Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

We investigated the expression, degree of phosphorylation, and activation of the proto-oncogene c-kit product before and after stimulation with the c-kit ligand in a human factor-dependent myeloid leukemia cell line, MO7E. The culture supernatant of the BALB/3T3 fibroblast cell line, which contains the ligand for the murine c-kit product, was found to stimulate proliferation of the MO7E cell line in a dose-dependent manner. The proliferation was significantly inhibited by a tyrosine kinase inhibitor, genistein. An immunoblot technique with a monoclonal antibody specific for phosphotyrosine, showed that there was rapid, dose-dependent tyrosine-phosphorylation of the c-kit product in response to murine c-kit ligand. Furthermore, the murine c-kit ligand increased autokinase activity of the c-kit product in vitro. Similar results were obtained with human stem cell factor (SCF), a recombinant human ligand for the c-kit product. These results suggest that the phosphorylation and activation of the c-kit product are involved in proliferative signals of some human leukemia cells, as well as of normal hematopoietic cells.
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PMID:Proliferation of human myeloid leukemia cell line associated with the tyrosine-phosphorylation and activation of the proto-oncogene c-kit product. 172 36

The proto-oncogene c-kit encodes the receptor for a stem cell factor (c-kit molecule). Expression of the c-kit molecule on the gated leukemic blast cells from newly diagnosed patients with leukemia was analysed by flow cytometry using the monoclonal antibody (17F11). Among 35 myeloid leukemia cases examined, significant c-kit-positive blast cells were detected in 24 cases (69%), even though the percentage of positive cells was widely variable. The correlation between the percentage of cells positive for the c-kit molecule and the percentage of cells positive for CD34 was found to be statistically significant (rs = 0.36, p < 0.05). Fifteen cases of myeloid leukemia were positive for lymphoid markers. The mean percentage of the cells expressing c-kit molecule among the lymphoid marker-positive cases was significantly larger than that among the lymphoid marker-negative cases (p < 0.05). All 19 lymphoid leukemia cases were c-kit-negative, including 8 cases which were positive for some myeloid markers. Stem cell factor enhanced the colony growth in five out of six acute myeloblastic leukemia cases expressing the c-kit molecule. On the other hand, SCF did not stimulate colony growth in any of the four cases which were not positive for the c-kit molecule. These findings indicated that the distribution of flow cytometrically detectable c-kit molecules on leukemic cells is related to the morphologic and immunologic classification of these leukemic cells and to the expression of the CD34 cell surface molecule on some myeloid leukemic cells. On such cells, expression of the c-kit molecule may have a functional role and be related to the maturation process.
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PMID:The c-kit molecule and the surface immunophenotype of human acute leukemia. 752 77

TNF-alpha is a pleiotropic cytokine with stimulatory as well as inhibitory effects on hematopoiesis. We have previously demonstrated that TNF-alpha directly inhibits CSF-induced proliferation of primitive murine lineage-negative bone marrow progenitors (Lin-) and stem cell antigen-1 hematopoietic progenitors through the 75-kDa TNF receptor (TNF-R2), whereas TNF-alpha-induced inhibition of more committed Lin- progenitors is mediated through the 55-kDa TNF-R (TNF-R1), indicating a differential role of the two TNF-Rs in hematopoiesis. Numerous studies have demonstrated the ability of stem cell factor (SCF), a key regulator of hematopoiesis signaling through c-kit, to synergize with other hematopoietic growth factors, but little is known about cytokines capable of inhibiting hematopoiesis induced by SCF. While TNF-alpha has been demonstrated to enhance SCF-induced proliferation of myeloid leukemia blasts, the present report demonstrates that TNF-alpha, by signaling through TNF-R2, inhibits SCF-induced proliferation of normal murine Lin- and stem cell antigen-1 hematopoietic progenitors. SCF-stimulated proliferation of the hematopoietic cell line FDC-P1 was also potently inhibited by TNF-alpha and was accompanied by down-regulation of c-kit cell surface expression as well as c-kit mRNA levels. Finally, treatment of the FDC-P1 cell line with TNF-alpha resulted in increased levels of the tumor suppressor p53 mRNA, suggesting another mechanism by which hematopoietic effects of TNF-alpha may be mediated.
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PMID:Inhibition of stem cell factor-induced proliferation of primitive murine hematopoietic progenitor cells signaled through the 75-kilodalton tumor necrosis factor receptor. Regulation of c-kit and p53 expression. 753 12

