Changes in cell kinetics associated with differentiation of a human promyelocytic cell line (HL60)

Abstract. Terminal cell differentiation results in an irreversible arrest in the G₁ phase of the cell cycle and loss of the capacity for cell renewal. In the murine erythroleukaemia cell line (MELC), commitment to erythroid differentiation was found also to be preceded by an early, transient, phase of inhibition of growth due to prolongation of the G₁ phase. We determined the effect of differentiation-inducing agents on the growth kinetics of a human promyelocytic cell line (HL60) which undergoes differentiation into mature granulocyte. At concentrations of inducers optimal for cell differentiation, an early, transient stimulation of cell multiplication was found. DNA synthesis was enhanced in HL60 cells as early as 5 hr after exposure to inducer. Nevertheless, HL60 cell maturation eventually also resulted in a loss of the multiplication ability. The duration of exposure to inducer required for irreversible loss of the potential for self-renewal was determined by the fall in the cloning efficiency of induced cells; the results indicate that it preceded the switch-off of the replication mechanism; the majority of the cells lost their ability to form large colonies at the time of peak DNA synthesis and were able to complete an additional two to three cell cycles at a rate similar to uninduced cells. These changes occurred before HL60 cells became committed and might play a pivotal role in the process of cell differentiation.     

HL-60-AR白血病细胞诱导分化性状的持续性表达

HGPRT~-人早幼粒白血病细胞突变株(HL-60-AR)与RA保温一定时间后,洗去药物继续培养,细胞分化性状(NBT还原能力、细胞膜C_3补体受体及形态变化)不但继续存在,而且能持续表达。撤去RA后连续传代培养,至少在传三代后细胞分化性状仍高度表达。然而,DMSO对HL-60-AR细胞的作用特点明显不同于RA。HL-60-AR细胞分化伴随增殖能力的降低。核酸分子杂交结果表明,细胞c-myc癌基因表达受抑先于细胞分化性状的获得和增殖能力的下降。     

Induction of (2′–5′) oligoadenylate synthetase activity during granulocyte and monocyte differentiation

Summary Variations in the (2′–5′) oligoadenylate synthetase (2–5 A synthetase) level were examined prior to and during the differentiation in culture of the human monocyte cell line U937 and the promyelocytic cell line HL60 in an attempt to reveal whether the enzyme is actively involved in hematopoietic cell maturation. The basal level of this enzyme was much higher in U937 than in HL60 cells. The activity of 2–5 A synthetase was enhanced in both cell lines in response to α, β interferons. During cell differentiation, ten markers were measured. The level of the enzyme rose during the process of cellular maturation in both cell lines. The 2–5 A synthetase activity observed in differentiated HL60 and U937 cells was comparable to that observed in mature normal granulocytes and monocytes respectively. Induction of U937 differentiation by chemicals was associated with detectable production of IFN. The increase in enzyme activity observed was mostly dependent on endogenous production of interferon, since it was inhibited by interferon antibodies. Kinetic studies showed that in U937 cells 2–5 A synthetase was expressed prior to several of the differentiation markers. The rise in the enzyme's level observed during the differentiation of HL60 cells was independent of endogenous production of interferon, since it was not inhibited by the addition of anti-interferon antibodies. These results suggest that different biochemical and molecular mechanisms are responsible for the induction of 2–5 A synthetase observed during the differentiation of hematopoietic cells. In any case, 2–5 A synthetase can be considered as a biochemical marker of cell status and differentiation in hematopoietic cells.     

