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 proto-oncogene c-MET encodes a transmembrane tyrosine kinase receptor for hepatocyte growth factor/scatter factor (HGF/SF). HGF/SF stimulates the proliferation and motility of various cell types. Because HGF/SF is also a melanocyte mitogen, we investigated the biological role of HGF/SF, including c-Met expression, activation and signal transduction, in normal and malignant human melanocytes. We show that HGF/SF is mitogenic in the presence of synergistic factors, such as basic fibroblast growth factor (bFGF) and mast cell growth factor (MGF) and that, by itself, it stimulates the motility of normal human melanocytes. The ligand also maintained high levels of tyrosinase activity and melanin content in theses cells. Signal transduction by HGF/SF included phosphorylation of tyrosyl residues on c-Met, a cascade of tyrosine phosphorylations on several other proteins and activation of microtubule-associated protein kinase/extracellular signal-regulated kinase. Met expression and activity are normal in human melanomas, and constitutive activity of HGF/SF in retrovirally infected autonomously proliferative mouse melanocytes is insufficient to confer the malignant phenotype. Our findings suggest that activation of Met in response to HGF/SF may contribute to malignant progression synergistically with the aberrant expression of bFGF in malignant melanocytes and that, in addition, the peptide may promote dispersion of factor-dependent melanocytes from early stages of primary melanomas to ectopic sites.
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PMID:Met and hepatocyte growth factor/scatter factor signal transduction in normal melanocytes and melanoma cells. 133 34

The c-kit proto-oncogene, the gene at the mouse W developmental locus, is one of a substantial group of genes that appear to encode cell surface receptors but for which the ligands are unknown. We have characterized the kit ligand by a generally applicable approach: the receptor extracellular domain was genetically fused to placental alkaline phosphatase, producing a soluble receptor affinity reagent with an enzyme tag that could be easily and sensitively traced. This fusion protein, APtag-KIT, was used to demonstrate a specific binding interaction (KD = 3 x 10(-8) M) with a ligand on 3T3 fibroblast lines. In situ staining showed labeling over the whole surface of the 3T3 cells, but not extending to adjacent nonexpressing cells. These findings provide direct molecular evidence that the kit ligand can exist as a cell surface protein. Binding was not detected on 3T3 fibroblasts carrying the steel (Sl) mutation, confirming the biological significance of the binding activity and demonstrating that mutations at the Sl locus affect the expression or structure of the kit ligand.
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PMID:The kit ligand: a cell surface molecule altered in steel mutant fibroblasts. 169 55

We cloned the cDNA for stem cell tyrosine kinase 1 (STK-1), the human homolog of murine Flk-2/Flt-3, from a CD34+ hematopoietic stem cell-enriched library and investigated its expression in subsets of normal human bone marrow. The cDNA encodes a protein of 993 aa with 85% identity and 92% similarity to Flk-2/Flt-3. STK-1 is a member of the type III receptor tyrosine kinase family that includes KIT (steel factor receptor), FMS (colony-stimulating factor 1R), and platelet-derived growth factor receptor. STK-1 expression in human blood and marrow is restricted to CD34+ cells, a population greatly enriched for stem/progenitor cells. Anti-STK-1 antiserum recognizes polypeptides of 160 and 130 kDa in several STK-1-expressing cell lines and in 3T3 cells transfected with a STK-1 expression vector. Antisense oligonucleotides directed against STK-1 sequences inhibited hematopoietic colony formation, most strongly in long-term bone marrow cultures. These data suggest that STK-1 may function as a growth factor receptor on hematopoietic stem and/or progenitor cells.
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PMID:STK-1, the human homolog of Flk-2/Flt-3, is selectively expressed in CD34+ human bone marrow cells and is involved in the proliferation of early progenitor/stem cells. 750 45

KIT constitutes the cell surface transmembrane receptor protein tyrosine kinase for a growth factor variously termed steel factor (SLF), stem cell factor, mast cell growth factor, or Kit ligand. Inherited mutations of the KIT gene result in piebaldism in humans and dominant white spotting (W) in mice. Patches of hypopigmented skin and hair in these disorders represent regions lacking in melanocytes, the result of defective melanoblast differentiation, migration, proliferation, or survival during embryonic development. Here we show that incubation of normal human melanocytes with a KIT antisense oligodeoxynucleotide greatly inhibits cell proliferation in culture, whereas incubation with a KIT sense oligodeoxynucleotide has no effect. The KIT oligodeoxynucleotides also had little or no effect on cell survival.
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PMID:Inhibition of proliferation of human melanocytes by a KIT antisense oligodeoxynucleotide: implications for human piebaldism and mouse dominant white spotting (W). 751 54

