Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0598766 (leukemogenesis)
 4,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Understanding how self renewal, commitment and differentiation are regulated in normal, multipotent hematopoietic progenitors is important for our understanding of underlying mechanisms involved in leukemogenesis. In addition, knowledge of progenitor cell biology is critical if these cells are to be used for gene therapy. In this communication, we demonstrate that the oncogenic transcription factor v-Ski, together with the ligand activated receptor tyrosine kinase c-Kit, induces the continuous in vitro self renewal of primary avian multipotent progenitors. These cells have an in vitro life span of > 100 generations. In addition they spontaneously differentiate into cells of the erythroid, monocytic and granulocytic lineages. If clonal strains of these multipotent progenitors are exposed to specific mixtures of growth factors and hormones, they develop into committed cells of either the erythroid or myeloid lineages. These committed cells underwent efficient terminal differentiation when they were treated with the relevant lineage-specific growth/differentiation factors, but underwent apoptosis when exposed to the incorrect factors for the respective lineage. While the committed cells coexpress marker proteins from different lineages, expression of the 'wrong' lineage marker is repressed during terminal differentiation. Our results indicate that a combination of v-Ski and activated c-Kit induces long-term self renewal in primary multipotent progenitors, which can be induced to commit and differentiate along specific lineages under different, defined conditions. Our data also suggest that growth factors and steroid hormones control terminal differentiation by a combined induction of commitment, growth and apoptosis, a process likely to be affected in stem cell leukemias.
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PMID:In vitro growth of factor-dependent multipotential hematopoietic cells is induced by the nuclear oncoprotein v-Ski. 762 32

A unique combination of growth promoting factors is described that allows growth of large amounts (10(10)-10(11)) of normal erythroid progenitors from chick bone marrow. These erythroid progenitors express the estrogen receptor (ER) as well as the receptor tyrosine kinase TGF alpha R/c-erbB. They require both TGF alpha and estradiol for sustained self-renewal in vitro, but terminally differentiate upon withdrawal of TGF alpha and inactivation of the ER by an antagonist (ICI 164.384). Overexpression of the human ER in erythroblasts devoid of endogenous ER revealed that the hormone-activated ER alone arrested erythroid differentiation and repressed a large group of erythrocyte genes. When similarly overexpressed, TGF alpha R/c-erbB inhibited the expression of a distinct, but overlapping, set of genes. The endogenous ER and TGF alpha R/c-erbB affect erythrocyte gene expression in a similar, but less pronounced fashion. Surprisingly, suppression of ER function by antagonist efficiently inhibited erythroblast transformation by tyrosine kinase oncogenes, suggesting a role of the endogenous ER in leukemogenesis. We speculate that the oncogenes v-erbB and v-erbA cooperate in erythroleukemia induction by a mechanism that is employed by TGF alpha R/c-erbB and ER to regulate normal progenitor self-renewal in response to external signals.
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PMID:The estrogen receptor cooperates with the TGF alpha receptor (c-erbB) in regulation of chicken erythroid progenitor self-renewal. 845 46

The ufo protein (also termed axl) is a member of a new family of receptor tyrosine kinases and is encoded by a transforming gene that was initially isolated from primary human myeloid leukemia cells by DNA-mediated transformation of NIH/3T3 cells. The ligand, Gas6, a protein S-related molecule lacking any known function yet, has recently been identified. We report the expression pattern of ufo mRNA in a panel of 76 human continuous leukemia-lymphoma cell lines. The gene was not expressed in cell lines derived from lymphoid malignancies (n=28), but transcription was seen in 3/11 myeloid, 0/6 monocytic, 9/13 erythroid and 11/18 megakaryocytic cell lines. Several cell lines were treated with phorbol ester leading to significant upregulation of the ufo message in constitutively positive cells. An apparent ufo mRNA overexpression was not found in any of the positive leukemia cell lines, but was identified in the drug-resistant subclones of the cervix carcinoma cell line HeLa. Southern blot analysis of restriction enzyme-digested genomic DNA did not provide evidence for gene amplification, but the HeLa subclones showed banding patterns suggestive of gene rearrangement. Two main ufo mRNA bands of 3.2 and 5.0 kb were identified; no differences in the half-lives (t1/2 = 2.5 h) of these two mRNA species could be identified. In summary, ufo, representing a novel type of receptor tyrosine kinase, is expressed solely in myeloid and erythro-megakaryocytic leukemias but not in lymphoid malignancies. These and previous data suggest an involvement of the ufo receptor tyrosine kinase in normal and malignant myelopoiesis; however, its exact role, if any, and mode of operation in leukemogenesis remains to be determined.
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PMID:Differential expression of the ufo/axl oncogene in human leukemia-lymphoma cell lines. 865 72

