Improved sensitivity in comparative genomic hybridization analysis of DNA heteroploid cell mixtures after pre-enrichment of subpopulations by fluorescence activated cell sorting.

Cytogenetic analysis of solid tumors with comparative genomic hybridization (CGH) is hampered by the dilution of DNA from individual tumor subpopulations with DNA from other cells. We investigated to what extent this dilution effect can be alleviated using fluorescence activated cell sorting (flow sorting) of experimental DNA heteroploid cell mixtures prior to CGH. From mixtures of normal lymphocytes with triploid K-562 cells the individual components were sorted according to stemline DNA content and processed by CGH in comparison with pure K-562 samples and the original mixtures. Compared with 30 autosome copy number imbalances found in pure K-562 samples, a mixture with 32% K-562 cells showed 16 imbalances, and none were detected in mixtures with 13% or 5% K-562 cells. In contrast, 29, 22 and 23 imbalances were detected in K-562 nuclei sorted from the 32%, 13% and 5% mixtures, respectively. This indicate that CGH analysis of flow sorted DNA aneuploid subpopulations enables a specific cytogenetic analysis of the individual subclones in a DNA heteroploid cell population.     

Investigations on the effects of cobalt-alkyne complexes on leukemia and lymphoma cells: cytotoxicity and cellular uptake

Cobalt-alkyne complexes represent a new class of antiproliferative drugs with high activity on cell lines derived from human solid tumors. These promising results encouraged us to evaluate also their effects against leukemia and lymphoma cells. For this purpose, we selected three cobalt complexes with (2-propyn-1-yl)acetylsalicylate (Co-ASS), 2-propyn-1-ol (Co-Prop) and diphenylacetylene (Co-Diph) ligands and investigated their growth inhibiting properties on the LAMA-84, K-562, SD-1 leukemia and U-937 lymphoma cell lines. The cobalt complexes showed high effects on LAMA-84 cells (IC(50)=7.7-16.8 microM) after 48 and 72 h of incubation, but were inactive (K-562, U-937) or low active (SD-1) on the other cell lines. The proliferation of SD-1 cells was reduced by Co-Prop (IC(50)=18.6 microM) and Co-Diph (IC(50)=7.5 microM) only after a 72 h exposure. The antiproliferative effects did not correlate with the accumulation of the drugs into the tumor cells. The time dependent uptake during 24 h determined by atomic absorption spectroscopy was comparably the same in sensitive LAMA-84 and insensitive K-562 cells.     

Biochemical and morphological characterizations of DU-145 cell mortality in rabbit embryo-fetal fluid

Abstract. Rabbit embryo-fetal fluid (EFF) contains regulatory factors of cell proliferation which increase the duration of the cell cycle, induce a quiescent status in some cells and lead up to cell death in others. The objective of this study was to demonstrate which of the two processes, namely necrosis or apoptosis, was responsible for the cell death. Inhibitors of protein synthesis, and nuclease and phospholipase A2 activities did not restore the viability of the cells treated with EFF. Using a combination of DNA labelling and extraction, it was possible to show that a large proportion of DNA was fragmented in the cells released in the supernatant while only a very small portion of DNA was fragmented in the monolayer cells. EFF did not induce fragmentation of DNA into nucleosome-sized subunits as analysed using polyacrylamide gel electrophoresis. Nevertheless, using cytofluorometric analysis, it was possible to demonstrate that 50% of the cells released in the supernatant contained a lower quantity of DNA per cell than in the control cells. This was also observed with EFF-treated monolayer cells but not in the control monolayer cells. The reduction of the DNA content per monolayer cell became significant at 48 h of treatment with EFF. Electron microscopic analysis did not reveal blebbing of the cells. However, depletion of glycogen, condensation of mitochondria and increasing number of lysosomes and residual bodies were observed upon treatment with EFF. From these experiments we conclude that the DU-145 cells treated with EFF do not die by apoptosis, but rather seem to die by necrosis.     

Differences in the biophysical properties of membrane and cytoplasm of apoptotic cells revealed using dielectrophoresis

We have used dielectrophoresis to determine the dielectric properties of human chronic myelogeneous leukaemic (K562) cells during apoptosis (programmed cell death). Our results indicate that K562 cells increase markedly in cytoplasmic conductivity from 0.28 S/m to 0.50 S/m within the first 4 h following treatment with staurosporine, which then lasts beyond 12 h, whilst cell shrinkage increases the capacitance of the membrane from 9.7 mF/m2 to 20 mF/m2. After 24 and 48 h of incubation with staurosporine, multiple sub-populations were detected, highlighted by the dielectric changes that the cell undergoes before death. By comparing these results with those obtained by common apoptosis monitoring techniques Annexin V and TMRE (tetramethylrhodamine ethylester), it is possible to infer the role of ion efflux in the progress of apoptosis. The use of dielectrophoresis for monitoring apoptosis offers a number of benefits as it is both rapid and non-invasive. It can also be used in parallel with other assays in high-throughput screening applications.     