The expression of c-kit receptor (c-kit R; CD117) and CD34 was examined in acute myeloid leukemia (AML), acute lymphoid leukemia (ALL), chronic myeloid leukemia (CML) in blastic transformation (BT), and myelofibrosis (MF) in myeloid BT. In myeloid leukemia including AML, CML-myeloid BT and MF-myeloid BT, both c-kit R and CD34 were expressed synchronously, while in lymphoid leukemia including ALL and CML-lymphoid BT, only CD34 was highly expressed. A close correlation between c-kit R and CD33 expression and an inverse correlation between c-kit R and CD19 expression were observed when all of the myeloid plus lymphoid leukemia cells were analysed. There was a close correlation between c-kit R and CD34 expression in the myeloid leukemia cells. c-kit R expression may be associated with myeloid phenotypes of leukemic cells and may be useful for the diagnosis of myeloid leukemia. The literature of c-kit R expression in leukemic cells is reviewed here and the comparison of c-kit R and CD34 expression in normal hematopoietic progenitor cells with those on the leukemic counterparts was discussed.
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PMID:Expression of c-kit receptor (CD117) and CD34 in leukemic cells. 753 10

The Tec kinase was initially identified as a novel cytoplasmic protein tyrosine kinase that is preferentially expressed in the liver and is highly homologous to the Drosophila Dsrc28C src-related tyrosine kinase. In screening of interleukin 3 (IL-3)-dependent myeloid leukemia cells for protein tyrosine kinases, we observed that all cell lines examined expressed high levels of Tec transcripts. However, characterization of Tec cDNAs indicated that they differed significantly from the published sequence. Most strikingly, an insertion of 41 bp in the 5' region affects the initiation codon and results in replacing the published 13 amino acid amino-terminal sequences with 94 amino acids. Using polymerase chain reaction (PCR) analysis, only the form containing the insertion was detected in hematopoietic cells. In addition, we found an in-frame insertion of 66 bp that introduces an additional 22 amino acids into the SH3 domain. This insertion restores conserved SH3 sequences that are found in the src gene family and in the Dsrc28C gene. By PCR analysis, approximately equal levels of Tec transcripts containing the intact SH3 domain and containing the 22 amino acid deletion were found in hematopoietic cells. Lastly, by interspecies backcross analysis, we show that the Tec gene is tightly linked to the c-Kit gene on mouse chromosome 5.
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PMID:Expression of a novel form of Tec kinase in hematopoietic cells and mapping of the gene to chromosome 5 near Kit. 767 27

Stem cell factor (SCF) is an essential hematopoietic cytokine that interacts with other cytokines to preserve the viability of hematopoietic stem and progenitor cells, to influence their entry into the cell cycle and to facilitate their proliferation and differentiation. SCF on its own cannot drive noncycling hematopoietic progenitor cells into the cell cycle but does prevent their apoptotic death. SCF when combined with other cytokines increases the cloning efficacy of hematopoietic progenitor cells from all lineages. SCF also stimulates the growth of CD34+ leukemic progenitor cells from most patients with acute myeloid leukemia (AML). The mRNA expression of the SCF receptor c-kit has been shown to be significantly increased in all fresh AML blast cells compared with normal controls (healthy volunteers), in particular CD34+ cells. Two inhibitory cytokines, transforming growth factor-beta and interleukin-4, decreased c-kit expression, whereas tumor necrosis factor-alpha increased c-kit expression, but chemotherapeutic drugs showed no effect on c-kit expression, but chemotherapeutic drugs showed no effect on c-kit expression in AML cells. Apoptosis has been shown to be directly related to a high complete remission rate in AML patients following induction therapy. Since SCF has been shown to stimulate the proliferation of mainly CD34+ AML cells, we have investigated whether the poor response of patients with CD34+ myeloid leukemia cells to chemotherapy could be due to SCF-induced resistance to apoptosis. The effect of SCF on the apoptosis induced by chemotherapeutic drugs commonly used in the treatment of AML - cytarabine, daunorubicin and carboplatin - was examined in human CD34+ myeloid leukemia cells in serum-free cultures. SCF significantly reduced the induced apoptosis by more than 50% in all CD34+ human leukemia cells treated by any of the three chemotherapeutic drugs. Antibodies blocking c-kit reversed the significant inhibitory effect of SCF on chemotherapy-induced apoptosis, confirming the role of SCF in the resistance to chemotherapy-induced apoptosis in CD34+ human leukemia. These results suggest that the poor response of patients with CD34+ leukemia cells could be at least partially due to less chemotherapy-induced apoptosis resulting from protection by SCF as an adjuvant mechanism for drug resistance in myeloid leukemia. We conclude that an antisense strategy to block c-kit expression in AML blast cells may prove valuable for decreasing the chemoresistance of AML patients. The abrogation of leukemic resistance to apoptotic death through anti-SCF/c-pit expression combined with chemotherapy offers potential for designing novel therapeutic approaches for refractory AML patients.
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PMID:Stem cell factor as a survival and growth factor in human normal and malignant hematopoiesis. 867 52

