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)

Previous studies have shown that K562 chronic myelogenous leukemia cells are resistant to induction of apoptosis by a variety of agents, including the topoisomerase II (topo II) poison etoposide, when examined 4 to 24 hours after treatment with an initiating stimulus. In the present study, the responses of K562 cells and apoptosis-proficient HL-60 acute myelomonocytic leukemia cells to etoposide were compared, with particular emphasis on determining the long-term fate of the cells. When cells were treated with varying concentrations of etoposide for 1 hour and subsequently plated in soft agar, the two cell lines displayed similar sensitivities, with a 90% reduction in colony formation at 5 to 10 mu mol/L etoposide. After treatment with 17 mu mol/L etoposide for 1 hour, cleavage of the caspase substrate poly(ADP-ribose) polymerase (PARP), DNA fragmentation, and apoptotic morphological changes were evident in HL-60 cells in less than 6 hours. After the same treatment, K562 cells arrested in G2 phase of the cell cycle but otherwise appeared normal for 3 to 4 days before developing similar apoptotic changes. When the etoposide dose was increased to 68 mu mol/L, apoptotic changes were evident in HL-60 cells after 2 to 3 hours, whereas the same changes were observed in K562 cells after 24 to 48 hours. This delay in the development of apoptotic changes in K562 cells was accompanied by delayed release of cytochrome c to the cytosol and delayed appearance of peptidase activity that cleaved the fluorogenic substrates Asp-Glu-Val-Asp-aminotrifluoromethylcoumarin (DEVD-AFC) and Val-Glu-Ile-Asp-aminomethylcoumarin (VEID-AMC) as well as an altered spectrum of active caspases that were affinity labeled with N-(Nalpha-benzyloxycarbonylglutamyl-Nepsilon-biotin yllysyl) aspartic acid [(2,6-dimethylbenzoyl)oxy]methyl ketone [z-EK(bio)D-aomk]. On the other hand, the activation of caspase-3 under cell-free conditions occurred with indistinguishable kinetics in cytosol prepared from the two cell lines. Collectively, these results suggest that a delay in the signaling cascade upstream of cytochrome c release and caspase activation leads to a long latent period before the active phase of apoptosis is initiated in etoposide-treated K562 cells. Once the active phase of apoptosis is initiated, the spectrum and subcellular distribution of active caspase species differ between HL-60 and K562 cells, but a similar proportion of cells are ultimately killed in both cell lines.
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PMID:Comparison of caspase activation and subcellular localization in HL-60 and K562 cells undergoing etoposide-induced apoptosis. 937 39

We compared two methods to stain apoptotic cells, one using terminal deoxynucleotidyl transferase (TDT), the other DNA polymerase I, using leukemia cell lines treated with anti-Fas monoclonal antibody (MAb). Both TDT and polymerase I strongly reacted with fragmented nuclei of apoptotic MOLT-16 and Jurkat cells, but only polymerase I strongly reacted with nonfragmented nuclei of early apoptotic cells. Anti-Fas MAb-treated MOLT-4 cells showed morphological changes corresponding to early apoptosis and were strongly positive for polymerase I only. MOLT-16 and Jurkat cells treated with anti-Fas MAb and inhibitors of endonuclease and poly(ADP-ribose) polymerase showed the morphology of early apoptosis but were not strongly stained by TDT. Because DNA polymerase I has nick-translation activity, it is possible that DNA polymerase I reaction is positive in early apoptotic cells by detecting single-strand DNA cleavage, which occurs before extensive oligonucleosomal DNA cleavage and late morphological changes of apoptosis in leukemia cell lines. Although TDT is widely used to stain apoptotic cells, DNA polymerase I may be more applicable in special cases of apoptosis, in which cells undergo single-strand rather than double-strand DNA breaks. However, the procedure has limitations, such as the necessity to use cell smears for comparison with the TDT reaction. (J Histochem Cytochem 46:85-90, 1998)
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PMID:Comparison of two methods of staining apoptotic cells of leukemia cell lines. Terminal deoxynucleotidyl transferase and DNA polymerase I reactions. 940 97

Ethylene glycol ethers are common solvents. Some isomers are toxic for the reproduction and immunity functions of humans and laboratory animals and are antileukemic for rodents. The health hazards of ethylene glycol ethers may result from their ability to induce cell death in various organs or tissues. To study this possibility, the human leukemia cell lines HL-60, Molt3, and K562 were treated with ethylene glycol ethers. 2-Ethoxyethanol and 2-butoxyethanol were selected because they are among the most commonly used ethelyne glycol ethers, but little is known about their individual toxicity. Cell death was detected by trypan blue uptake, flow cytometry, DNA electrophoresis, and poly(ADP-ribose) polymerase proteolysis. The treatments lasted up to 72 h with doses ranging from 1 to 20 mM, which are high relative to the concentrations found in biological fluids of exposed workers. The highest dose of 2-butoxyethanol (20 mM) induced apoptosis in Molt3 cells after 72 h incubation. Other treatments had no effect, induced necrosis, or blocked the cells in the G1 phase of the cell cycle.
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PMID:Glycol ethers induce death and necrosis in human leukemia cells. 949 64

