed. While activity was exerted by a full-length chimera (EE483), truncation to remove 7 of 8 carboxyl-terminal tyrosine sites (EE372) markedly enhanced differentiation signaling. Moreover, mutation of a STAT5 binding site in this construct (EE372-Y343F) inhibited induced globin expression and SKT6 cell hemoglobinization, as did the ectopic expression of dominant-negative forms of STAT5 in parental SKT6 cells. As in normal CFU-e, SKT6 cells also were shown to express functional receptors for stem cell factor (SCF). To further define possible specific requirements for differentiation signaling, effects of SCF on SKT6 cell hemoglobinization were tested. Interestingly, SCF not only failed to promote globin expression but inhibited this Epo-induced event in a dose-dependent, STAT5-independent fashion. Thus, effects of Epo on globin expression may depend specifically on STAT5-dependent events, and SCF normally may function to attenuate terminal differentiation while promoting CFU-e expansion.
...
PMID:Erythropoietin receptor and STAT5-specific pathways promote SKT6 cell hemoglobinization. 969 97