Piebaldism is an autosomal dominant genetic disorder of pigmentation characterized by white patches of skin and hair. Melanocytes are lacking in these hypopigmented regions, the result of mutations of the KIT gene, which encodes the cell surface receptor for steel factor (SLF). We describe the analysis of 26 unrelated patients with piebaldism-like hypopigmentation--17 typical patients, 5 with atypical clinical features or family histories, and 4 with other disorders that involve white spotting. We identified novel pathologic mutations or deletions of the KIT gene in 10 (59%) of the typical patients, and in 2 (40%) of the atypical patients. Overall, we have identified pathologic KIT gene mutations in 21 (75%) of 28 unrelated patients with typical piebaldism we have studied. Of the patients without apparent KIT mutations, none have apparent abnormalities of the gene encoding SLF itself (MGF), and genetic linkage analyses in two of these families are suggestive of linkage of the piebald phenotype to KIT. Thus, most patients with typical piebaldism appear to have abnormalities of the KIT gene.
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PMID:Novel mutations and deletions of the KIT (steel factor receptor) gene in human piebaldism. 752 64

Previous studies in vivo and in vitro show that KIT kinase promotes normal melanocyte development and growth. However, the role of the KIT proto-oncogene in neoplastic melanocytes is not certain. We therefore examined KIT expression and function in human melanomas. Our results show that KIT mRNA was expressed in 12 of 28 melanoma cell lines (approximately 40%), mainly in those originating from pigmented tumors. Surprisingly, activation of KIT with mast cell growth factor (MGF) in melanoma cells produced biological responses opposite to those elicited in normal melanocytes. MGF inhibited rather than stimulated the growth of metastatic melanoma cell lines. The opposite effects may be due to aberrant signal transduction by KIT in melanoma cells in response to MGF. The in vitro inhibition of melanoma cells by MGF suggests that growth in vivo of this tumor is not promoted by KIT kinase activation, but rather that transformed melanocytes might regress when MGF is expressed in their immediate environment.
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PMID:KIT ligand (mast cell growth factor) inhibits the growth of KIT-expressing melanoma cells. 768 62

The proto-oncogene c-met product (c-MET) is a receptor tyrosine kinase and functions as a receptor for hepatocyte growth factor (HGF). Although the function of c-MET has yet to be fully clarified, HGF stimulates the phosphorylation of tyrosyl residues on c-MET and triggers the signal transduction pathways, resulting in a contribution to the malignant progression of melanonocytes with synergic factors such as basic fibroblast growth factor and mast cell growth factor. Using immunohistochemical methods, we have studied the localization of c-MET in normal skin and various melanocytic tumours. c-MET was detected in keratinocytes, melanocytes, sebaceous cells, and other cells of the skin. In particular, basal melanocytes almost always showed nuclear labelling. Melanocytic naevi generally revealed predominantly nuclear staining of cells in the epidermis, whereas only a few cases showed a distinct cytoplasmic localization of c-MET in dermal naevus cells. The distribution pattern of c-MET in melanoma cells was basically similar to that of benign lesions, although the numbers tested were small. Cultured human melanoma cells also showed predominantly nuclear labelling, but were unresponsive to exogenous c-MET ligand HGF. Treatment with the glucosidase inhibitor castanospermine caused accumulation of protein at 220 kD, without diminishing the amount of normally-processed 190-kD c-MET. Although there was no significant difference in c-MET distribution between benign and malignant melanocytic lesions, it is suggested that malignant transformation of melanocytes may be associated with loss of response to HGF or other growth-regulating factors.
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PMID:Detection of the c-met proto-oncogene product in normal skin and tumours of melanocytic origin. 782 52