Intracellular cysteine proteases are important mediators of apoptosis. Indeed, some nuclear proteins and enzymes are cleaved during apoptosis, in particular poly(ADP-ribose) polymerase (PARP), which is activated by DNA strand interruptions and is involved in DNA repair. PARP is cleaved into two fragments of 29 and 85 kDa (apparent molecular mass) in human promyelomonocytic leukemia cells, HL-60, treated with etoposide to induce apoptosis. These cells possess protease activities, caspases, that share many features with the ICE/CED-3 family. The cleavage occurs between Asp-214 and Gly-215, a site that is conserved in human, bovine, and chicken PARP. This cleavage has been shown to be an early marker of apoptosis. To monitor apoptosis, to understand the role of PARP cleavage by caspases, and to study the role of the two fragments in DNA repair, members of our laboratory have developed two polyclonal antipeptide antibodies directed against the two human PARP sequences: [196-214] for LP96-22 and [215-228] for LP96-24. Moreover, these antibodies will be useful to map the necrotic cleavage of PARP, which generates fragments different from those obtained during apoptosis, and thus to discriminate between apoptotic and necrotic cell death.
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PMID:Characterization of antibodies specific for the caspase cleavage site on poly(ADP-ribose) polymerase: specific detection of apoptotic fragments and mapping of the necrotic fragments of poly(ADP-ribose) polymerase. 949 68

We have identified the CD95 system as a key mediator of chemotherapy-induced apoptosis in leukemia and neuroblastoma cells. Here, we report that sensitivity of various solid tumor cell lines for drug-induced cell death corresponds to activation of the CD95 system. Upon drug treatment, strong induction of CD95 ligand (CD95-L) and caspase activity were found in chemosensitive tumor cells (Hodgkin, Ewing's sarcoma, colon carcinoma and small cell lung carcinoma) but not in tumor cells which responded poorly to drug treatment (breast carcinoma and renal cell carcinoma). Blockade of CD95 using F(ab')2 anti-CD95 antibody fragments markedly reduced drug-induced apoptosis, suggesting that drug-triggered apoptosis depended on CD95-L/receptor interaction. Moreover, drug treatment induced CD95 expression, thereby increasing sensitivity for CD95-induced apoptosis. Drug-induced apoptosis critically depended on activation of caspases (ICE/Ced-3-like proteases) since the broad-spectrum inhibitor of caspases zVAD-fmk strongly reduced drug-mediated apoptosis. The prototype substrate of caspases, poly(ADP-ribose) polymerase, was cleaved upon drug treatment, suggesting that CD95-L triggered autocrine/paracrine death via activation of caspases. Our data suggest that chemosensitivity of solid tumor cells depends on intact apoptosis pathways involving activation of the CD95 system and processing of caspases. Our findings may have important implications for new treatment approaches to increase sensitivity and to overcome resistance of solid tumors.
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PMID:Chemosensitivity of solid tumor cells in vitro is related to activation of the CD95 system. 953 69

The DNA repair enzyme O6-alkylguanine DNA-alkyltransferase (OGAT) and a deficient mismatch repair system play a critical role in the resistance to chemotherapeutic agents that generate adducts at the O6-position of guanine. However, DNA adducts different from O6-methylguanine might be also involved in cytotoxicity induced by methylating agents. Because the loss of p53 function is generally associated with tumor cell resistance to anticancer chemotherapy, we have investigated whether wild-type p53 might affect chemosensitivity of leukemia cells endowed with high OGAT levels to the methylating agent temozolomide (TZM). The effect of poly(ADP-ribose) polymerase (PADPRP) inhibition, which potentiates the cytotoxic effects of N7-methylguanine and N3-methylguanine, was also assessed in OGAT-proficient cells, either susceptible or tolerant to O6-methylguanine. OGAT-proficient and p53 null HL60 cells were transfected with the human p53 cDNA (p53+ cells). Treatment with TZM concentrations not toxic for the cells transduced with the control vector (p53-cells), induced apoptosis in p53+ cells. These cells were characterized by a lower level of bcl-2 protein than p53- cells, whereas bax and OGAT expression was comparable in both lines. Inhibition of PADPRP potentiated the cytotoxic and apoptotic effects of TZM in either p53- or p53+ HL60 cells. Furthermore, PADPRP inhibitors potentiated apoptosis induced by TZM in Jurkat cells, which possess a mutated p53 gene and are tolerant to O6-methylguanine adducts. The analysis of cell cycle indicated that the drug combination of TZM and PADPRP inhibitors provoked G1 arrest only in p53+ cells. Conversely, G1 arrest was not observed in p53+ cells exposed to TZM alone. It is possible to speculate that PADPRP inhibitors might affect the repair of DNA adducts that are processed differently from O6 methylguanine and induce a different pattern of cell cycle distribution. In conclusion, the results show that p53 increases apoptosis by TZM in OGAT-proficient cells and suggest the potential role of PADPRP inhibitors in enhancing TZM activity against leukemias independently of DNA repair systems.
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PMID:Role of wild-type p53 on the antineoplastic activity of temozolomide alone or combined with inhibitors of poly(ADP-ribose) polymerase. 958 Jun 40

