KEGG:D02003 - FACTA Search

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Query: KEGG:D02003 (NBT)
1,323 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of cytokines on the proliferation and differentiation of leukemia cells from 5 patients with acute promyelocytic leukemia (APL) was examined. Interleukin-1 beta (IL-1), interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF) and granulocyte colony-stimulating factor (G-CSF) augmented uptake of 3H-thymidine into the DNA of APL cells in a dose-dependent manner in all cases. This stimulatory effect was pronounced in some, but not all, cells treated with all-trans retinoic acid (ATRA). However, nitroblue tetrazolium-reducing activity was induced in a concentration-dependent manner by ATRA in all cases. The cytokines greatly enhanced NBT reduction of APL cells treated with ATRA, and a mixture of cytokines was more effective than a single cytokine. Although GM-CSF, IL-3 and IL-1 significantly modulated the ATRA-induced morphological changes, they did not induce CD14 expression, a typical marker of monocytic differentiation. In the presence of ATRA, GM-CSF potentiated production and secretion of tumor necrosis factor-alpha (TNF) in response to lipopolysaccharide, as well as interferon-gamma which is a potent inducer of monocytic differentiation in APL cells. On the other hand, production of TNF in ATRA-treated cells was not affected by G-CSF which significantly enhanced granulocytic differentiation. The effect of cytokines on APL cell differentiation should be considered in ATRA treatment for APL patients. Potentiation of cytokine production in APL cells associated with myelomonocytic differentiation is noteworthy in the pathogenesis of "retinoic acid syndrome".
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PMID:Effect of cytokines on the proliferation and differentiation of acute promyelocytic leukemia cells: possible relationship to the development of "retinoic acid syndrome". 752 Nov 52

Recent studies have shown that a high proportion of patients with acute promyelocytic leukemia (APL) achieve complete remission after treatment with all-trans retinoic acid (RA). Nevertheless, despite an initial good response, most patients that received continuous treatment with all-trans RA relapse and develop RA-resistant disease. The 9-cis RA is a high-affinity ligand for retinoid X receptors (RXRs) and also binds efficiently to retinoic acid receptors (RARs); all-trans RA is a ligand for RARs. Both alone are able to induce differentiation of wild-type HL-60 cells. We found that neither all-trans RA nor 9-cis RA (< 2 x 10(-6) mol/L) induced differentiation of RA-resistant HL-60 cells into either mature granulocytes or monocytes. However, morphologic differentiation of the RA-resistant HL-60 cells was induced by 10(-6) mol/L all-trans RA combined with various concentrations (10(-12) to 10(-6) mol/L) of 9-cis RA. Electron microscopic examination also confirmed that the combination of both retinoids induced RA-resistant HL-60 cells to differentiate to mature granulocytes. Functional analysis of differentiation (NBT reduction activity) confirmed the necessity of both analogs to induce differentiation. Also, expression of myeloid-specific differentiation antigens (CD11b and CD14) as well as migration inhibitory factor-related protein (MRP)-8/14 mRNAs were upregulated only in the presence of both retinoids in a dose-dependent manner. In these conditions 3H-thymidine incorporation was inhibited and numbers of viable cells were decreased, suggesting that all-trans RA with 9-cis RA may inhibit cell growth and induce differentiation of RA-resistant HL-60 cells into mature granulocytes. These studies suggest that 9-cis RA in combination with all-trans RA is an effective inducer of RA-resistant HL-60 cells and may have implications for both the biology of retinoids and clinical treatment of RA-resistant acute myelogenous leukemia, including APL patients.
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PMID:Novel retinoic acid, 9-cis retinoic acid, in combination with all-trans retinoic acid is an effective inducer of differentiation of retinoic acid-resistant HL-60 cells. 819 64

Since arsenic compounds reportedly induced complete remission in patients with acute promyelocytic leukemia (APL) in China, we studied the in vitro effect of metal ions including As3+, As5+, Cd2+, Ga3+, Ge4+, Hg2+, Se4+, and Zn2+ on myeloid cell lines. One-tenth microM As3+ caused growth suppression and morphological changes resembling differentiation in NB4 cells, but did not induce the maturation-markers, CD11b, CD14 and NBT-reductase. More than 1 microM As3+ caused the time- and dose-dependent apoptosis of NB4 cells. Other metal ions at the same concentrations induced neither morphological changes nor apoptosis in myeloid cell lines including NB4, whereas Cd2+, Ga3+, and Hg2+ induced moderate and non-specific growth suppression. All-trans retinoic acid (ATRA)-resistant NB4 cells were similarly sensitive to As3+. Among the clinical leukemia samples, As3+ was selectively toxic to APL cells regardless of ATRA-sensitivity. These findings suggest that APL cells are sensitive to As3+, and that As3+ acts on APL cells via a different pathway than ATRA.
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PMID:Toxic effects of arsenic (As3+) and other metal ions on acute promyelocytic leukemia cells. 907 24

