Effect of DNA methylation on protein-DNA interaction of HL-60 cells

HL-60 cells have been induced with differentiation index 16 % by S-adenosyl-L-rnethionine (SAM) as inducer in the presence of optimum conceptration of 10 μmol/L. The methylation level of genorne DNA determined by HPLC is increased during cell differentiation. When restriction endonuclease Hae Ⅲ, Sma I, Sal I, XhoI and Hind Ⅲ which are sensitive to 5-methylcytosine were used to cleave the genorne DNA, a resistance effect was found. The interaction between DNA and DNA binding proteins is changed by using gel retarding test.     

Effect of methylation inhibitors on gene expression in HL-60 cells.

The methylation inhibitors Neplanocin A (Nep A), 3'-deazaadenosine (dzAdo), and 3-deaza(+/-)aristeromycin (Dari) were tested for their effect on the expression of histone H2B, actin, and the protooncogenes c-myc, and v-fos. Nep A and Dari bind to the S-adenosylhomocysteine hydrolase resulting in the accumulation of S-adenosylhomocysteine, while dzAdo served as a substrate for the enzyme. With dzAdo, inordinant amounts of 3-deazaadenosylhomocysteine (dzAdoHcy) accumulated in the cell, provided L-homocysteine (Hcy) was present. When added at sublethal concentrations, the methylation inhibitors had little or no effect on c-myc, v-fos, histone H2B, or actin expression, nor did any significant number of the drug-treated cells demonstrate myeloid characteristics. However, growth and gene expression were markedly inhibited upon the addition of Hcy and dzAdo. One of the earliest effects of dzAdoHcy on HL-60 cells was the disappearance of c-myc mRNA. Within 1 h of the addition of dzAdo and Hcy, only trace amounts of c-myc mRNA were detectable. After 4-5 h v-fos, histone H2B, and actin mRNAs also decreased to about 40% of control levels. Differences in the stability of preexisting mRNAs would appear to account for these results. Within 1 h following the addition of dzAdo and Hcy, the synthesis of rRNA and mRNA were completely blocked as measured by the incorporation of [3H]uridine.     

Tumor necrosis factor induced DNA fragmentation of HL-60 cells

Tumor necrosis factor (TNF) induces differentiation of HL-60 cells, with only slight effects upon proliferation and little or no cytotoxicity. TNF induced cytotoxicity of other target cell lines has been associated with DNA fragmentation. To assess whether TNF-induced DNA fragmentation might also contribute to HL-60 differentiation, studies were performed using a [3H]-dThd release assay. Between 1 and 2 hours of culture, significant [3H]-dThd release was induced by TNF at concentrations of 10 U/ml and greater. This response was blocked by inhibiting energy metabolism, but not by several inhibitors of cell surface signal transduction, protein or RNA synthesis, or free radical scavengers. DNA electrophoresis of the released DNA disclosed a wide range of low molecular weight fragments. It is possible that TNF-induced DNA fragmentation contributes to HL-60 differentiation.     

Effect of a polymeric surfactant on electron transport in HL-60 cells

To assess the effect of a polymeric surfactant, Pluronic P-105 on the activity of electron transport chains in the mitochondria of HL-60 cells, the bioreduction rates of two membrane-localized lipophilic spin probes, 16-doxylstearic acid methyl ester (16-DSME) and 5-doxylstearic acid (5-DS), were studied. In addition, the effect of Pluronic on the bioreduction rate of the DNA-intercalating spin-labeled anthracyclin drug, Ruboxyl (Rb) was evaluated. For 16-DSME, the bioreduction kinetics was zero order with regard to the nitroxide concentration, indicating that the rate was controlled by the concentration of the reducing enzyme(s), which depends on the activity of the electron transport chains. The introduction of Pluronic at concentrations higher than 0.01% resulted in the decrease of the 16-DSME bioreduction rate. The data suggested that short-term cell incubation with Pluronic resulted in reduced activity of the electron transport chains in the mitochondria of HL-60 cells. This was corroborated by the results of an MTT assay. For 5-DS, the bioreduction kinetics was first order in the absence of Pluronic, but did not follow any simple kinetic law after a short-term cell incubation with Pluronic. For Rb, the degree of nitroxide bioreduction dropped progressively with increasing Pluronic concentration. Thus, incubating cells with polymeric surfactants modulates the intracellular energy metabolism, which can affect the rates of energy-dependent intracellular processes.     