Differential effects of c-myb and c-fes antisense oligodeoxynucleotides on granulocytic differentiation of human myeloid leukemia HL60 cells

To gain some insight into the role of c-myb and c-fes in myeloid differentiation, the authors have analyzed the ability of HL60 cells to differentiate in response to several different inducers after inhibition of c-myb and c-fes function. This function has been inhibited almost completely by using deoxynucleotides complementary to two 18-nucleotide sequences of c-myb and c-fes encoding mRNA. After 5 days in culture, in several separate experiments with different oligomer preparations, more than 90% growth inhibition was observed in c-myb antisense-treated HL60 cells. At this time, independent of the differentiation inducer used, c-myb antisense-treated HL60 cells differentiate only along the monocytic pathway, whereas in sense oligomer-treated cultures, retinoic acid and dimethyl sulfoxide induced granulocytic differentiation. No perturbation of the HL60 cell growth was observed after 5 days of treatment with antisense c-fes oligomer. However, induction to granulocytic differentiation by retinoic acid and dimethyl sulfoxide resulted in progressive cell death, whereas monocytic differentiation by other differentiation inducers was only marginally affected. These results suggest that granulocytic, unlike monocytic, differentiation requires c-myb-conditioned proliferation and the activity of the protein encoded by c-fes.     

Disparate effects of activators of protein kinase C on HL-60 promyelocytic leukemia cell differentiation

In previously published studies (Kreutter, D., Caldwell, A. B., and Morin, M. J. (1985) J. Biol. Chem. 260, 5979-5984), we demonstrated that the activation of the calcium- and phospholipid-dependent protein kinase C by phorbol esters was dissociable from the induction of monocytic differentiation by these agents in HL-60 promyelocytic leukemia cells. We have now compared the effects of two related diterpenes (mezerein and 12-O-tetradecanoylphorbol-13-acetate) and two cell-permeable diacylglycerols (1-oleoyl-2-acetoylglycerol and 1,2-dioctanoylglycerol) on the induction of differentiation in HL-60 cells. Each of these agents activated protein kinase C in vitro and stimulated the phosphorylation of a number of identical proteins in intact HL-60 cells. Exposure to either of the diterpenes at nanomolar concentrations resulted in an inhibition of cell growth and the induction of qualitatively distinct types of monocytic maturation in HL-60 cells. Conversely, neither of the two diacylglycerols was found to be a potent or efficacious inducer of differentiation, as measured by increases in cell adhesion, nonspecific esterase activity, or phagocytosis, even at growth-inhibitory concentrations. However, concurrent exposure of HL-60 cells to both 1,2-dioctanoylglycerol and the calcium ionophore A23187, at concentrations which were without maturational activity when used separately, resulted in measurable increases in both protein phosphorylation and in the fraction of cells expressing a differentiated phenotype. Taken together, these results suggest that specific biochemical effects associated with 12-O-tetradecanoylphorbol-13-acetate, in addition to the activation of protein kinase C, may be important determinants for the induction of leukemia cell differentiation.     

Physiological studies of the regulation of beta-lactamase expression in Pseudomonas maltophilia.

The kinetics of beta-lactamase induction in Pseudomonas maltophilia IID1275/873 were investigated. Upon induction with beta-lactam antibiotics, a correlation was seen between the increase in specific beta-lactamase activity and the generation time, as well as the concentration of inducer in the medium. The specific beta-lactamase activity increased slowly within the first 0.5 generation and then more rapidly; it decreased regularly after about 2 generations of growth in the presence of inducer. This decrease could presumably be attributed to the continuous breakdown of inducer by beta-lactamases in the culture medium. In a chemostat culture with continuous supply of fresh inducer-containing medium, the specific beta-lactamase activity could be stabilized at a high level over several generations. Removal of the beta-lactam after a certain induction time showed that a short exposure of the bacteria to inducer caused induction kinetics comparable to those resulting from continuous exposure of the cells to inducer. The two beta-lactamases of P. maltophilia, L1 and L2, were induced simultaneously under various experimental conditions.     

Memory of MEL cells to a previous exposure to inducer.

The mechanism of commitment of murine erythroleukemia (MEL) cells to terminal differentiation has been examined. Before a significant proportion of cells becomes committed, a lag period of at least 9 hr of exposure to inducer is observed. Cells withdrawn from inducer can reinitiate commitment without a lag when reexposed. The proportion of committed cells in a culture discontinuously exposed to inducer is identical to that in a continuously exposed culture even if withdrawal from inducer lasts for 18 hr. The ability to tolerate an interruption in the exposure has been termed "memory." The memory of a previous exposure to inducer is complete up to 18 hr. It is partially erased after 36 hr and completely erased after 72 hr. The length of time the memory persists is not affected by the length of the initial exposure to inducer. These results suggest that a cellular component necessary for the commitment event accumulates in response to inducer and that this component has a decay time on the order of 10 hr.     