The present review has summarized the expression, production and effects of the human interleukins (IL) 1-11 and myelopoietic colony stimulating factors (CSF) in the established myeloid leukemia cell lines and in cells from patients with acute myeloid leukemia as well as the oncogene expression reported in these myeloid leukemia cell lines. The genetic dissection of leukemic myelopoiesis may provide new perspectives for the control of myeloid leukemias. Based on their expression of phenotypic markers (e.g., surface antigens, cytochemical staining, etc.), myeloid cell lines can be further subdivided into myelogenous, monocytic, erythroid and megakaryoblastic leukemia cell lines. Due to the close relationship of erythroid and megakaryoblastic progenitor cells and to the existence of a probably common precursor cell giving rise to these two different cell lineages, many megakaryoblastic cell lines express erythroid markers (e.g., expression of hemoglobin or glycophorin A) and conversely cell lines with a predominant erythroid profile might display megakaryoblastic features (e.g., platelets peroxidase or glycoproteins CD41, CD42b or CD61). The recent cloning of the specific cytokine: thrombopoietin (TPO) and its receptor generated a strong interest in these particular myeloid cell lines that are discussed in more detail in the present review. Both normal and leukemic megakaryocytopoiesis are stimulated by granulocyte-macrophage colony stimulating factor (GM-CSF), IL-3, GM-CSF/IL-3 fusion protein, IL-6, IL-11 and TPO but inhibited by IL-4, interferon-alpha (IFN-alpha) and IFN-gamma. Human megakaryoblastic leukemia cell lines have common biological features: high expression of the megakaryocytic specific antigen (CD41); high expression of early myeloid antigens (CD34, CD33 and CD13); constitutive expression of IL-6 and platelet-derived growth factor; a complex karyotype picture; expression of c-kit (the stem cell factor receptor); growth-dependency or -stimulation by IL-3 and/or GM-CSF; and in vivo tumorigenicity in mice associated with marked fibrosis. Whereas numerous chemical and biologic agents induce granulocytic and/or monocytic differentiation of myeloid leukemia cell lines, only a few agents including phorbol myristate acetate, vitamin D3, IFN-alpha, IL-6 and thrombin have been reported to induce megakaryocytic differentiation in the megakaryoblastic leukemia cells.
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PMID:Interleukins and colony stimulating factors in human myeloid leukemia cell lines. 875 Jun 18