Anti-c-myc DNA increases differentiation and decreases colony formation by HL-60 cells

Summary The proto-oncogene c-myc, whose gene product has a role in replication, is overexpressed in the human promyelocytic leukemia HL-60 cell line. Treatment of HL-60 cells with an antisense oligodeoxyribonucleotide complementary to the start codon and the next four codons of c-myc mRNA has previously been observed to inhibit c-myc protein expression and cell proliferation in a sequence-specific, dose-dependent manner. Comparable effects are seen upon treatment of HL-60 cells with dimethylsulfoxide (Me₂SO), which is also know to induce granulocytic differentiation of HL-60 cells. Hence, the effects of antisense oligomers on cellular differentiation were examine and compared with Me₂SO. Differentiation of HL-60 cells into forms with granulocytic characteristics was found to be enhanced in a sequence-specific manner by the anti-c-myc oligomer. No synergism was observed between the anti-c-myc oligomer and Me₂SO in stimulating cellular differentiation. In contrast, synergism did appear in the inhibition of cell proliferation. Finally, the anti-c-myc oligomer uniformly inhibited colony formation in semisolid medium. It is possible that further reduction in the level of c-myc expression by antisense oligomer inhibition may be sufficient to allow terminal granulocytic differentiation and reverse transformation. This work was supported by grants to E. W. from the National Institutes of Health, Bethesda, MD (CA 42960), and the Leukemia Society of America.     

Antimycin A-induced apoptosis of HL-60 cells

BACKGROUND: Previous experiments in our laboratory investigating apoptosis induced in HL-60 cells by camptothecin (CAM) have revealed that the sequence and rapidity of the apoptotic phenomena in an individual cell depend on the proliferative state of that cell when it encounters CAM. The role of mitochondria in HL-60 apoptosis was explored using an inhibitor of oxidative phosphorylation, antimycin A (AMA). METHODS: Changes in cell light scatter, binding of annexin V-fluorescein isothiocyanate (FITC), uptake of propidium iodide (PI), and DNA content after membrane fixation/permeabilization were monitored by flow cytometry. Z-VAD-FMK was used to inhibit caspases. Fluorescence microscopy was used to examine cell morphology. RESULTS: Cells in the G1 phase of the cell cycle were the first to exhibit signs of apoptosis in response to 100 microM AMA and some of these cells disintegrated without exposing to phosphatidylserine (PS). Caspase inhibition prevented fragmentation of DNA, the nucleus, and the cell, but only delayed PS exposure and loss of plasma membrane integrity. CONCLUSIONS: The highly active mitochondria of G1-phase HL-60 cells make them particularly sensitive to AMA. PS exposure and plasma membrane damage are mediated by noncaspase molecules released from mitochondria. We hypothesize that if mitochondria are subjected to a sufficiently severe insult, whether indirectly as a result of extensive CAM-induced DNA damage or directly by the effect of AMA on electron transport, the nature and quantities of the proapoptotic molecules released are such that apoptosis proceeds to the point of cell disintegration before the PS exposure pathway is complete.     

Effect of retinoic acid on the phosphorylation of endogenous proteins in HL-60 cells

HL-60 cells were incubated with [32P]-Pi in order to label endogenous phosphoproteins in situ. These were then resolved via two-dimensional electrophoresis and autoradiograms were made from the gels. A comparison of autoradiograms made from retinoic-acid-differentiated cells with those made from control cells revealed a small number of phosphoproteins whose labeling was enhanced in differentiated cells. Incubating HL-60 cells with [35S]-methionine revealed that RA induced the synthesis of one of these proteins, (53 kDa, pl 4.8) although not to a degree sufficient to account for the increased phosphate labeling observed in differentiated cells. Difluoromethylornithine (DFMO), which arrests HL-60 cell proliferation without inducing differentiation, had no effect on endogenous protein phosphorylation. Treatment of DFMO-arrested cells with retinoic acid, however, increased the phosphorylation of the proteins and resulted in differentiation of the cells. Densitometric analysis of autoradiograms made from two-dimensional gels revealed that the phosphorylation of the 53-kDa, pl 4.8 protein was significantly elevated in cells exposed to RA for as little as 12 hours, i.e., before the cells were committed to differentiate and before a significant increase in the number of phenotypically mature cells was observed. It therefore appears that this protein may be an intermediate in the retinoic-acid-induced differentiation process.     