Effects of fluorescent derivatives of TPA on HL60 cells: dissociation between the differentiation-induced and protein kinase C activity

The four fluorescent derivatives of TPA--dansylaza-TPA, NBDaza-TPA, and (N)- and (P)-dansylamino-TPA--were synthesized and examined for their ability to induce differentiation in human promyelocytic leukemic HL60 cells. At a concentration of 20 nM, all the derivatives inhibited proliferation and induced 60-80% of the cells to differentiate into macrophage-like cells. Removal of dansylaza-TPA from the medium after 5 h did not arrest adherence or the expression of nonspecific esterase activity. However, upon removal of any of the other three compounds after 5 h, HL60 cells became nonadherent and expressed low nonspecific esterase activity after additional culture. To investigate the relationship between protein kinase C (PKC) activation and cell maturation, PKC activity and translocation were measured after 0.5, 5, 24, and 48 h of treatment with each compound. Cells induced to differentiate by dansylaza-TPA or (N)- or (P)-dansylamino-TPA exhibited enhanced PKC activity, 50-80% of which was located in the particulate fraction. In cells that differentiated with NBDaza-TPA, 65-70% of PKC activity remained in the cytosol. After removal of the TPA derivatives, all cells exhibited PKC activity in the cytosol. These results indicate that the fluorescent derivatives are as potent as TPA in inducing HL60 cell differentiation. However, in the case of NBDaza-TPA and (N)- or (P)-dansylamino-TPA, their continuous presence in the culture medium was required for the recruitment of cells to differentiate. Consequently, it is suggested that activation and translocation of PKC are among the early biochemical events that trigger HL60 cell differentiation. Nevertheless, these two events alone are not sufficient to induce differentiation.     

Functional and phenotypic characterization of two HL60 clones resistant to dimethylsulfoxide

Two HL60 clones (C12 and C13) totally insensitive to differentiation induction by dimethylsulfoxide (Me2SO) are described. They have been growing continuously in the presence of the inducer for more than 6 months. The morphological and cytochemical features of the two populations are quite similar to those of the original HL60 cell line, whereas a different karyotype with marked hyperploidy (modal chromosome number of 86 for C12 and 82 for C13) was detected. An antigenic pattern analogous to that of the native HL60 cell line was found in C12 and C13 populations using three monoclonal antibodies differently reactive to myeloid cells. Both clones can be induced to differentiate by retinoic acid (RA) and 12-O-tetradecanoylphorbol 13-acetate (TPA). The pattern of differentiation was assessed by morphological, cytochemical, phenotypical and functional markers. Differentiation of C12 cells by RA and TPA was similar to that observed with native HL60 cells, whereas C13 cells showed lower degrees of sensitivity to RA and TPA. The data presented suggest the existence of different mechanisms for induction of differentiation by Me2SO, RA and TPA. In addition, they are in accordance with previous observations of different degrees of inducibility to differentiation among leukemic cell populations in culture.     

HL60 cells halted in G1 or S phase differentiate normally

Differentiating agents regulate the proliferation and myeloid maturation of HL60 cells by mechanisms that are at least partly independent (Drayson et al., (2001), Exp. Cell Res. 266, 126-134). We have investigated whether halting HL60 cells in G1 or S phase influences their commitment to or maturation along the neutrophil and monocyte pathways. Early G1 and S phase cells were isolated separately by elutriation. Quinidine was used to block the cell cycle progression of G1 cells and aphidicolin to greatly retard the progression of S phase cells. Neutrophilic (in response to all-trans-retinoic acid) or monocytic (to 1 alpha,25-dihydroxyvitamin D(3)) differentiation were assessed by induction of CD11b, M-CSF receptor and CD14 expression, acquisition of granulocyte-colony stimulating factor responsiveness, capacities to phagocytose yeast and reduce nitroblue tetrazolium, and down-regulation of CD30 and transferrin receptor expression. The cell-cycle-blocked cells differentiated at normal rates, mostly without incorporating bromodeoxyuridine. These observations establish: (a) that neither transit through the cell cycle nor a cell's position in the cell cycle substantially influences execution of the neutrophilic and monocytic differentiation programs by HL60 cells; and (b) that individual HL60 cells are genuinely bipotent.     