FLT3 ligand is a hematopoietic growth factor that plays a key role in growth of primitive hematopoietic cells. FLT3 receptor mRNA is found in early hematopoietic progenitors and in human myeloid leukemia blasts. Much less is known about the surface expression of FLT3 receptor on human hematopoietic cells. Using human 125I-FLT3 ligand, we have identified and characterized surface FLT3 receptors on normal and malignant human hematopoietic cells and cell lines. Our results showed that surface display of FLT3 receptor was greatest in fresh myeloid leukemia blast cells and myeloid leukemia cell lines. Erythroleukemic and megakaryocytic leukemia cell lines (n = 5) bound little to no 125I-FLT3 ligand. Scatchard analysis of 125I-FLT3 ligand binding data shows that three myeloid leukemia cell lines, ML-1, AML-193, and HL-60, as well as normal human marrow mononuclear cells, exhibit high affinity FLT3 receptors. Crosslinking of 125I-FLT3 ligand to FLT3 receptors on the surface of ML-1 myeloid leukemia cells indicates that the FLT3 ligand. The rates of FLT3 ligand internalization and degradation were determined by binding 125I-FLT3 ligand to ML-1 cells and acid stripping to distinguish surface bound from internalized ligand. Internalized 125I-FLT3 ligand was detected within 5 minutes after binding to ML-1 cells. In addition, we evaluated the effect of FLT3 ligand on megakaryocytic colony growth and nuclear endoreduplication, alone or in the presence of thrombopoietin. FLT3 ligand did not promote colony forming unit megakaryocyte (CFU-Meg) colony growth or megakaryocyte nuclear maturation, nor did FLT3 ligand augment the effects of thrombopoietin on these measures of megakaryopoiesis. These data indicate that the FLT3 receptor shares several characteristics with the c-kit receptor including dimerization and rapid internalization. However, the more restricted cellular distribution of the FLT3 receptor may target the effects of FLT3 ligand to primitive hematopoietic cells and to myeloid and lymphoid progenitor cells, in contrast to the pleiotropic effects of the c-kit receptor ligand, stem cell factor.
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PMID:FLT3 receptor expression on the surface of normal and malignant human hematopoietic cells. 889 3

In the hematopoietic lineage, the transcription factors GATA-1 and GATA-2 show restricted and largely overlapping expression profiles, but GATA-2 is uniquely expressed in early hematopoietic progenitors. GATA-3 is found exclusively in T cells of hematopoietic lineage. To clarify whether these expression profiles are preserved or changed during the development of malignancies, we analyzed the expression of GATA factors in the blasts from leukemic children. A total of 18 myelogenous leukemia and 24 lymphoblastic leukemia (ALL) cases were investigated. In the majority of the former cases, GATA-2 mRNA expression and the expression of CD34 and c-kit antigens on leukemic cells were demonstrated. In contrast, GATA-2 mRNA and c-kit antigen could not be detected in CD34-positive cells from ALL patients. GATA-3 mRNA was expressed in all T-ALL cases, but not in any precursor B-ALL. These findings suggest that down-regulation of GATA-2 and expression of GATA-3 are important events for the commitment of cells to lymphoid and T cell lineage, respectively. The expression profiles of GATA factors in leukemic cells are generally consistent with those in their normal counterparts, and thus provide a useful tool to determine the lineage commitment of unclassified leukemia.
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PMID:Expression of GATA transcription factors in myelogenous and lymphoblastic leukemia cells. 911 95

As an approach to characterizing the molecules involved in the hematopoietic microenvironment provided by a murine clonal preadipose cell line MC3T3-G2/PA6 (PA6), we developed a unique system to detect the early phase of signal transduction caused by the direct cell-to-cell interaction using the reporter plasmid pfosluc2 with the c-fos enhancer/promoter linked with the Photinus pyralis luciferase gene. The plasmid pfosluc2 was genetically introduced into a mouse myeloid leukemia cell line NFS-60 which showed a growth dependency on contact with PA6 cells, and the mechanism by which stromal PA6 cells promote the proliferation of NFS-60 cells through the direct cell-to-cell interaction was analyzed. The direct cell-to-cell interaction with PA6 cells was found to cause a significant c-fos induction to NFS-60 cells within 1 h. Approximately 10(5) cDNA clones prepared from PA6 cells were screened for their activity to promote the c-fos expression in NFS-60 cells through the direct cell-to-cell interaction, and 13 positive clones were obtained. Of these positive clones, five clones encoded the stem cell factor, and the others encoded the hepatocyte growth factor (HGF). The c-fos induction caused by the contact with PA6 cells in NFS-60 was completely inhibited by addition of both antagonistic anti-c-kit and anti-HGF antibodies. These results represent direct evidence for the action of HGF on the proliferation of hematopoietic cells through direct cell-to-cell interaction with stromal cells. Thus, our developed reporter system can be useful in investigating the direct cell-to-cell interaction between stromal and hematopoietic cells.
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PMID:Characterization of the molecules involved in the hematopoietic microenvironment provided by mouse stromal cell line MC3T3-G2/PA6 using a unique reporter system that analyzes the direct cell-to-cell interaction. 928 6


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