UNIPROT:P10721 - FACTA Search

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Query: UNIPROT:P10721 (c-kit)
6,575 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human mast cell growth factor (MGF, a c-kit ligand) and colony stimulating factors (Epo, GM-CSF, G-CSF, IL-3) were assessed in the absence or presence of serum for stimulation in semi-solid medium of single CD34 , CD34 HLA-DR+, or CD34 HLA-DR+CD33- cells sorted per microtiter well. The % of wells containing CFU-GM and erythroid containing (BFU-E and CFU-GEMM) colonies increased in proportion to the number of cytokines added. In the presence of serum, 1, to 4 cytokine combinations resulted in respective increases in cloning efficiencies of 10 to 21.0, 19.5 to 31.5, 35.8 to 42.9, and 46.3 to 60.0%. MGF had little effect by itself, but did act in combination with CSFs to enhance numbers and size of the colonies from isolated single cells. High cloning efficiencies were also obtained in the absence of serum when multiple cytokines were used. The results demonstrate that MGF and CSFs can act directly on the proliferation of single hematopoietic progenitor cells in the absence of accessory cells and serum.
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PMID:Influence of combinations of cytokines on proliferation of isolated single cell-sorted human bone marrow hematopoietic progenitor cells in the absence and presence of serum. 137 67

We describe the development of a human bone marrow (BM) culture system which allows study of the interaction of stromal cell lines (SCL) and highly purified hematopoietic progenitor cells. Normal BM stromal cells were electroporated with a plasmid containing the simian virus 40 (SV40) large T antigen (SV40 T Ag) under the control of a synthetic metallothionein promoter (MT4); this construct is designated MT4 SV40 T Ag. SCL in which the rate of proliferation could be controlled by altering the zinc (Zn) concentration were characterized, demonstrating that the SCL were heterogeneous with respect to G-CSF and GM-CSF production. Suppression of SCL proliferation on removal of Zn made it possible to use these lines in coculture with purified CD34+ progenitor cells from umbilical cord blood. The ability to control proliferation of SCL has allowed us to maintain the survival and expansion of colony-forming cells in culture for up to 2 months. These lines have enabled us to test for stromal cell characteristics at a clonal level and provided us with a tool to analyze the events leading to lineage commitment and hematopoietic differentiation, as demonstrated by suppression of hematopoiesis by an antibody directed against the c-kit molecule.
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PMID:Support of human cord blood progenitor cells on human stromal cell lines transformed by SV40 large T antigen under the influence of an inducible (metallothionein) promoter. 137 46

The effects of the c-kit ligand (stem cell factor [SCF]) on the development of a highly enriched population of granulocyte-macrophage colony-forming cells (GM-CFC) were assessed. In soft agar assays, both in serum-containing and in serum-deprived cultures, SCF promoted the formation of colonies that contained predominantly granulocytic cells with some blast cells also present. The size of these colonies was far smaller than observed in the presence of interleukin-3 (IL-3). In serum-deprived conditions, no colonies were formed in the presence of macrophage colony-stimulating factor (M-CSF), but when M-CSF was combined with SCF, a marked change was noted in that large colonies were produced containing predominantly macrophages. When GM-CFC were cultured in the presence of IL-3 and SCF, colonies were formed that contained blast cells, granulocytes, and macrophages. A synergistic interaction was also seen using a combination of G-CSF plus SCF in either serum-containing or serum-deprived cultures. The addition of SCF to colony-forming assays markedly reduced the concentration of IL-3 or G-CSF required for optimal levels of colony formation. Furthermore, SCF was capable of promoting the survival of GM-CFC for several days, after which large colonies containing mature cells were formed upon the addition of a secondary growth factor such as G-CSF or IL-3. Thus, SCF can directly act on highly enriched committed progenitor cells in serum-deprived conditions to promote survival, proliferation, and development.
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PMID:Stem cell factor directly stimulates the development of enriched granulocyte-macrophage colony-forming cells and promotes the effects of other colony-stimulating factors. 138 98

To study hematopoietic differentiation a variety of in vitro systems have been established using hematopoietic precursors derived from various explanted adult and fetal tissues. In this prospective we describe and discuss the potential of a novel system for studying the earliest stages of hematopoietic development. In addition, some of the applications of this system as a unique in vitro model for studying other developmental systems are discussed. Murine embryonic stem cells (ESC), which are totipotent and can be maintained undifferentiated indefinitely in vitro, have the capacity to differentiate in vitro into hematopoietic precursors of most, if not all, of the colony forming cells found in normal bone marrow. This potential can be exploited to study the control of the early stages of hematopoietic induction and differentiation. Recent results have indicated that there is a strong transcriptional activation, in a well defined temporal order, of many of the hematopoietically relevant genes. Examples of the genes expressed early during the induction of hematopoiesis include erythropoietin (Epo) and its receptor as well as the Steel (SI) factor (SLF) and its receptor (c-kit). Several other genes, including CSF-1, IL-1, and G-CSF were expressed during the later stages of hematopoietic differentiation. Contrasting with these observations, IL-3 and GM-CSF were not expressed during the first 24 days of ES cell differentiation suggesting that neither factor is necessary for the induction of hematopoietic precursors. Although these studies are just beginning, this system is easily manipulated and gives us an approach to understanding the control of the induction and differentiation of the hematopoietic system in ways not previously possible.
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PMID:Embryonic stem cells and in vitro hematopoiesis. 164 60