Induction of differentiation in human myeloid leukemic cells by proteolytic enzymes

Exogenous serine proteases were found to induce differentiation in human myeloid leukemic cells from either in vitro established long-term cell lines or in primary cultures of cells derived directly from patients with acute myeloid leukemia. Exposure of the human promyelocytic cell line HL-60 to trypsin, chymotrypsin, or elastase induced the appearance, within 3-6 days, of neutrophilic granulocytes defined by their morphology, their ability to reduce nitroblue tetrazolium, and their efficient phagocytosis of latex particles. Upon further incubation monocyte-like cells appeared. While these cells developed into fully mature macrophages other types of cells disappeared and on day 12 the culture consisted of a pure macrophage population. The inducing effect could be observed when the enzyme was presented alone, whereas a synergistic effect was noted when the protease was added in the presence of subthreshold concentrations of chemicals known to induce differentiation in this cell line such as dimethylsulfoxide, retinoic acid, butyric acid, or hexamethylene bisacetamide. Optimal induction of differentiation by trypsin required a 48 hr continuous exposure to the enzyme. When the protease was removed earlier no appreciable differentiation was noticed. The protease-induced differentiation involved a direct interaction with the cells and was not due to a proteolytic cleavage of a serum component because it could be obtained in serum-free cultures. The enzymatic activity of the protease was needed for its effect on cell maturation: Addition of protease inhibitors such as soybean-trypsin inhibitor or trasylol completely blocked differentiation induced by the proteases but had no effect on differentiation induced by the other inducers. It is still to be determined whether a proteolytic process is a general molecular event in cell differentiation or induction by chemicals involves a mechanism different from that initiated by exogenous proteases.     

Effect of retinoic acid on the proliferation and phagocytic capability of murine macrophage-like cell lines

Retinoic acid (RA) exerted a variable degree of growth inhibitory activity on the macrophage-like cell lines P388D1, J774.2, WEHI-265, WEHI-3, and PU-5. Comparison of cell proliferation and clonal growth suggests that at concentrations of 10(-9)-10(-6) M the inhibitory activity stems from processes leading to elongation of cell cycle time and not from terminal differentiation processes. RA was shown to be a potent inducer of the development of high-phagocytic phenotypes (assessed by phagocytosis of heat-killed yeast cells) in the P388D1, J774.2, and WEHI-265 cell lines which differ substantially in their proliferative and adherence characteristics. The PU-5 and WEHI-3 cell lines were not induced by RA to express an enhanced phagocytic activity toward heat-killed yeast cells. The augmented phagocytic capability was dose dependent over a wide range of RA concentrations. In P388D1 cells, 2 X 10(-12) M RA already exerted significant phagocytosis augmentation effects, which progressively increased up to 2 X 10(-5) M RA, the highest concentration tested. Retinal, retinyl acetate, and retinol had similar effects to those of RA on both cell adherence and phagocytosis in P388D1 cells, albeit at concentrations four to six orders of magnitude higher. Optimal development of the high-phagocytic phenotype in P388D1, J774.2, and WEHI-265 cells required at least 96 hr of culture in the presence of RA; at 48 hr and 23 hr the effects were already substantial, whereas at 4 hr of exposure to RA no significant enhancement of phagocytosis could be detected. Thus both extended periods of culture in the presence of RA (more than two to three cell cycles) and high concentrations were needed for induction, in more than 90% of the cells, of the expression of a high-phagocytic phenotype. The reversion to a low-phagocytic phenotype upon removal of RA was also rather slow and required several cell cycles. In P388D1 cells RA also enhanced the phagocytosis of latex beads but had no effect on the phagocytosis of starch particles, or the extent of binding of immunoglobulin G-coated sheep red blood cells (SRBC). The expression of receptors for concanavalin A and for nonopsonized SRBC remarkably increased in RA-treated cells, as was the ability to perform Fc-receptor mediated erythrophagocytosis. Both P388D1 cells and WEHI-265 cells were induced by RA to express nitroblue tetrazolium reducing activity. The data suggest that RA induces profound changes in the functional capabilities of macrophage-like cell lines which are apparently not dependent on cessation of growth and terminal differentiation processes.     