UV辐射所致HL－60细胞DNA不均一修复的研究

在特定基因水平检测了ＵＶ照射后ＨＬ－６０细胞的ＤＮＡ修复。结果显示活性转录的ｃ－ｍｙｃ基因的修复水平明显高于非活性转录的β珠蛋白基因和全基因组。而进一步应用链专一性ＲＮＡ探针检测,发现ｃ－ｍｙｃ基因中的转录链和非转录链的修复效率没有明显差异。上述结果表明,ＨＬ－６０细胞能够对活跃表达基因的损伤进行选择性高效修复,但不能对活跃表达基因中的转录链进行进一步的选择性修复。     

EMF induces differentiation in HL-60 cells

This investigation provides evidence that a 60-Hz electromagnetic field (EMF) at 1 gauss (G) can drive differentiation of cultured hematopoietic progenitor cells. HL-60 cells are known to differentiate from a nonphagocytic suspension culture to an attached fibroblast-like culture with high phagocytic activity in the presence of the tumor-promoting phorbol ester 12-O-tetradecanoylphorbal-13-acetate (TPA). The effect of 60-Hz EMF at 1 G on differentiation is approximately equivalent to treatment of the cells with 250-500 pg/ml TPA. Furthermore, the effect of both EMF and TPA treatment on differentiation is additive at low TPA concentrations. The results strongly suggest similarities between the effects of TPA treatment and EMF exposure and thus provide an approach for tracing the origins of the molecular effects of EMF exposure, as many transduction pathways in the differentiative process are defined.     

Induced rapid phospholipid methylation and arachidonic acid release by dimethyl sulfoxide-treated human promyelocytic leukemic HL-60 cells

The incubation of undifferentiated promyelocytic HL-60 cells with DMSO resulted in the rapid transmethylation of phosphatidyl ethanolamine (PE) into phosphatidylcholine (PC) which was maximal at 60 secs. This rapid generation of PC was followed by a decrease of the methylated phospholipid and the release of arachidonic acid. Thus, the rapid DMSO-induced phospholipid methylation coupled with release of arachidonic acid (precursor for eicosanoids) prior to morphological evidence of cellular differentiation may represent early biochemical events which result in the generation of intracellular chemical signals which may program the promyelocytic cells into a differentiation mode.     

Effect of echinomycin on DNA methylation

Although echinomycin is reported to intercalate and to bind to DNA at CG dinucleotides, the effects of the drug on DNA methylation in vitro and in vivo are much less apparent than are the effects on DNA synthesis and cell growth.     

Effect of fractionation and rate of radiation dose on human leukemic cells, HL-60

The capacity of HL-60 cells, human acute promyelocytic leukemic cells established in culture, to repair sublethal radiation damage was estimated from the response of the cells to fractionated irradiation or to a single irradiation at different dose rates. The HL-60 cells grown as a suspension culture in RPMI 1640 medium supplemented with 10% calf serum and antibiotics showed a cloning efficiency of about 0.46 in an agar culture bed. After exposure of cells to a single dose of X rays at a dose rate of 78 rad/min, the survival curve was characterized by n = 2.5, Dq = 80 rad, and D0 = 83.2 rad. Split-dose studies demonstrated that the cells were able to repair a substantial portion of sublethal radiation damage in 2 hr. The response of the cells to irradiation at different dose rates decreased with a decrease in the dose rates, which could be attributed to repair of sublethal radiation damage. The radiation response of leukemic cells is only one of the many factors which affect the clinical outcome of total-body irradiation (TBI) followed by bone marrow transplantation. Nevertheless, the possibility that some of the malignant hemopoietic cells, if not all, may possess a substantial capacity to repair sublethal radiation damage should not be underestimated in planning total-body irradiation followed by bone marrow transplantation.     

Effect of staurosporine on the induction of actin/gelsolin in PMA-treated HL-60 cells

Staurosporine, an inhibitor of protein kinase C (PKC), has been shown to inhibit the induction of two cytosolic proteins, p42 and p91, during the differentiation of HL-60 cells initiated by PMA treatment. Differentiation of these cells into macrophages was also blocked. p42 has been identified as actin by Western Blot analysis and previous studies have demonstrated p91 to be the Ca+(+)-dependent actin-binding protein gelsolin. Increased levels of these proteins may be important for the attainment of macrophage functions, e.g. phagocytosis and secretion. These studies may therefore establish a link between PKC activation and the induction of specific cellular proteins, such as actin and gelsolin, as important monocyte maturation products without which the cells will be restricted from acquiring certain macrophage activities.