UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of both the c-fos and c-sis protooncogenes during myeloid differentiation has been detected in cells of the monocytic lineage. Since an increase in c-fos transcripts was not detected during dimethylsulfoxide induced HL-60 granulocytic differentiation, it was suggested that within the myeloid series c-fos gene expression might be lineage specific. In the present study, we have determined whether expression of the c-fos and c-sis genes is indeed specific for the monocytic pathway or rather common to both the granulocyte and monocyte pathways. C-fos and c-sis gene expression was analyzed in freshly isolated human granulocytes and monocytes, in human HL-60 promyelocytic leukemia cells induced to differentiate along the granulocytic or monocytic pathway, in myeloblasts from five patients with the M1 or M2 subtype of acute myeloblastic leukemia (AML) and in blasts from six patients with M4 myelomonocytic leukemia. The level of c-fos mRNA was fifteen times higher in granulocytes as compared with monocytes. An increase in c-fos expression was also found in HL-60 cells differentiated along the granulocytic pathway after exposure to hypoxanthine, hexamethylene bisacetamide, and the combination of retinoic acid and dibutyryl adenosine 3'5' cyclic monophosphate. Three of 5 M1 and M2 leukemic myeloblast preparations depleted of lymphoid and monocytic cells and all six M4 leukemic cells expressed c-fos transcripts. In contrast, c-sis gene transcripts were detectable in monocytes and during drug induced monocytic differentiation of the HL-60 cells but not in granulocytes during granulocytic differentiation of the HL-60 cells or in AML samples. Thus, in the myeloid series, c-sis gene expression is lineage specific while expression of the c-fos gene is found in both lineages and may be related to metabolic pathways common to both granulocytes and monocytes.
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PMID:c-sis but not c-fos gene expression is lineage specific in human myeloid cells. 327 63

A cell line with immature blast cell morphology was isolated from HL-60 promyelocytic leukemia cell cultures and designated HL-T. This new cell type is biphenotypic, expressing terminal transferase (TdT) together with myelomonocytoid immunologic features. TdT enzymatic activity, undetectable in HL-60, was determined to be 140 to 180 units/10(8) HL-T cells by the dGTP-assay, approximately 20% of the activity found in lymphoblastoid cell lines. HL-T predominantly synthesize the known 58-kDa TdT-protein plus a minor 54/56-kDa doublet. The 58-kDa steady state form is nonglycosylated and is phosphorylated. Precursor antigens S3.13 and MY-10, absent on HL-60, are expressed by HL-T; however, the cells are negative for HLA-Dr. Southern blot analysis by hybridization with immunoglobulin heavy chain (JH) and T cell-receptor chain gene (T beta) probes shows JH to be in the germ-line configuration in both cell lines and the T beta gene to be in germ-line in HL-60 but to be rearranged in HL-T. Truncation of the gene encoding the granulocyte-macrophage-colony-stimulating factor (GM-CSF), as found in HL-60, is not observed in HL-T. HL-T are resistant to differentiation-induction by retinoic acid and 1,25-dihydroxyvitamin D3. Cytogenetically HL-T share with HL-60 a deletion of the short arm of chromosome 9 at breakpoint p13, an aberration frequently found in patients with T cell leukemia. In addition, HL-T display t(8;9)(p11;p24) and trisomy 20. Tetraploidy is observed in 80% of HL-T metaphases with aberrations identical to those in the diploid karyotype. Like HL-60, the new line shows some surface-antigenic-T cell characteristics. Despite an antigenic pattern most consistent with that of helper-inducer T cells (T4+, D44+/-, 4B4+, 2H4-, TQ1+/-), HL-T cells and their conditioned culture medium suppress antigen, mitogen, and mixed-leukocyte-culture-mediated lymphocyte proliferation.
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PMID:HL-T, a new cell line derived from HL-60 promyelocytic leukemia cell cultures expressing terminal transferase and secreting suppressor activity. 330 49

Purified biosynthetic (recombinant) human granulocyte-macrophage colony-stimulating factor (GM-CSF) enhances antibody-dependent cell-mediated cytotoxicity (ADCC) of human neutrophils toward human promyelocytic leukemia cells (HL-60), B-lymphoma cells, and human T-leukemia virus II-infected human B-lymphoblastoid cells. The stimulation of antibody-dependent cell-mediated cytotoxicity is rapid (less than an hour), occurs at picomolar concentrations of GM-CSF, and does not require the presence of GM-CSF during the killing reaction. Therefore, neutrophils may be targeted toward tumor cells by antibody and their tumoricidal activity enhanced by GM-CSF in vitro. These results suggest that GM-CSF may have therapeutic utility in cancer therapy by increasing the number and activity of effector cells directed toward tumors by receptors to the immunoglobulin Fc fragment.
Leukemia 1987 Aug
PMID:Biosynthetic granulocyte-macrophage colony-stimulating factor enhances neutrophil cytotoxicity toward human leukemia cells. 331 47

