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)

Twenty-seven novel nucleobases and nucleosides were synthesized by structural modification of uracil, and their effects on growth and differentiation of human myeloid leukemia HL-60 cells were examined. Some of the compounds inhibited the growth of HL-60 effectively. The nitroblue tetrazolium (NBT)-reducing activities of cells treated with the concentrations of these compounds for 50% inhibition of growth were compared. TI-66 (2,4-dibenzyl-6-fluoro-7,7,8,8-tetramethyl-cis-2,4-diazabicyclo-[4.2.0] octane-3,5-dione) was the most effective inducer of NBT-reducing activity and morphological differentiation of HL-60 cells into cells of the myelomonocytic lineage. TI-66 was also effective for induction of differentiation of another human myelogenous leukemia cell line, ML-1 cells, but not for differentiation of human erythroid leukemia K562 or HEL cells, or monocytic U937 cells. The effect of TI-66 in inducing differentiation of HL-60 cells was additive or more than additive in combination with retinoic acid or vitamin D3. Adenine or hypoxanthine alone induced NBT-reducing activity of the cells, and at suboptimal concentrations these compounds enhanced the effect of TI-66, but the enhanced NBT-reducing activities did not exceed the maximal activity induced by TI-66 alone. Simultaneous treatment of HL-60 cells with hypoxanthine reduced the growth inhibition by TI-66 alone. TI-66 was about 150 times more potent on a molar basis than adenine in inducing differentiation of HL-60 cells. These results suggest that nucleobase analogs such as TI-66 should be useful for differentiation therapy of some types of myelogenous leukemia.
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PMID:Effects of novel uracil analogs on proliferation and differentiation of human myeloid leukemia cells. 132 Oct 51

The production of interleukin 1 (IL-1) by lipopolysaccharide (LPS)-stimulated myelomonocytic cell lines ML-1, THP-1 and PL-21 was significantly enhanced by the addition of insulin, insulin-like growth factor (IGF)-I or IGF-II into the cell cultures. The IL-1 activity in the supernatants from cell cultures stimulated with LPS and insulin was completely neutralized by anti-IL-1 beta antibody. Anti-IL-1 alpha antibody had no inhibitory effect. Insulin itself did not stimulate IL-1 beta production directly, but increased it in the mitogen activated cells. However, insulin had no enhancing effect on the production of IL-1 alpha by human T cell lymphotropic virus-I (HTLV-I)-infected T cell lines or on IL-2 production by mitogen-stimulated leukemia T cell lines. Thus, insulin and its related cytokines are shown here as other molecules selectively modulating the production of IL-1 beta in myelomonocytic cell lines.
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PMID:Selective enhancement of interleukin 1 beta production in myelomonocytic cell lines by insulin and its related cytokines. 148 10

N-Trifluoroacetyladriamycin-14-valerate (AD 32), a lipophilic, DNA non-binding analog of Adriamycin (ADR), was found to be a potent inhibitor of the membrane-bound enzyme, protein kinase C (PKC). PKC was isolated and purified from human leukemia ML-1 cells, and the enzyme activity was shown to be activated by the tumor promoters 12-O-tetradecanoylphorbol-13-acetate (TPA) and phorbol-12,13-dibutyrate (PDBu). AD 32, nevertheless, inhibited the activation of PKC by TPA or PDBu. The IC50 values for AD 32 inhibition of PKC activation were 0.85 microM for TPA and 1.25 microM for PDBu. Under the same assay conditions, ADR demonstrated much higher IC50 values: 550 microM for TPA and greater than 350 microM for PDBu. The inhibition of PKC by AD 32 was further shown to be competitive in nature; AD 32 inhibited the binding of [3H]PDBu to PKC. Therefore, AD 32 competes with the tumor promoter for the PKC binding site and prevents the latter from both interacting with the phospholipid and binding to PKC. These effects of AD 32 were reproduced in situ; incubation of human leukemia ML-1 cells with TPA showed an increased phosphorylation of cellular proteins, and the TPA-induced protein phosphorylation was inhibited by the addition of AD 32 to the cultured cells.
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PMID:Activation of human leukemia protein kinase C by tumor promoters and its inhibition by N-trifluoroacetyladriamycin-14-valerate (AD 32). 154 Feb 40