Selenium protection against mercury-induced apoptosis and growth inhibition in cultured K-562 cells

Selenium and mercuric chloride (MC) interactions regarding effects on cell growth and cell death have been studied. Human K-562 cells were pretreated or simultaneously treated with either selenite (5 or 50 μM) or selenomethionine (10 or 50 μM) and with MC (35 or 50 μM). The 35-μM MC treatments resulted in a clear inhibition of cell growth with no obvious difference between mercury-treated and mercury-selenium-treated cells. Furthermore, the apoptotic frequency was similar at all observations for all selenium treatments with 35 μM MC. In the simultaneously treated selenite and 50-μM MC combinations, a selenite-dependent protection was shown both by increased cell growth and by lower apoptotic frequency at 48 and 96 h of exposure. Both treatments with selenomethionine showed protection observed as an increased cell growth at 48 and 96 h and as decreased apoptotic frequency at 96 h of exposure.     

Characterization of insulin-like growth factor I receptors on human erythroleukemia cell line (K-562 cells)

Specific insulin-like growth factor I (IGF-I) receptors on a human erythroleukemia cell line (K-562 cells) were identified and characterized. [125I]-IGF-I specifically bound to K-562 cells and the binding was displaced by unlabeled IGF-I in a dose dependent manner, and half maximal inhibition of the binding was observed at 7 ng/ml IGF-I. [125I]IGF-I binding to the cells was displaced by multiplication stimulating activity (MSA) and by porcine insulin, with potencies that were 10, and 100 times less than that of IGF-I, respectively. By an affinity labeling technique, IGF type I receptors were found to be present in the K-562 cells. When the cells were differentiated by hemin (40 microM), specific binding of [125I]IGF-I to the cells was decreased to 56.8 +/- 5.0% of that for undifferentiated cells. Furthermore, at physiological concentration of IGF-I stimulated thymidine incorporation into DNA and increased the number of cells. These data demonstrate that K-562 cells have specific receptors for IGF-I which may be functionally important for these cells, and that the IGF-I binding sites decrease with cell differentiation. This system might be useful in studying the interaction of IGF-I receptors.     

Effects of trophoblastic beta 1-glycoprotein (TBG) on the functional activity of different cell lines

The effect of TBG on the functional activity of different cell lines, spontaneous and Con A induced proliferation of PBL was studied. If concentration of TBG is higher than 50 mu kg/ml it suppresses the proliferation in many used cell lines, except choriocarcinoma and cancer of uterus. The reliable increasing of spontaneous proliferation of PBL, Jurkat and K-562 cells may be observed if concentration is more lower (0.5-15 mu kg/ml). However proliferation of other cell lines corresponds to control level, and Con A induced proliferation of PBL is inhibited. The effect was more marked at 48, as compared to 24 hours of cell incubation with TBG.     

Cell death induced in L-cells by treatment with thymidine: Staging of the process and relationship to apoptosis

Summary The purpose of this study was to characterize the stages in the development of thymidine-induced cell death. L-cells were characterized by both morphologic and quantitative techniques and evaluated at 24, 48, and 72 h of treatment. Cells first enlarged (stage I); about 50% of these enlarged cells then decreased in size with blebbing and compacting (stage II). This residual cell body transformed into a smooth eosinophilic hyaline body (stage III) by 72 h, many of which could be identified within the vacuolar system of viable cells. These changes were reflected in morphologic counts and Coulter sizing. Cell death (loss of labeled DNA) began in stage II and was most prominent in stage III. No cleavage of DNA into oligonucleosomal fragments was detected by agarose gel electrophoresis at any stage. The similarity of these changes to the complete spectrum of apoptosis in vivo is discussed.     

Cytokeratin analysis of breast and leukemia tumor cell lines by flow cytometry

Using four human tumor cell lines, MCF-7 and T47-D from breast tumors, MOLT-4 and K-562 from leukemia, flow cytometric DNA analysis of pure and mixed cell population was performed using monoclonal antibodies to cytokeratin to distinguish cytokeratin-containing carcinoma cells from leukemia cells which do not contain cytokeratins. Surprisingly, on pure or mixed K-562 cells, we found positive labeling with KL1, CK8, and CK18 antibodies (results confirmed by immunocytology). This preliminary study has allowed a DNA analysis on epithelial cells of human breast tumors.     