Elevation of adenylate cyclase activity during leukemic cell differentiation

Exposure of the various human myeloid leukemic cell lines (HL60 and RDFD) to various compounds results in marked differentiation of the cells. This differentiation is associated with a marked increase in both basal and NaF-stimulated adenylate cyclase (AC) activity. The increase in AC activity occurs regardless of the differentiation inducer one has utilized (retinoic acid (RA), dimethyl formamide (DMF), hypoxanthine (HPX) or actinomycin D (actD) and is correlated with this process, as a variant of the HL60 cell (HL60-Blast) that does not differentiate upon exposure to the various inducers does not demonstrate this increase in AC activity. In addition, the differentiation process is associated with a rapid increase in intracellular cAMP within hours of adding the inducer, followed by a gradual decrease.     

Mechanisms controlling the kinetics in proliferation and differentiation of populations of mouse myeloid leukemic cells in vitro

The kinetics of differentiation and proliferation of clone cells (B24) of mouse myeloid leukemic Ml cells in vitro were studied by quantitative determination of cellular morphology. B24 cells were induced to differentiate into only macrophagelike cells by an inducer of differentiation in conditioned medium (CM) of embryo cells. During cell differentiation, the ratio of the area of the nucleus to that of the cell (N.C.R.) decreased from about 55% to 10%. Decrease in the N.C.R. was used as an index of cell differentiation in analysis of the kinetics of differentiation of cells treated with various concentrations of CM. The results showed that the process of differentiation was promoted by increasing the concentration of CM, and that the transition of the cells from the undifferentiated state to the differentiated state occurred in a stochastic manner. Comparison of these morphometric results with those of autoradiography showed that the labeling index of the cells decreases gradually in association with decrease in the N.C.R. of the cells from 50% to 30%. A stochastic model for the kinetics of proliferation and differentiation of the cells simulated the experimental observations on the production of differentiated cells.     

Decreased content of the 35 kDa cytoskeletal protein p35 in Friend erythroleukemia cells exposed to dimethyl sulfoxide and retinoic acid is associated with entrance into a quiescent substrate

1. The effect of all-trans-retinoic acid (RA) on cell cycle kinetics, RNA content, and expression of the 35 kDa cytoskeletal protein p35 in exponentially-growing Friend erythroleukemia (FL) cells was compared with the prototypic differentiation-inducer dimethylsulfoxide (DMSO). 2. Two G1 phase populations of RA-treated FL cells were identified: one with an intermediate RNA content (T-cells) similar to G1 cells in near-plateau-phase control cultures and the other with a very low RNA content (Q-cells) similar to DMSO-differentiated cells; although quiescent, RA-treated cells remained undifferentiated as evidenced by the absence of late-stage markers of erythroid maturation. 3. Decreases in the cellular content of p35 occurred in both DMSO- and RA-treated FL cells, correlating with the onset of accumulation of cells into G1, and stabilized by 48 hr after initial exposure to either inducer. 4. Down-regulation in the cellular p35 content, thus, appears to be linked to entrance of FL cells into a quiescent substrate and independent of the subsequent capacity for erythroid differentiation.     

Cutaneous venom of Bombina variegata pachypus (Amphibia, Anura): effects on the growth of the human HL 60 cell line.