Human myeloblastic leukemia cell line ML-1 was induced to differentiate by 1 mumol/l all-trans-retinoic acid (RA) or by 1,25-dihydroxyvitamin D3 (1,25(OH)2D3). After 4-6 days of the induction several differentiation-associated characteristics were observed: (1) Ability to stimulate respiration burst in the ML-1 induced cells as detected by nitroblue tetrazolium (NBT) test or by chemiluminescence (CL). (The percentage of the NBT-positive cells was up to 99% in the RA-induced cells and up to 85% in the 1,25(OH)2D3-induced cells.) (2) Substantially higher phagocytosis of colloid iron, latex or Staphylococcus particles was found in the induced cells. (3) The 1,25(OH)2D3-induced ML-1 cells expressed the monocytic enzyme NaF-inhibitable alpha-naphthyl butyrate esterase and the surface monocytic antigen CD-14. (4) A majority of the induced cells lost the morphological features of blast cells; while the 1,25(OH)2D3-treated cells acquired certain features of monocyte-macrophage differentiation, the RA-treated cells displayed several granulocytic characteristics. (5) Cytofluorometric DNA assay after treatment of the cells with colcemid showed that the decline observed in the growth rate of the induced cells was connected with their arrest in G1/G0 phase of the cell cycle. The obtained results indicate granulocytic differentiation of the RA-induced ML-1 cells and monocyto/macrophage differentiation of the 1,25-(OH)2-D3 induced cells.
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PMID:Differentiation of human myeloid leukemia cell line ML-1 induced by retinoic acid and 1,25-dihydroxyvitamin D3. 170 Mar 13

The effects of combinations of interferons (IFNs) and cAMP-inducing agents on the induction of differentiation of human monocytic leukemia U-937 cells were examined. IFN-gamma induced nitro blue tetrazolium (NBT) reducing activity of U-937 cells in a dose-dependent manner, while cAMP-inducing agents such as cholera toxin, prostaglandin E1, forskolin, and isoproterenol only marginally induced NBT reducing activity. However, they all synergistically increased IFN-gamma induction of NBT reducing activity. Cholera toxin was the most potent of the cAMP-inducing agents. Combination effects of IFN-gamma and cholera toxin on other differentiation-associated markers of alpha-naphthyl acetate esterase activity, morphological maturation, Fc receptors, and surface phenotype were also observed. IFN-alpha and -beta, either alone or in combination with cAMP-inducing agents, did not induce NBT reducing activity. IFN-gamma and cholera toxin also synergistically induced differentiation-associated markers in another human monocytic leukemia cell line, THP-1, and a human myeloblastic leukemia cell line, ML-1. These results suggest that cAMP/A-kinase may be an important but insufficient signal for the maturation process of myelogenous leukemia cells.
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PMID:Enhancement of interferon-gamma-induced differentiation of human monoblastic leukemia U-937 cells by cAMP-inducing agents. 170 96

To elucidate the differentiation-associated expression of enzymes catalyzing arachidonic acid metabolism, we measured arachidonate metabolites by reverse-phase high pressure liquid chromatography in monocytoid leukemia (ML-1, THP-1, and U937) and myeloid leukemia (KG-1) cell lines. Undifferentiated ML-1 or THP-1 cells produced trace amounts of eicosanoids via the cyclooxygenase (COX) and lipoxygenase (LOX) pathways. Upon differentiation induced by phorbol ester (phorbol 12-myristate 13-acetate [PMA]), metabolites via the COX pathway were increased by 100-fold in ML-1 and THP-1 cells, while the LOX products remained barely detectable. All the COX metabolites were elevated, but thromboxane A2 (TXA2) formation was threefold higher in ML-1 cells than in THP-1 cells. Similar time-related increases in COX metabolites were observed in THP-1 cells induced to differentiate with retinoic acid. Undifferentiated U937 cells were capable of generating a much higher quantity of COX products than ML-1 or THP-1 cells, but, upon PMA-induced differentiation, COX products were increased by only two-fold to threefold over the undifferentiated cells and the total COX products in differentiated U937 cells were only one-seventh of those produced by differentiated ML-1 or THP-1 cells. KG-1 cells had an entirely different metabolic profile. They produced a large quantity of a metabolite coeluted with prostaglandin D2, and PMA had no effect on inducing changes in arachidonic acid (AA) metabolism. Increased COX metabolite formation in differentiated THP-1 and ML-1 cells was due to an enhanced level of prostaglandin H synthase enzyme mass, as measured by Western blot analysis. The TXA synthase activity was also increased by approximately 100-fold in PMA-induced ML-1 cells and 10-fold in THP-1 cells. These findings indicate that increased expression of prostaglandin H and TXA synthase enzymes is a feature of differentiated monocytoid leukemia cell lines.
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PMID:Differentiation-associated expression of prostaglandin H and thromboxane A synthases in monocytoid leukemia cell lines. 174 85