Biological effects of a relatively low concentration of 1-b-D-arabinofuranosylcytosine in K562 cells: Alterations of the cell cycle,erythroid-differentiation,and apoptosis

Therapeutic strategies for leukemia are directed to induction of differentiation and apoptosis as well as growth inhibition. One of the key antileukemic agents, 1--D-arabinofuranosylcytosine (ara C), is clinically applied according to these therapeutic aims. However, the molecular effects of 0.1 g/ml of ara C, a concentration that corresponds to the serum level in leukemic patients on a conventional dose of ara C, have not been well disclosed. Here, we addressed these issues using K562 cells which derived from a blastic crisis of chronic myeloid leukemia. DNA synthesis of treated cells was suppressed from 1-6 h. But, it recovered at 12 h and no further inhibition was observed. The number of cells was not decreased but DNA fragmentation was observed at 72 h. The number of erythroid-differentiated cells also increased to 30% at 72 h. Along with treatment, no marked alteration of mRNAs for cell cycle-regulating genes was found and the retinoblastoma gene product remained hyperphosphorylated throughout treatment. The expression of mRNAs for apoptosis-regulating genes also remained unchanged, except for slight down-regulation of Bax. c-myc protein was not found later than 48 h, and Max mRNA was downregulated. c-jun was immediately induced, followed by the fluctuated expression level along with treatment. These findings suggest that the 0.1 g/ml ara C changed the proliferation, differentiation and death of K562 cells in a biphasic manner. In the early phase, DNA synthesis was inhibited without altering the expression of cell cycle regulating-genes. In the latter phase, cell death and erythroid- differentiation occurred in accordance with the down-regulation of c-myc.     

Cell kinetics of the K-562 cell line in microculture

The cell kinetic parameters of K-562 leukemia cells were studied using microwell cultures in which growth was initiated from a single cell. Total population growth was studied by direct enumeration, 3H-thymidine labelling, and flow cytometry. Clonogenic cell growth was studied by replating and 3H-thymidine suicide. In 7-day clones of K-562 cells, durations of the total cell cycle, G1, S, G2, and M phases were 20.8 h, 3.5 h, 12.9 h, 3.3 h, and 1.1 h, respectively; the growth fraction was 0.92 and the cell loss factor was 0.084. Study of colony-forming cells by replating indicated that clonogenic cells comprised 40% of total cells. 3H-Thymidine suicide showed that cell-cycle duration for these cells was 22.5 h and that S-phase duration was 11.7 h.     

Natural killer cell-mediated antitumor reactivity of rhesus monkeys

We have analyzed natural killer (NK) cell-mediated antitumor activity or peripheral blood mononuclear cells of rhesus monkeys. All monkeys displayed significant NK cell cytolytic activity against the human tumor cell lines K-562, Daudi and CEM in a short-term (3 h) 51Cr-release assay. Similar to NK cells described in other species, the cytotoxic cells of monkeys were relatively nonadherent to nylon wool columns, exhibited low density after separation on discontinuous Percoll density gradients, and displayed large granular lymphocyte (LGL) morphology. Analysis of the mechanism of NK cell cytotoxicity of rhesus monkeys demonstrated that on the average, 7.1% (range: 3.1-13.2%) of lymphocytes bound to K-562 tumor, and that approximately 14.8% (range: 7.9-26.3%) of these tumor-binding cells (TBC) were cytolytically active. Examination of TBC on cytocentrifuge slides indicated that the majority of binders displayed LGL morphology. The cytotoxic reaction mediated by monkey NK cells exhibited Michaelis-Menten kinetics pattern; the maximum rate of lysis (Vmax) of K-562 was found to be 1-2 X 10(4) following 3 h of incubation. Using similar culture conditions, the recycling capacity of NK cells of this species was estimated at 2-6 times. Finally, it was observed that the NK cell activity of most monkeys could be potentiated following in vitro exposure to the biological response modifier, interleukin-2.     