In this study, we utilized retroviral transfer of cDNA libraries in order to identify oncogenes that are expressed in acute myeloid leukemia (AML). From screens using two different cell types as targets for cellular transformation, a single cDNA encoding a variant of the TrkA protooncogene was isolated. The protein product of this protooncogene, TrkA, is a receptor tyrosine kinase for nerve growth factor. The isolated transforming cDNA encoded a TrkA protein that contains a 75-amino-acid deletion in the extracellular domain of the receptor and was named DeltaTrkA. DeltaTrkA readily transformed fibroblast and epithelial cell lines. The deletion resulted in activation of the tyrosine kinase domain leading to constitutive tyrosine phosphorylation of the protein. Expression of DeltaTrkA in cells led to the constitutive activation of intracellular signaling pathways that include Ras, extracellular signal-regulated kinase/mitogen-activated protein kinase, and Akt. Importantly, DeltaTrkA altered the apoptotic and growth properties of 32D myeloid progenitor cells, suggesting DeltaTrkA may have contributed to the development and/or maintenance of the myeloid leukemia from which it was isolated. Unlike Bcr-Abl, expression of DeltaTrkA did not activate Stat5 in these cells. We have detected expression of DeltaTrkA in the original AML sample by reverse transcriptase PCR and by Western blot analysis. While previous TrkA mutations identified from human tumors involved fusion to other proteins, this report is the initial demonstration that deletions within TrkA may play a role in human cancers. Finally, this report is the first to indicate mutations in TrkA may contribute to leukemogenesis.
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PMID:Identification and characterization of an activating TrkA deletion mutation in acute myeloid leukemia. 1107 67

Somatic mutations of the receptor tyrosine kinase Flt3 consisting of internal tandem duplications (ITD) occur in 20% of patients with acute myeloid leukemia. They are associated with a poor prognosis of the disease. In this study, we characterized the oncogenic potential and signaling properties of Flt3 mutations. We constructed chimeric molecules that consisted of the murine Flt3 backbone and a 510-base pair human Flt3 fragment, which contained either 4 different ITD mutants or the wild-type coding sequence. Flt3 isoforms containing ITD mutations (Flt3-ITD) induced factor-independent growth and resistance to radiation-induced apoptosis in 32D cells. Cells containing Flt3-ITD, but not those containing wild-type Flt3 (Flt3-WT), formed colonies in methylcellulose. Injection of 32D/Flt3-ITD induced rapid development of a leukemia-type disease in syngeneic mice. Flt3-ITD mutations exhibited constitutive autophosphorylation of the immature form of the Flt3 receptor. Analysis of the involved signal transduction pathways revealed that Flt3-ITD only slightly activated the MAP kinases Erk1 and 2 and the protein kinase B (Akt) in the absence of ligand and retained ligand-induced activation of these enzymes. However, Flt3-ITD led to strong factor-independent activation of STAT5. The relative importance of the STAT5 and Ras pathways for ITD-induced colony formation was assessed by transfection of dominant negative (dn) forms of these proteins: transfection of dnSTAT5 inhibited colony formation by 50%. Despite its weak constitutive activation by Flt3-ITD, dnRas also strongly inhibited Flt3-ITD-mediated colony formation. Taken together, Flt3-ITD mutations induce factor-independent growth and leukemogenesis of 32D cells that are mediated by the Ras and STAT5 pathways. (Blood. 2000;96:3907-3914)
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PMID:Flt3 mutations from patients with acute myeloid leukemia induce transformation of 32D cells mediated by the Ras and STAT5 pathways. 1109 77