The c-kit proto-oncogene encodes a transmembrane receptor with a tyrosine kinase internal domain. C-kit has been mapped to the W locus in the mouse, and the gene encoding the ligand has been shown to be the product of the murine SI locus. Previous genetic studies have shown that the murine W and SI loci play important roles in the normal function of hemopoietic stem cells. As these stem cells have been identified as the origins of abnormal clones in acute myeloblastic leukemia (AML), a study was begun of c-kit in AML. By Northern blot analysis, it was shown that all of 21 blast populations from AML patients were kit expression positive, but some AML cell lines did not transcribe detectable c-kit mRNA. This study is now extended to the responses of freshly obtained AML cells and cell lines to the ligand, mast-cell growth factor (MGF). In culture, fresh cells usually responded to added ligand with increases in both self-renewal and terminal divisions. The most obvious effects were seen when MGF was combined with either IL-3 or G-CSF. The response of cell lines to MGF mirrored their expression of c-kit; expression positive lines responded in culture with patterns similar to those seen for fresh cells. C-kit expression negative cells did not respond to MGF. RNA prepared from the cells giving rise to one such line, OCI/AML-5, was available for study. mRNA for c-kit could not be detected in this RNA sample by Northern blot analysis or the polymerase chain reaction. Thus the heterogeneity found in AML blast populations extends to the involvement of c-kit and its ligand in growth regulation, although blast populations without this regulatory apparatus appear to be rare.
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PMID:Mast cell growth factor, a ligand for the receptor encoded by c-kit, affects the growth in culture of the blast cells of acute myeloblastic leukemia. 171 40

CD45 antigens are protein tyrosine phosphatases. A possible link was evaluated between expression of CD45 antigens on human myeloid progenitor cells (MPC) (colony-forming unit-granulocyte/macrophage [CFU-GM], burst-forming unit-erythroid [BFU-E], and colony-forming unit-granulocyte/erythroid/macrophage/megakaryocyte [CFU-GEMM]) and regulation of MPC by colony-stimulating factors (CSF) (interleukin 3 [IL-3], GM-CSF, G-CSF, M-CSF, and erythropoietin [Epo]), a GM-CSF/IL-3 fusion protein, and mast cell growth factor (MGF; a c-kit ligand). Treatment of cells with antisense oligodeoxynucleotides (oligos) to exons 1 and 2, but not 4, 5, or 6, of the CD45 gene, or with monoclonal anti-CD45, significantly decreased CFU-GM colony formation stimulated with GM-CSF, IL-3, fusion protein, and GM-CSF + MGF, but not with G-CSF or M-CSF. It also decreased GM-CSF, IL-3, fusion protein, and MGF-enhanced Epo-dependent BFU-E and CFU-GEMM colony formation, but had little or no effect on BFU-E or CFU-GEMM colony formation stimulated by Epo alone. Similar results were obtained with unseparated or purified (greater than or equal to one of two cells being a MPC) bone marrow cells. Sorted populations of CD343+ HLA-DR+ marrow cells composed of 90% MPC were used to demonstrate capping of CD45 after crosslinking protocols. Also, a decreased percent of CD45+ cells and CD45 antigen density was noted after treatment of column-separated CD34+ cells with antisense oligos to exon 1 of the CD45 gene. These results demonstrate that CD45 cell surface antigens are linked to stimulation of early human MPC by IL-3, GM-CSF, a GM-CSF/IL-3 fusion protein, and MGF.
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PMID:CD45 cell surface antigens are linked to stimulation of early human myeloid progenitor cells by interleukin 3 (IL-3), granulocyte/macrophage colony-stimulating factor (GM-CSF), a GM-CSF/IL-3 fusion protein, and mast cell growth factor (a c-kit ligand). 171 54

Stem cell factor (SCF) is the ligand for the receptor encoded by the c-kit proto-oncogene. Mutations of either c-kit or the SCF gene are responsible for the defects of W and SI mutant mice, which both suffer a macrocytic anemia, the former associated with defective stem cells and the latter with a defective hematopoietic microenvironment. PEGylated recombinant rat SCF was administered to normal or splenectomized mice for up to 21 days. SCF was found to be a modest stimulator of peripheral blood neutrophil numbers in both groups of animals. The peak in neutrophil numbers was higher and occurred earlier in splenectomized mice. Bone marrow and spleen cellularity changed little during treatment but the content of interleukin-3-responsive progenitor cells and spleen colony-forming cells (CFU-S) reached very high levels, particularly in the spleen. Using recombinant human granulocyte colony-stimulating factor (rhG-CSF), we have shown that SCF induces a greater than additive increase in both blood neutrophils and blood-borne CFU-S. This synergy was seen throughout the dose range and may indicate a clinical role for SCF either alone or in augmenting the activity of G-CSF upon blood neutrophils and transplantable stem cells.
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PMID:The effects on hematopoiesis of recombinant stem cell factor (ligand for c-kit) administered in vivo to mice either alone or in combination with granulocyte colony-stimulating factor. 171 29