Detection of surface differences between closely related cell populations by partitioning. Cultured K-562 cell sublines

The K-562 cell line is a culture of human leukemia stem cells originally derived from a patient with chronic myelogenous leukemia in blast crisis. We have applied a sensitive method capable of detecting subtle differences in charge-associated and noncharge-related cell surface properties between closely related cell populations to K-562 cells from different sources and having different histories. The method consists of isotopically labeling aliquots of each of two cell populations to be compared with 51Cr-chromate and mixing the labeled cells with an excess of unlabeled cells with which they are to be compared. The mixtures are subjected to countercurrent distribution in either a charge-sensitive or a noncharge-sensitive dextran-poly(ethylene glycol) aqueous two-phase system. The distribution curves are analyzed for total cells (in terms of electronic counts) and labeled cells (in terms of cpm). Alterations in relative specific activities through the distribution curves are indicative of differences in surface properties between such cell populations. Using this method we have found surface differences, both charge-associated and noncharge-related, between any two K-562 cell sublines examined. Interestingly, whereas we observed differences among K-562 sublines, we never witnessed a change in surface properties of the respective sublines. The differences among the sublines examined remained unaltered for more than 40 passages in our hands. It thus appears likely that the event(s) leading to an altered K-562 cell surface, detectable by partitioning, does not occur gradually.     

Distinction of apoptotic and necrotic cell death by in situ labelling of fragmented DNA

The occurrence and spatial distribution of intracellular DNA fragmentation was investigated by in situ 3 end labelling of DNA breaks in K562 cells treated in such a way to cause either apoptotic or necrotic cell death. The localisation of DNA breaks was examined by confocal laser microscopy and compared with the electron-microscopic appearance of the cells. In addition, the number of cells with fragmented DNA was counted and compared with the number of dead cells, as determined by the nigrosin dye exclusion test. Apoptosis was induced by cultivation of the cells in the presence of actinomycin D. Cells undergoing apoptosis were characterised by massive intracellular DNA fragmentation that was highly ordered into successive steps. Cells in early stages of the apoptotic process had DNA breaks diffusely distributed in the entire nucleus, except the nucleolus, with crescent-like accumulations beyond the nuclear membrane. In the more advanced stages, the nucleus was transformed into many round bodies with intense labelling. Intracellular accumulations of fragmented DNA corresponded exactly to electron-dense chromatin seen in the electron microscope, whereas diffuse DNA breaks had no morphological correlate at the ultrastructural level. In necrosis induced by ionomycin, NaN₃, or rapid freezing combined with thawing, no DNA fragmentation occurred at the onset of cell death, but appeared 24 h later. This fragmentation was not characterised by a unique morphology, but represented the breakdown of the chromatin in the configuration remaining after cell death. Therefore, apoptosis is characterised by DNA fragmentation that proceeds in a regular orderly sequence at the beginning of cell death, and can be detected by in situ 3end labelling of DNA breaks.     

Effect of dithiocarbamate pesticide zineb and its commercial formulation,azzurro. IV. DNA damage and repair kinetics assessed by single cell gel electrophoresis (SCGE) assay on Chinese hamster ovary (CHO) cells

Single cell gel electrophoresis (SCGE) was used to analyse dithiocarbamate zineb- and the zineb-containing technical formulation azzurro-induced DNA damage and repair in CHO cells. Cells were treated with zineb (50.0 microg/ml) or azzurro (100.0 microg/ml) for 80min, washed and reincubated in pesticide-free medium for 0-12h until SCGE. Viability of treated cells (0 h) did not differ from control remaining unchanged up to 6h of incubation. After 12h, viability decreased up to 70 and 54% in zineb- and azzurro-treated cultures, respectively. SCGE revealed at 0 h the absence of undamaged cells and an increase of slightly damaged and damaged cells in zineb-treated cultures or by an increase in damaged cells in azzurro-treated cultures. For both chemicals, a time-dependent repair of pesticide-induced DNA damage within a 0-12h post-treatment incubation period was observed. Overall, damaged cells decreased as a function of the repair time for both pesticides while the slightly damaged cells decreased as a function of the repair time of zineb-induced DNA damage. Concomitantly, a time-dependent increase of undamaged cells was observed within the 0.5-12h repair time for both pesticides. At 12h after treatment, no differences in the frequencies of undamaged, slightly damaged and damaged cells were found between both zineb- or azzurro-treated cultures and control values as well as between zineb- and azzurro-treated cells. Immediately after exposure, nuclear DNA from zineb and azzurro-treated cells were larger and wider than nuclear DNA from untreated cells. When damaged cells were allowed to repair, a time-dependent decrease of the amount of free DNA migrating fragments was observed committed only to damaged cells but not in slightly or undamaged cells. On the other hand, no time-dependent alteration on nuclear DNA width within the 0-12h repair period was observed.     