Terminal cell differentiation usually results in an irreversible arrest in the G1 phase of the cell cycle and loss of cell renewal ability. Human promyelocytic leukemia HL-60 cells induced with 12-o-tetradecanoylphorbol-13-acetate (TPA) differentiate into monocytes/macrophages and accumulate in G1. We determined the effect of TPA on the growth kinetics of a human leukemia cell line (KOPM-28), which developed several of the characteristics of megakaryocytes in response to TPA, such as the surface antigen complex IIb/IIIa, platelet peroxidase and polyploidy. Cell growth was immediately and completely inhibited by TPA. Flow cytometric analysis of cellular DNA content revealed a gradual decrease in cells in G1 and an accumulation of cells in G2. These data suggest that TPA prolonged G1 and rapidly arrested the cells in G2. Synchronized cells were utilized to further analyze the rapid G2 arrest. Cells arrested with aphidicolin at the G1/S interphase were released, and the effects of TPA (added at different intervals) on cell cycle progression were examined 14 h after release. The results showed that TPA added at the end of the S phase, as well as at the G1/S interphase incompletely but distinctly arrested cells in G2. Moreover, G2 arrest was observed when TPA was added to cells released from a colcemid-induced G2/M block, suggesting that cells already in G2 were inhibited by TPA from moving through M to G1. Since some cells became multi-nucleated in the course of incubation with TPA, this G2 accumulation may have resulted at least in part from a prolongation of the phase or a transient G2 block. These changes in cell cycle progression induced by TPA may be characteristic of and/or related to megakaryocytic differentiation of hemopoietic precursor cells.
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PMID:Alteration of cell cycle progression in human leukemia cell line (KOPM-28) induced by 12-o-tetradecanoylphorbol-13-acetate. 339 93

The sensitivity of human leukemia K562 cells to cancer chemotherapeutic drugs during induction of erythroid differentiation of the cells by hemin was examined. Treatment with hemin greatly increased the sensitivity of the cells to 1-beta-D-arabinofuranosylcytosine (ara-C) but did not affect their sensitivities to other chemotherapeutic drugs, including Adriamycin, daunomycin, hydroxyurea, methotrexate, and vincristine. Thymidine and deoxyguanosine, which are known to potentiate the antileukemic effects of ara-C in K562 cells, also induced erythroid differentiation of K562 cells, but other inducers, such as sodium butyrate and delta-aminolevulinic acid, did not increase the sensitivity of K562 cells to ara-C. Hemin did not enhance the sensitivity to ara-C of other leukemia cell lines (Friend erythroleukemic cells, myeloid leukemic M1 cells, and promyelocytic leukemia HL-60 cells). These results indicate that some inducers of erythroid differentiation of K562 cells potentiate the antileukemic effect of ara-C on K562 cells.
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PMID:Enhancement by hemin of the sensitivity of K562 human leukemic cells to 1-beta-D-arabinofuranosylcytosine. 345 82

It has been found that leukemia cells can be induced by various agents [e.g., by retinoic acid (RA)] to mature to a nonproliferative end stage. It has also been found that normal mature granulocytes produce a chalone-like "hemoregulatory peptide (HP)" which seems to be involved in the inhibitory proliferation control of myelopoietic cells. In view of the intended use of maturation induction treatment as an alternative to current antileukemic therapy it appeared to be of interest to know if granulocytes, obtained by RA treatment of the promyelocytic leukemia cell line HL-60, would produce normal HP or if their transformed phenotype would cause production of deviant regulatory peptide(s). It was found that conditioned media from RA-treated HL-60 cells inhibited myeloid proliferation but strongly stimulated the growth of erythroid and lymphoid cells. A low molecular weight thiol-containing peptide was isolated which inhibited colony formation by normal granulocyte-macrophage committed stem cells but unlike HP had no effect on (untreated) HL-60 cells themselves. It was also shown that the HL-60 RA peptide is chemically different from HP in terms of molecular size, electrophoretic mobility, composition, and NH2-terminal sequence, which was determined as glutamine-aspartic acid-proline. It is concluded that differentiated HL-60 cells produce hemoregulatory factor(s) with properties different from those of normal HP. The implication of a possible abnormal regulatory behavior of induced leukemic populations is discussed with respect to leukemia therapy by differentiation induction.
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PMID:Identification of a regulatory peptide distinct from normal granulocyte-derived hemoregulatory peptide produced by human promyelocytic HL-60 leukemia cells after differentiation induction with retinoic acid. 346 Jun 96