The FLT3/FLK2 receptor tyrosine kinase is closely related to two receptors, c-Kit and c-Fms, which function with their respective ligands, Kit ligand and macrophage colony-stimulating factor to control differentiation of haematopoietic and non-haematopoietic cells. FLT3/FLK2 is thought to be present on haematopoietic stem cells and found in brain, placenta and testis. We have purified to homogeneity and partially sequenced a soluble form of the FLT3/FLK2 ligand produced by mouse thymic stromal cells. We isolated several mouse and human complementary DNAs that encode polypeptides with identical N termini and different C termini. Some variants contain hydrophobic transmembrane segments, suggesting that processing may be required to release soluble ligand. The purified ligand enhances the response of mouse stem cells and a primitive human progenitor cell population to other growth factors such as interleukins IL-3 and IL-6 and to granulocyte-macrophage colony-stimulating factor, and also stimulates fetal thymocytes.
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PMID:Ligand for FLT3/FLK2 receptor tyrosine kinase regulates growth of haematopoietic stem cells and is encoded by variant RNAs. 814 51

Vascular endothelial cell growth factor (VEGF) is a ligand for the tyrosine kinase receptor Flk-1/KDR and Flt1 and is considered to be an endothelial cell specific mitogen that plays an important role in angiogenesis. Since Flk-1 mRNA has been detected in primitive and more mature hematopoietic cells, recombinant human VEGF was evaluated for its influence on hematopoiesis, which was assayed as in vitro colony formation by myeloid progenitor cells from human bone marrow. VEGF enhanced colony formation by mature subsets of granulocyte-macrophage and erythroid progenitor cells that had been stimulated with a colony stimulating factor. In contrast, VEGF inhibited colony formation by more immature subsets of granulocyte-macrophage, erythroid and multipotential progenitor cells synergistically stimulated to proliferate with a colony stimulating factor and either steel factor or the ligand for the Flt-3 receptor tyrosine kinase. VEGF produced effects similar to those given above on purified CD34 progenitor cells from bone marrow and VEGF effects were neutralized by VEGF antibodies. However, when assessed for effects on single sorted CD34 cells, VEGF only enhanced or suppressed colony formation by granulocyte-macrophage progenitor cells and the amplitude of the response was less than that observed when populations of these cells were tested. In the single cell assays, VEGF had no effect on colony formation by erythroid or multipotential progenitors. These results suggest that the effects of VEGF, which were not species specific, are mediated by both direct and indirect actions on the progenitors and thereby identify new activities for this important factor.
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PMID:Myeloid progenitor cell regulatory effects of vascular endothelial cell growth factor. 858 66

B cell development is influenced by interactions between B cell progenitors and stromal cells. The precise mechanisms by which these interactions regulate B cell differentiation are currently unknown. Flt3 ligand (FL) is a growth factor which stimulates the proliferation of stem cells and early progenitors. Mice deficient for the FLT3 receptor exhibit severe reductions in early B lymphoid progenitors. We have previously described a clonal assay in vitro which allows us to follow the entire B cell differentiation pathway from uncommitted progenitors to mature, immunoglobulin-secreting plasma cells. The growth factor combination of interleukin (IL)-11, mast cell growth factor (MGF) and IL-7 was shown to maintain the differentiation of these hematopoietic precursors into B cell progenitors capable of giving rise to functionally mature B cells in secondary cultures. Here, we show that FL in combination with IL-11 and IL-7 is sufficient to support the differentiation of uncommitted progenitors from day 10 yolk sac (AA4.1+) or day 12 fetal liver (AA4.1+ B220- Mac-1- Sca-1+) into the B lineage. The frequency of B cell progenitors obtained in these conditions was similar, if not better, than the frequency of B cell precursors that arose when cultured in IL-11+MGF+IL-7. Furthermore, the growth factor combination of IL-11+FL+ IL-7 was able to maintain the potential of bipotent precursors giving rise to both the B and myeloid lineages in secondary cultures. We also show that FL synergizes with IL-7 in the proliferation of committed B220+ pro-B cells and may contribute to the maintenance of an earlier pro-B cell population. Together, these results show that FL is important in supporting the differentiation and proliferation of early B cell progenitors in vitro.
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PMID:Flt3 ligand supports the differentiation of early B cell progenitors in the presence of interleukin-11 and interleukin-7. 876 53

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