Role of AKAP 149–PKA–PDE4A complex in cell survival and cell differentiation processes

The cellular localization of A-kinase anchoring proteins (AKAPs), protein kinase A (PKAs) and phosphodiesterases (PDEs) is a key step to the spatiotemporal regulation of the second messenger adenosine 3′,5′-cyclic monophosphate (cAMP). In this paper the cellular distribution of the mitochondrial AKAP 149–PKA–PDE4A complex and its implications in the cell death induced by YTX treatment, a known PDE modulator, was studied. K-562 cell line was incubated with YTX for 24 or 48 h. Under these conditions AKAP 149, PKA and type-4A PDE (PDE4A) levels were measured in the cytosol, in the plasma membrane and in the nucleus. Apoptotic hallmarks were also measured after the same conditions. In addition, YTX effect on cell viability was checked after AKAP 149 and PDE4A silencing. The results obtained show a decrease in AKAP 149–PKA–PDE4A levels in cytosol after YTX exposure. 24 h after the toxin addition, the complex expression increased in the plasma membrane and after 48 h in the nucleus domain. Furthermore Bcl-2 levels were decreased and the expression of caspase 3 together with caspase 8 activity were increased after 24 h of toxin incubation but not after 48 h. These results suggest apoptotic cell death at 24 h and a non-apoptotic cell death after 48 h. When AKAP 149 and PDE4A were silenced YTX did not induce cellular death. In summary, AKAP 149–PKA–PDE4A complex localization is related with YTX effect in K-562 cell line. When this complex is mainly located in the plasma membrane apoptosis is activated while when the complex is in the nuclear domain non-apoptotic cellular death or cellular differentiation is activated. Therefore AKAP 149–PKA–PDE4A distribution and integrity have a key role in cellular survival.     

Distinct mechanisms underlay DNA disintegration during apoptosis induced by genotoxic and nongenotoxic agents in neuroblastoma cells

Exposure of mouse NB-2a neuroblastoma cells to genotoxic (etoposide or cytosine arabinoside) or nongenotoxic challenges (serum deprivation or okadaic acid) resulted in progressive cell death with biochemical and morphological characteristics typical of apoptosis. Apoptotic cell death induced by nongenotoxic agents was associated with the disintegration of nuclear DNA into high molecular weight (HMW) and oligonucleosomal-DNA fragments, while the formation of HMW-DNA fragments, but not oligonucleosomal-DNA ladder accompanied apoptosis induced by genotoxic agents. Combination of genotoxic and nongenotoxic insults, i.e. incubation of etoposide-treated cells in the serum-free medium, resulted in an additive effect on the profile of DNA disintegration, which involved both HMW fragmentation pattern as in etoposide alone treated cells and the oligonucleosomal-DNA ladder observed with serum-deprived cells. On the other hand, incubation of serum-deprived cells in the presence of Zn²⁺-ions led to the abrogation of internucleosomal DNA fragmentation but accumulation of HMW-DNA fragments. Differences in the pattern of DNA fragmentation were reproducible in a cell free apoptotic system after treatment of isolated normal nuclei with cytosolic extracts prepared from the cells treated with genotoxic or nogenotoxic apoptotic inducers. Cell free experiments also revealed that activities responsible for the formation of HMW- and oligonucleosomal-DNA fragments are separable in cytosolic extract prepared from the serum-deprived cells. Finally, DNA fragmentation induced by nongenotoxic apoptotic inducers was effectively prevented by cycloheximide and suramin, while both cycloheximide and suramin had only a slight inhibitory effect on DNA fragmentation induced by genotoxic agents. The results presented suggest that distinct pathways underlay disintegration of nuclear DNA during apoptosis induced by genotoxic and nongenotoxic inducers, and that the formation of HMW- and oligonucleosomal-DNA fragments proceeds via separate mechanisms in NB-2a neuroblastoma cells.     

Persistence of herpes simplex virus type-2 genome in a human leukemic cell line

To study the nature of virus-cell interaction in persistently infected cells we have examined production of infectious virus, synthesis of viral DNA and DNA polymerase in a human leukemic cell line K562. It was found that only one of three K562 cell lines was permissive for limited growth of HSV-2 and infectious virus was released in a cyclical fashion. Intranuclear inclusions with electron-dense fibrils and particles resembling viral structures were observed in the virus-infected but not control K562 cells. Viral DNA synthesis could not be detected by centrifugation in CsCl density gradients; but was readily identified by Southern blot hydridization of virus-infected intracellular DNA with purified viral DNA. Viral DNa polymerase was synthesized by infected cells during active infectious virus production. In one of the two K562 cell lines that did not produce infectious virus, a few DNA fragments from infected cells were found to hybridize with purified viral DNA. These results suggest that variable lengths of HSV-2 genome can be harbored and propagated by different human leukemic K562 cells.