Leukemia is characterized by a proliferation of cells that exhibit an arrest in the normal differentiation sequence. The HL-60 promyelocytic leukemia is a useful model of the phenomenon of maturation arrest, particularly as modulated by inducers that partially restore myeloid differentiation. In this investigation, we report the development of two sublines of HL-60 and the acquisition of two others that are clonal variants of the parent cell line. Each of the sublines demonstrates an altered pattern of differentiation and resistance to one or more of the drugs that serves as an inducer of the parent line. The two cell lines developed in this study, HL-60S and HL-60I, are resistant to arabinosylcytocine (ARA-c); HL-60I is also resistant to PMA. A study of the phenotype as expressed by the granule-associated cytoplasmic enzymes revealed that each subline had a slightly different pattern of maturation in response to dimethylsulfoxide (DMSO) or ARA-c as inducers. The proliferative rate of all sublines was similar. These data demonstrate that the maturation arrest observed in this model is in part reversible. The maturation arrest observed in myeloid leukemias is due to a reversible block secondary to altered proliferative activity.
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PMID:Leukemic cell maturation: variability of the myeloid leukemic cell phenotype. 346 56

Platelet-derived growth factor (PDGF) is one of the most important polypeptide growth factors in human serum. It is composed of two polypeptide chains linked by disulfide bonds. The B-chain is encoded by the c-sis proto-oncogene, which is expressed in several malignant and non-malignant cells including K562 cells differentiating towards megakaryoblasts. Expression of the A-chain has been reported to occur in human solid tumor cell lines independently of c-sis expression. We report here the non-coordinate expression of the A- and B-chains in human leukemia cell lines. The PDGF-A and B-chain (c-sis) RNA expression as well as secretion of PDGF polypeptides are induced in the K562 cell line upon induction of megakaryoblastic differentiation with 12-O-tetradecanoyl phorbol-13-acetate (TPA) whereas erythroid differentiation induced with sodium butyrate is accompanied by c-sis expression only. Simultaneously with megakaryoblastic differentiation the RNA level for another platelet protein, the transforming growth factor-beta was also increased, but in a complex manner. The promyelocytic leukemia cell line HL-60 does not express PDGF-A RNA, whereas the promonocytic cell line U937 does. Preferential induction of the A-chain RNA is obtained in both cell lines after treatment with TPA which causes monocytic differentiation. PDGF-A expression in HL-60 cells is also observed after treatment with the tumor necrosis factor-alpha but granulocytic differentiation of HL-60 cells induced with dimethyl sulfoxide or the granulocyte colony-stimulating factor is not associated with PDGF gene expression.
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PMID:Induction of platelet-derived growth factor gene expression during megakaryoblastic and monocytic differentiation of human leukemia cell lines. 347 2

Recently, a novel approach has been used in the treatment of leukemia: induction of the leukemic cells to undergo terminal differentiation. Based on its in vitro ability to induce differentiation in several myeloid leukemic cell lines, retinoic acid (RA) has been applied clinically in cases of myelodysplastic syndromes and acute myeloid and promyelocytic leukemia. In the present study we have determined in detail the ability of RA to induce expression of granulocytic functions in a human promyelocytic leukemia cell line (HL-60) and compared it with that of dimethylsulfoxide (DMSO). Several granulocytic characteristics (phagocytosis, surface adherence and generation of free radicals in response to phorbol-ester) were induced to the same degree by both agents. Other normal neutrophil functions, including lysozyme accumulation, spontaneous migration, chemotactic activity toward zymosan-activated serum (containing C5a), the peptide N-formyl-methionyl-leucyl-phenylalanine (FMLP) and spontaneous motility in semi-solid medium were induced by DMSO, but they were absent or incompletely expressed in RA-induced cells. In contrast, only RA induced migration toward leukotriene B4 (LTB4). Simultaneous treatment with RA and DMSO proved synergistic with respect to morphological maturation and several functions (e.g. NBT reduction), but complementary stimulation of other activities (e.g. chemotaxis, lysozyme content) could not be demonstrated. Furthermore, characteristics induced by DMSO (i.e., expression of C5a and FMLP receptors and accumulation of lysozyme) were inhibited by the addition of RA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of granulocytic functions by leukemic promyelocytic HL-60 cells: differential induction by dimethylsulfoxide and retinoic acid. 347 6

The feasibility of using retroviral gene therapy to overcome drug resistance was assessed by determining the efficiency by which a retrovirus containing the human HGPRT gene could sensitize hypoxanthine-guanine phosphoribosyltransferase (HGPRT) negative human promyelocytic leukemia cells to 6-thioguanine. A single three-hour exposure at a virus to cell ratio of 6 X 2:1 restored sensitivity to 70(+/- 18)% of the clonogenic cells. The efficacy varied as a function of virus concentration and duration of viral exposure; the time allowed for integration and expression between one and five days post-infection had little effect. Cells successfully sensitized contained a proviral insert and expressed HGPRT activity that ranged from 1 to 92% of that in the wild-type cells. The mutation rate of the inserted gene varied from the same as that of the endogenous HGPRT gene to 200-fold greater in different clones. Failure of sensitization following viral exposure was associated with absence of an integrated provirus, and clonogenic cells failing to be sensitized by one virus exposure were sensitized with approximately the same efficiency by a second viral exposure. These results demonstrate the feasibility of transferring a drug sensitivity gene to a human leukemia cell line.
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PMID:Gene therapy for thioguanine-resistant human leukemia. 347 17

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