c-Abl is a non-receptor tyrosine kinase that is activated in human leukemias by the fusion of Bcr or Tel sequences to the Abl NH(2) terminus. Although Bcr and Tel have little in common, both contain oligomerization domains. To determine whether oligomerization alone is sufficient to activate c-Abl, we have generated and characterized an Abl protein that can be activated selectively with the chemical inducer of dimerization, AP1510. Mutant Abl proteins with one (c4F1) or two (c4F2) copies of the AP1510 binding motif (FKBP) transformed NIH 3T3 cells in a ligand-dependent manner with the c4F2 protein 60-fold more potent than c4F1. Both chimeric proteins exhibited ligand-dependent dimerization in vivo, suggesting that the increased transformation efficiency of the c4F2 mutant reflects more effective dimerization rather than formation of higher order oligomers. In the absence of ligand, c4F2-expresssing fibroblasts morphologically reverted and arrested in G(1). In Ba/F3 cells, the c4F2 chimera exhibited ligand-dependent kinase activation, transformation to interleukin 3-independent growth, and relocalization of the fusion protein from nucleus to cytoplasm. These results demonstrate that dimerization alone is sufficient to activate the Abl kinase and provide a method to regulate conditionally c-Abl activity that will be useful for studying the normal physiological role of c-Abl and the mechanism of transformation and leukemogenesis.
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PMID:Activation of c-Abl kinase activity and transformation by a chemical inducer of dimerization. 1132 88

Chronic myelogenous leukemia (CML) is characterized by the Philadelphia (Ph) chromosome and bcr/abl gene rearrangement which occurs in pluripotent hematopoietic progenitor cells expressing the c-kit receptor tyrosine kinase (KIT). To elucidate the biological properties of KIT in CML leukemogenesis, we performed analysis of alterations of the c-kit gene and functional analysis of altered KIT proteins. Gene alterations in the c-kit juxtamembrane domain of 80 CML cases were analyzed by reverse transcriptase and polymerase chain reaction-single strand conformation polymorphism (RT-PCR-SSCP). One case had an abnormality at codon 564 (AAT --> AAG, Asn --> Lys), and six cases had the same base abnormality at codon 541 (ATG --> CTG, Met --> Leu) in the juxtamembrane domain. Because the change from Met to Leu at codon 541 was a conservative one which was also observed in the normal population and normal tissues of CML patients, it probably represents a polymorphic variation. Although samples of hair roots and leukemic cells from the chronic phase of one CML patient showed no abnormality, an abnormality at codon 541 (ATG --> CTG, Met --> Leu) was found only at blastic crisis (BC) of this case. In the case with the abnormality at codon 564, the mutation was detected only in a sample of leukemic cells collected at BC. To examine the biological consequence and biological significance of these abnormalities, murine KIT(L540) and KIT(K563) expression vectors were introduced into interleukin-3 (IL-3)-dependent murine Ba/F3 cells to study their state of tyrosine phosphorylation and their growth rate. Ba/F3 cells expressing KIT(WT), KIT(L540) and KIT(K563) showed dose-dependent tyrosine phosphorylation after treatment with increasing concentrations of recombinant mouse stem cell factor (rmSCF). The cells expressing KIT(L540) and KIT(K563) were found to have greater tyrosine phosphorylation than cells expressing KIT(WT) at 0.1 and 1.0 ng/ml of rmSCF. The Ba/F3 cells expressing KIT(K563) proliferated in response to 0.1 and 1.0 ng/ml of rmSCF as well as IL-3. The Ba/F3 cells expressing KIT(L540)showed a relatively higher proliferative response to 0.1 ng/ml of rmSCF than the response of cells expressing KIT(WT). These mutations and in vitro functional analyses raise the possibility that the KIT abnormalities influence the white blood cell counts (P < 0.05) and survival (P < 0.04) of CML patients.
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PMID:Abnormality of c-kit oncoprotein in certain patients with chronic myelogenous leukemia--potential clinical significance. 1630 17