Inosine-5'-monophosphate (IMP) dehydrogenase catalyzes the rate-limiting reaction of guanine nucleotide biosynthesis and has been implicated in the reaction of cell growth and differentiation. We examined the ability of mizoribine, an IMP dehydrogenase inhibitor, to induce differentiation in HL-60 and U937 cells as well as in fresh leukemic blast cells from patients with non-lymphocytic leukemia. Treatment with mizoribine reduced intracellular GTP levels and induced morphologic and functional differentiation in these two cell lines in a dose-dependent manner. HL-60 and U937 cells developed polymorphic nuclei and macrophage-like cytoplasm, respectively, as well as expression of CD11b and CD14 antigens and the ability to oxidize NBT. These changes became evident when intracellular GTP levels decreased to approximately 30% of untreated controls and were abrogated by addition of guanosine to the media. However, in fresh leukemic cells, the cells showing maturation in response to mizoribine were limited in those derived from two of ten patients having non-lymphocytic leukemia. These findings suggest mizoribine could induce differentiation in HL-60 and U937 cells through a decrease of intracellular GTP levels. Further study is required to determine its clinical use in patients with acute non-lymphocytic leukemia.
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PMID:Differentiation induction in non-lymphocytic leukemia cells upon treatment with mizoribine. 940 Dec 79

A stable HL60 subline having the potential for monocytic differentiation was established by use of GM-CSF. HL60, a human promyelocytic cell line, has frequently been employed for research in the fields of monocytic differentiation and atherosclerosis because of its potential to differentiate into either granulocytes or monocytes. However, HL60 are frequently seen to change their phenotype during long-term culture. To date, many sublines or variants of HL60 cells have been established. However, most of them display diminished or complete loss of activities that characterize parental cells. The present study was conducted to establish a stable HL60 subline with the potential for monocytic differentiation. Firstly, a single HL60 cell was isolated by limiting dilution, and was successfully proliferated by incubation with GM-CSF. Secondly, from this population, cells were selected that had the ability to generate superoxide after VD-induced monocytic differentiation. Cells obtained in this manner (designated HL60/DU-1) exhibited expression of CD14 and CD11b and suppression of CD3 expression after monocytic differentiation. NBT positivity showed a consistent level of over 971% after a 6-day challenge with VD throughout the experimental period of 12 months. HL60/DU-1 cells, which were cryopreserved in liquid nitrogen for 6 months, thawed and re-cultured, exhibited over 97% NBT positivity. Carvedilol and probucol, which exhibit antioxidative activity, inhibited superoxide release from the differentiated HL60/DU-1 cells. HL60/DU-1 cell line is a promising model for the study of monocytic differentiation and the effects of oxygen radicals.
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PMID:Establishment of a stable HL60 subline having the potential for monocytic differentiation using granulocyte-macrophage colony-stimulating factor: possible use for the study of monocytic differentiation and oxidative stress. 971 36

A novel aminosteroid, 2beta-(4'-methyl-1'piperazinyl)-3alpha,17beta-dihydroxyl+ ++-5alpha-androstane (HY), was found to inhibit proliferation of HL-60 leukemia cells and induce these cells to differentiate toward macrophage-like cells from the following evidence. (1) It inhibited HL-60 cell proliferation by cell counts, colony counts and MTT assay; (2) It caused morphological changes toward macrophage-like cells after culture for 6 days; (3) It induced NBT reduction activity; (4) It induced alpha-naphthyl acetate esterase activity and (5) it induced CD11b and CD14 expression indicated by flow cytometry analysis. There is potential for this novel aminosteroid in the treatment of myeloid leukemia.
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PMID:A novel aminosteroid is active for proliferation inhibition and differentiation induction of human acute myeloid leukemia HL-60 cells. 1022 23

Recent studies showed that arsenic trioxide (As2O3) could induce apoptosis and partial differentiation of leukemic promyelocytes. Here, we addressed the possible mechanisms underlying these two different effects. 1.0 microM As2O3-induced apoptosis was associated with condensation of the mitochondrial matrix, disruption of mitochondrial transmembrane potentials (DeltaPsim) and activation of caspase-3 in acute promyelocytic leukemia (APL) cells regardless of their sensitivity to all-trans retinoic acid (ATRA). All these effects were inhibited by dithiothreitol (DTT) and enhanced by buthionine sulfoximine (BSO). Furthermore, BSO could also render HL60 and U937 cells, which had the higher cellular catalase activity, sensitive to As2O3-induced apoptosis. Surprisingly, 1.0 microM As2O3 did not induce the DeltaPsim collapse and apoptosis, while 0.1 microM As2O3 induced partial differentiation of fresh BM cells from a de novo APL patient. In this study, we also showed that 0.2 mM DTT did not block low-dose As2O3-induced NB4 cell differentiation, and 0. 10.5 microM As2O3 did not induce differentiation of ATRA-resistant NB4-derived sublines, which were confirmed by cytomorphology, expression of CD11b, CD33 and CD14 as well as NBT reduction. Another interesting finding was that 0.10.5 microM As2O3 could also induce differentiation-related changes in ATRA-sensitive HL60 cells. However, the differentiation-inducing effect could not be seen in ATRA-resistant HL60 sublines with RARalpha mutation. Moreover, low-dose As2O3 and ATRA yielded similar gene expression profiles in APL cells. These results encouraged us to hypothesize that As2O3 induces APL cell differentiation through direct or indirect activation of retinoic acid receptor-related signaling pathway(s), while DeltaPsim collapse is the common mechanism of As2O3-induced apoptosis.
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PMID:Arsenic trioxide-induced apoptosis and differentiation are associated respectively with mitochondrial transmembrane potential collapse and retinoic acid signaling pathways in acute promyelocytic leukemia. 1067 43