Cremophor EL, a polyloxyethylene castor oil derivative used clinically as a parenteral vehicle, inhibits protein kinase c activity in vitro. The tumor promoting agent TPA (12-0-tetradecanoylphorbol-13-acetate) activated protein kinase C and induced phosphorylation of cellular proteins of human myeloblastic leukemia ML-1 cells. Polypeptides of 56 KDa, 44 KDa, 37 KDa, 35 KDa and 31 KDa were particularly phosphorylated in response to TPA activation. However, the phosphorylations of these polypeptides, especially that of 37 KDa, were greatly reduced by treatment of the TPA-activated ML-1 cells with Cremophor EL. Cremophor EL also inhibited the growth of ML-1 cells. On the other hand, the TPA-induced cell differentiation in ML-1, which is considered a separate event from protein kinase C activation, was not affected by Cremophor EL. These studies suggest biological implications for the observed in vitro activity of Cremophor EL. The studies may also provide a mechanism for the Cremophor EL-associated cytotoxicities observed when it is used clinically as a parenteral vehicle.
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PMID:Cremophor EL inhibits 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced protein phosphorylation in human myeloblastic leukemia ML-1 cells. 174 8

Expression of the ras proto-oncogene mRNA in human myeloblastic leukemia (ML-1) cells was analyzed as a function of cDNA amplification by polymerase chain reaction (PCR). By using a pair of oligonucleotides that flank exon-2 from opposite strands (5' and 3') of H-ras cDNA for PCR amplification, ML-1 cells were found to express a 112 bp segment of the ras transcript. A rapid decline in the expression of this transcript was seen in cells treated with heptachlor, a chlorinated hydrocarbon insecticide. Expression of the same ras segment was not affected by treatment of ML-1 with the tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA). Furthermore, addition of serum to quiescent, heptachlor-treated cultures of ML-1 cells inhibited the effect of heptachlor and restored the expression of the ras protooncogene mRNA.
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PMID:The effect of the insecticide heptachlor on ras proto-oncogene expression in human myeloblastic leukemia (ML-1) cells. 177 36

Transfection of the wild-type p53 gene into malignant cell lines usually results in an inhibition of proliferation. However, the physiological function of the endogenous p53 gene product has been difficult to ascertain. In order to examine whether p53 is involved in the regulation of proliferation and/or differentiation of hematopoietic tissue, we modified a recently developed flow cytometric assay to assess p53 protein expression in normal human hematopoietic cells, primary leukemias, and selected leukemia cell lines. In normal human bone marrow, p53 protein was not detected in the proliferative, progenitor cell populations identified by the cell surface antigens CD34 (progenitor cells of multiple lineages) or glycophorin (erythroid precursors). In contrast, low but detectable levels of p53 protein were observed in the nonproliferative, mature lymphoid, granulocytic, and monocytic cell populations. Similarly, p53 levels increased and DNA synthesis decreased during 12-O-tetradecanoylphorbol-13-acetate-induced differentiation of ML-1 myeloblastic leukemia cells. Both of these results suggest that endogenous, wild-type p53 protein may play a role in hematopoietic cell maturation, possibly by contributing to the inhibition of proliferation that occurs during terminal differentiation. Leukemia cells deviated from this pattern of expression: (a) in contrast to the normal, proliferative bone marrow progenitor cells, a significant percentage of patient leukemia samples expressed detectable levels of p53 protein; and (b) leukemia cell lines exhibited lineage-specific abnormalities in p53 expression, with overexpression in lymphoid cell lines and lack of expression in myeloid cell lines.
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PMID:Levels of p53 protein increase with maturation in human hematopoietic cells. 186 48

We have previously demonstrated (Guan X.-P., Hromchak, R. A., and Bloch, A. (1989) Cancer Commun. 1, 111-115) that ML-1 human myeloblastic leukemia cells differentiate to monocyte/macrophage-like cells by the sequential action of competence and progression factors. Tumor necrosis factor-alpha, transforming growth factor-beta, and the phorbol ester tetradecanoylphorbol acetate were found to induce competence, whereas a 77-kDa glycoprotein (DF77) isolated from mitogen-stimulated human leukocyte-conditioned medium initiated progression. In this communication we show DF77 to be an isoform of human transferrin. Hemin or soluble iron complexes did not induce differentiation progression, suggesting that the participation of transferrin in ML-1 cell differentiation may not be related to its iron-carrying capacity.
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PMID:Identification of transferrin as a progression factor for ML-1 human myeloblastic leukemia cell differentiation. 186 25

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