The effects of Bombina variegata cutaneous venom (Bvv) on eukaryotic cell growth has been assessed employing the human leukaemic cell line HL 60, by liquid and agar semisolid cultures and 51Cr release assay. HL 60 cells growth is impaired by Bvv in a dose-dependent fashion in both culture systems. The arrest of proliferation requires a contact time lower than 3 min and it is not reversed by washing and culturing the cells in a Bvv-free medium. Similarly, an extremely short exposure time is needed to determine maximum 51Cr release. Neither the agar medium nor the fetal calf serum interact with Bvv effects, which, according to the above findings, must be regarded as cytolytic in nature. In both liquid and the agar-semisolid culture Bvv cytolytic activity half life is about 8 hr. The cytolytic properties of Bvv are thought to be part of the chemical defence system of amphibian skin.     

Characterization of the metabolic forms of 6-thioguanine responsible for cytotoxicity and induction of differentiation of HL-60 acute promyelocytic leukemia cells

HL-60 human acute promyelocytic leukemia cells that lack hypoxanthine-guanine phosphoribosyltransferase (HGPRT) activity have been developed by mutagenization and selection. These cells exhibited markedly decreased sensitivity to the cytotoxic action of 6-thioguanine (TG) and, in contrast to parental HL-60 cells, had the capacity to undergo terminal granulocytic differentiation after treatment with this purine antimetabolite. Analysis of extracellular and intracellular metabolites of TG revealed negligible metabolism of TG in these HGPRT- HL-60 cells. These findings are consistent with the concept that inhibition of cellular replication requires generation of analog nucleotide and suggest that TG itself is capable of initiation of differentiation. 6-Thioguanosine (TGuo) had limited activity, while beta-2'-deoxythioguanosine (dTGuo) was inactive, as an inducer of maturation of HGPRT- HL-60 cells. These cells converted relatively large amounts of the nucleosides to the free base TG; the simultaneous exposure of cells to 8-aminoguanosine (AGuo), an inhibitor of purine nucleoside phosphorylase activity, decreased the degradation of TGuo and dTGuo to TG and promoted the intracellular accumulation of TG nucleotides, presumably through the action of nucleoside kinase activities. In a double mutant deficient in both HGPRT and deoxycytidine kinase (DCK) activities, dTGuo was devoid of cytotoxicity and was an effective inducer of maturation. The potency of dTGuo as an inducer in this system was not significantly affected by the presence of AGuo. These results suggested that dTGuo itself was also an active initiator of maturation. Thus, induction of differentiation appeared to be due to the free base, TG, as well as its deoxynucleoside form, dTGuo, whereas the formation of TG nucleotides appeared to antagonize maturation and produce cytotoxicity.     

Role of cyclic AMP and ammonia in induction and maintenance of post-aggregative differentiation in a suspension culture of Dictyostelium discoideum

The effects of ammonia and cAMP on prespore and prestalk differentiation of Dictyostelium discoideum were investigated by monitoring eight developmentally regulated proteins as differentiation markers under the shake culture conditions in glucose/albumin medium. In the medium containing cAMP, cells form small agglomerates and undergo prespore differentiation [19]. Under the conditions where agglomeration was prevented, ammonia induced four marker proteins out of eight tested in the presence of cAMP, which included not only a prespore specific enzyme but also cell-type non-specific proteins. No inhibitory effect of ammonia was observed in presumptive cell differentiation. These results suggest that ammonia is an inducer of differentiation at the protein level as well as the mRNA level as found previously [24]. The effects of cAMP were examined with special attention to the difference between induction of differentiation and maintenance of differentiated state in this specific medium. The induction of differentiation from early aggregative cells was cAMP-dependent with all the marker proteins tested. This agrees with the observations so far obtained in other culture systems. However, when already differentiated cell masses (slugs) were dissociated and shaken in this specific medium, only two enzymes required cAMP to maintain the activity while five out of eight kinds of the proteins continued to be expressed as in undisturbed slugs even without cAMP. This suggests that for the maintenance of the differentiated state after slug disaggregation cAMP may not be required with respect to the majority of proteins, if cells are provided with some favorable conditions such as glucose/albumin medium.