This paper describes the properties of a continuous cell line derived from the blast cells of a patient with acute myeloblastic leukemia (AML), secondary to the treatment of Hodgkin's disease. The line grows slowly without stimulation but responds to interleukin-3 (IL-3), GM-CSF and mast cell growth factor (MGF), a ligand for the receptor encoded by the c-kit oncogene. When OCI/AML-4 cells are exposed to MGF with IL-3 or GM-CSF, additive or synergistic effects are seen. Combinations of MGF and G-CSF, IL-6 or CSF-1 give less growth than MGF alone. OCI/AML-4 cells are sensitive to retinoic acid; a dose related decrease in clonogenic cells is observed when OCI/AML-4 cells are exposed to retinoic acid in suspension culture. OCI/AML-4 cells are sensitive to cytosine arabinoside (ara-C), but the ara-C dose-response curve can be changed by altering the regulatory milieu in suspension culture. The cells are more ara-C sensitive in MGF or G-CSF than in IL-3 or GM-CSF. Following a 24 h exposure to retinoic acid, the ara-C sensitivity increases; in contrast, after a similar exposure to hydrocortisone, the cells become less ara-C sensitive. These changes in ara-C sensitivity occur in cells that are actively making DNA, as indicated by the reduction in colony formation after exposure to tritiated thymidine. Since OCI/AML-4 cells respond to many of the regulators that affect the growth of freshly obtained AML blast cells, it is proposed that this cell line may be useful for the study of regulation on AML in general and the interaction between different regulators in particular.
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PMID:OCI/AML-4 an acute myeloblastic leukemia cell line: regulation and response to cytosine arabinoside. 171 61

Hematopoietic stem cells (HSCs) are distinguished from other hematopoietic progenitors in bone marrow by their unique ability to undergo multilineage differentiation and self-renewal. Two mouse mutations, dominant spotting (W) and steel (Sl), have pleiotropic effects on hematopoiesis, gametogenesis, and melanoblast development. These two mutations have been shown to be intrinsic (W) and microenvironmental (Sl) defects. Recently, molecular studies revealed that the W and Sl loci encode the c-kit receptor and steel factor (SLF), respectively. The c-kit receptor is expressed on HSCs and hematopoietic progenitors, while SLF is produced by stromal cells. SLF acts on hematopoietic progenitors synergistically with other growth factors. Here we review the effect of these mutations on mouse hematopoiesis, and show that SLF acts on HSCs and other myeloerythroid progenitors, but that it, in our hands, does not play a critical role in HSC generation or self-renewal. Rather, SLF is the most potent co-mitogen (with IL-1, IL-3, IL-6, G-CSF, GM-CSF, or M-CSF) found that acts on these cells, but the effect of such treatments is the rather specific and massive expansion of myeloerythropoiesis, not lymphopoiesis, and perhaps at the expense of HSC self-renewal.
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PMID:Mouse hematopoietic stem cells and the interaction of c-kit receptor and steel factor. 172 Jan 54

The intramedullary control of marrow cell production has been a difficult area to approach experimentally. The introduction by Dr. Dexter and colleagues of long-term stromal dependent culture systems for murine marrow and the adaptation of these systems to human marrow growth have allowed for in-vitro studies of stromal dependent hemopoiesis. Despite some controversy in this area, most studies appear to show that adherent murine or human stromal cells are capable of producing a relatively large number of hemopoietic growth factors including G-CSF, GM-CSF, CSF-1, IL-6 and, at least by PCR analysis, IL-3. Other work indicates that the most primitive hemopoietic cells which appear to be multifactor responsive adhere directly to these stromal cells presumably through mediation of various adherence proteins. An early acting, multilineage factor termed hemolymphopoietic growth factor-1 (HLGF-1) has been isolated from a murine stromal cell line and may be identical to the recently described ligand for the c-kit receptor. This may represent an important early survival/maintenance factor for stem cells in this system. Studies on primitive stem cells, especially the high proliferative potential colony forming cell (HPP-CFC), indicate that they are responsive to varying combinations of growth factors and that with increasing numbers of growth factors, as studied in serum-free systems, decreasing concentrations of the factors may be biologically active. These observations altogether suggest that intramedullary hemopoiesis may be regulated by the positioning of early multifactor responsive stem cells via adherent proteins in juxtaposition to synergistically acting combinations of growth factors attached to stromal cell surfaces or the extracellular matrix.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Long-term marrow cultures: human and murine systems. 206 78

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