Defining signals that can support the self-renewal of multipotential hemopoietic progenitor cells (MHPCs) is pertinent to understanding leukemogenesis and may be relevant to developing stem cell-based therapies. Here we define a set of signals, JAK2 plus either c-kit or flt-3, which together can support extensive MHPC self-renewal. Phenotypically and functionally distinct populations of MHPCs were obtained, depending on which receptor tyrosine kinase, c-kit or flt-3, was activated. Self-renewal was abrogated in the absence of STAT5a/b, and in the presence of inhibitors targeting either the mitogen-activated protein kinase or phosphatidylinositol 3' kinase pathways. These findings suggest that a simple two-component signal can drive MHPC self-renewal.
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PMID:JAK2, complemented by a second signal from c-kit or flt-3, triggers extensive self-renewal of primary multipotential hemopoietic cells. 1198 Jul 13

KIT and FMS, members of the class III receptor tyrosine kinase family, are expressed on normal hematopoietic cells and have important roles in normal hematopoiesis. FLT3 is also a member of the class III receptor tyrosine kinase family and plays important role in hematopoietic stem/progenitor cells, NK, and dendritic cells. Recently, internal tandem duplication (ITDs) mutations have been found in the juxtamembrane (JM) region of FLT3 receptor expressed by patients with acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). The mutations result in the constitutive dimerization and activation of the receptor, contributing to leukemic transformation. KIT and FMS are also frequently expressed in AML and are closely related to FLT3. Thus, similar ITD mutations could also occur in the KIT and/or FMS gene of patients with AML. To explore this possibility, 13 human leukemia-lymphoma cell lines and 44 AML patient samples were examined by reverse transcription-polymerase chain reaction (RT-PCR) for the presence of ITD mutations in the JM region of the KIT or FMS receptor. None of the 13 human leukemia-lymphoma cell lines or 44 AML primary bone marrow samples express ITDs in either KIT or FMS in the JM region that is involved in FLT3 mutations. The 13 cell lines and 44 AML samples were also examined for the possible co-expression of KIT and/or FMS receptors with their respective ligands, as we have seen for FLT3 and its ligand, FL. This co-expression could contribute to leukemic transformation through autocrine, paracrine, or intracrine activation mechanisms. And 6/13 cell lines and 27/44 primary AML samples exhibit co-expression of the KIT receptor and ligand (SCF) while 10/13 cell lines and 35/44 primary AML samples exhibit co-expression of the FMS receptor and ligand (CSF-1). Therefore, while ITD mutations were not found, the findings of co-expression of KIT and/or FMS with their respective ligands implies these receptors might contribute to leukemogenesis in some patients with AML through autocrine, paracrine, or intracrine interactive stimulation.
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PMID:Lack of KIT or FMS internal tandem duplications but co-expression with ligands in AML. 1468 12

Oncogenic N-RAS and K-RAS mutations are among the most frequently detected genetic alterations in patients with acute myeloid leukemia (AML). Recently, the role of oncogenic K-ras in leukemogenesis was investigated in a novel mouse model utilizing interferon (IFN)-inducible, Cre-mediated expression of oncogenic K-ras from its endogenous promoter. Conditional expression of oncogenic K-ras from its endogenous promoter in the hematopoietic system induces a lethal myeloproliferative disease in mice, but not AML, indicating that additional mutations are required for AML development. These results are consistent with a model in which the AML phenotype requires at least two cooperating mutations in the hematopoietic progenitor cells: one promoting proliferation and enhanced cell survival (such as oncogenic ras or a constitutively activated receptor tyrosine kinase) and one associated with impaired differentiation and enhanced immortalization (such as loss-of-function mutations in hematopoietic transcription factors). The model system with oncogenic K-ras provides a versatile platform to test the contribution of cooperating mutations in AML, and the efficacy of Ras pathway inhibitors in vivo.
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PMID:Oncogenic K-ras in mouse models of myeloproliferative disease and acute myeloid leukemia. 1502 Aug 45


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