The regulatory role of MEF2 (myocyte enhancer binding factor 2) proteins in nonmuscle tissues has not been well characterized. We examined the expression of MEF2 family members, namely, MEF2A, -B, -C, and -D, in the differentiation of HL60 promyeloid cells and observed the remarkable increase in the expressions of MEF2A and MEF2D proteins during the differentiation process into monocytes. To examine the role of MEF2, we expressed a dominant-negative form of MEF2D, without its transactivation domain, in HL60 cells. When the HL60 cell line expressing the mutant MEF2D was induced to differentiate by VitD(3) treatment, cell surface expression of CD14 and the ability to reduce NBT, which are important characteristics of differentiated monocytes, were significantly decreased compared with control HL60 cells. These results show that MEF2D is required in the differentiation process along the monocyte/macrophage lineage,
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PMID:Requirement of MEF2D in the induced differentiation of HL60 promyeloid cells. 1068 60

Water-soluble chitosan oligomer (WSCO) has been reported to have anticancer activity, immuno-enhancing effect and antimicrobial activity. However, other biological activities are unknown. Herein, we have shown that WSCO is able to inhibit proliferation of human leukemia HL-60 cells and induce these cells to differentiate. Treatment with WSCO for 4 days resulted in a concentration-dependent reduction in HL-60 cell growth as measured by cell counting and MTT assay. This effect was accompanied by a marked increase in the proportion of G(0)/G(1) cells as measured by flow cytometry. WSCO also induced differentiation of the cells as measured by phorbol ester-dependent reduction of NBT, morphological changes as examined by Wright-Giemsa staining and expression of CD11b but not of CD14 as analysed by flow cytometry, indicating differentiation of HL-60 cells toward granulocyte-like cells. A combination of low dose of WSCO with all-trans retinoic acid, a differentiating agent toward granulocyte-like cells, exhibited a synergistic effect on the differentiation. In addition, treatment of HL-60 cells with WSCO for 6 or 8 days resulted in the induction of apoptosis as assayed qualitatively by agarose gel electrophoresis and quantitatively by Annexin V technique using flow cytometry. Collectively, there is a potential for WSCO in the treatment of myeloid leukemia.
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PMID:Induction of granulocytic differentiation in acute promyelocytic leukemia cells (HL-60) by water-soluble chitosan oligomer. 1124 31

Betulinic acid (BA) is a pentacyclic triterpene found in a number of medicinal plants and has been shown to cause apoptosis in a number of cell lines. We report here that BA may also have an effect on HL-60 cell differentiation. BA was cytotoxic to HL-60 cells with an IC50 of 5.7 microM after a 72-h treatment. Flow cytometry analysis showed that after exposure to 1-12 microM of BA for 72 h, approximately 10% of viable cells were in the sub-G1, presumably apoptotic, phase. At the same time differentiation was induced in approximately 10% (at 1 microM BA) to a maximum of 20% (at 6 microM BA) of cells as judged by the NBT-reduction test, and the expression of membrane markers CD11b and CD14. On the other hand, at 1 and 5 nM, 1alpha,25-dihydroxyvitamin D3 (DHD3) induced differentiation in approximately 10 and 70% of cells, respectively. At 1 nM DHD3, the addition of 1 microM BA increased differentiated cells from 10 to 43% and with 3 microM BA the increase was to 80%. BA also enhanced the effects of DHD3 in the expansion of the G1 cell population with a concomitant decrease of S phase cells. The effects of DHD3 and BA on CD11b and CD14 expression were inhibited by PD98059, a MEK inhibitor. Our results suggest that BA may enhance the effect of DHD3 in inducing mitogen-activated protein kinase kinase/extracellular signal-regulated protein kinase-mediated HL-60 cell differentiation.
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PMID:Betulinic acid enhances 1alpha,25-dihydroxyvitamin D3-induced differentiation in human HL-60 promyelocytic leukemia cells. 1520 7

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