AP24 is a serine protease that is activated during TNF or UV light-induced apoptosis and stimulates DNA fragmentation in isolated nuclei. The present study determined whether apoptosis induced by chemotherapeutic drugs resulted in activation of AP24 and examined the possible relationship to caspase activity. We showed that an inhibitor of AP24, DK120, could block DNA fragmentation induced in three leukemia cell lines (U937, HL-60, and CEM) by various DNA-damaging drugs including etoposide, camptothecin, chlorambucil, and the CC1065-related drug, YW201. Etoposide-induced activation of intracellular DEVD-pNa cleaving activity and apoptosis was suppressed by low micromolar concentrations of cell-permeable inhibitors of caspase-3. Furthermore, these inhibitors also suppressed activation of AP24. In contrast, DK120 did not prevent etoposide activation of DEVD-pNa cleaving activity, nor did it prevent cleavage of poly(ADP-ribose) polymerase. AP24 isolated from apoptotic cells following treatment with etoposide activated DNA fragmentation in isolated normal nuclei and was inhibited by DK120, but not by caspase inhibitors. This evidence shows that activation of caspase 3-like proteases generates signals that contribute to the activation of AP24 which may then induce nuclear DNA fragmentation in chemotherapeutic drug-induced apoptosis.
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PMID:Chemotherapeutic drug activation of the AP24 protease in apoptosis: requirement for caspase 3-like-proteases. 958 94

Murine myeloid progenitor cells that are dependent on interleukin-3 (IL-3) undergo apoptosis when this essential cytokine is withdrawn. To determine whether IL-3 withdrawal leads to the activation of caspase proteases, known mediators of apoptosis, we studied proteolytic cleavage of the caspase substrate protein poly(ADP-ribose) polymerase (PARP) in two IL3-dependent myeloid progenitor cell lines, 32D and FDCP-1. We observed that IL-3 withdrawal leads to PARP cleavage in both cell lines, with complete cleavage occurring by 24 h after cytokine removal. The induced PARP cleavage activities were blocked by the caspase inhibitors z-DEVD-fluoromethyl ketone (z-DEVD-FMK) and z-VAD-fluoromethyl ketone (z-VAD-FMK), or by overexpression in 32D cells of Bcl-2 or BCR/ABL. By contrast, overexpression in 32D cells of cowpox virus CrmA protein, an inhibitor of Fas-mediated PARP cleavage, failed to inhibit PARP cleavage following IL-3 withdrawal. CrmA also failed to block DNA fragmentation and loss of cell viability. We propose that a CrmA-insensitive caspase protease is activated in the IL-3-deprived myeloid precursors, and that activation of this protease may direct the cells on a path towards commitment to death.
Leukemia 1998 May
PMID:IL-3 withdrawal activates a CrmA-insensitive poly(ADP-ribose) polymerase cleavage enzyme in factor-dependent myeloid progenitor cells. 959 65

Viruses have evolved different strategies to interfere with host cell apoptosis. Herpesvirus saimiri (HVS) and other lymphotropic herpesviruses code for proteins that are homologous to the cellular antiapoptotic Bcl-2. In this study HVS-Bcl-2 was stably expressed in the human leukemia cell line Jurkat and in the murine T-cell hybridoma DO to assess its antiapoptotic spectrum and to gain further insight into its mode of action. HVS- Bcl-2 prevented apoptosis that occurs as a result of a disturbance of intracellular homeostasis by, for example, DNA damage or menadione, which gives rise to oxygen radicals. In Jurkat cells, HVS-Bcl-2 also inhibited apoptosis mediated by the death receptor CD95. In DO cells, HVS-Bcl-2 did not interfere with CD95-mediated apoptosis but blocked dexamethasone-induced cell death. Mitochondrial damage is a central coordinating event in apoptosis induced by different stimuli. To assess the integrity of mitochondria, we used rhodamine 123, which is released upon disturbance of the mitochondrial membrane potential, and determined the release of cytochrome c into the cytosol. Both signs of mitochondrial damage were prevented by HVS-Bcl-2. This viral protein also inhibited the generation of caspase-3-like DEVDase activity and blocked the cleavage of poly(ADP-ribose) polymerase, a natural substrate of caspase-3-like proteases. In conclusion, HVS-Bcl-2 protects against a great variety of apoptotic stimuli, stabilizes mitochondria, and acts upstream of the generation of caspase-3-like activity.
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PMID:Antiapoptotic activity of the herpesvirus saimiri-encoded Bcl-2 homolog: stabilization of mitochondria and inhibition of caspase-3-like activity. 962 Oct 51

Nitric oxide (NO) promotes apoptotic cell death in the mouse macrophage cell line RAW 264.7 and in the human promyelocytic leukaemia cell line U937, which exemplifies p53-dependent and p53-independent executive death pathways. Here, we followed the cleavage of two caspase substrates during NO-intoxication, assaying poly(ADP-ribose) polymerase and U1-70kDa small ribonucleoprotein (U1-70kDa) degradation. By using pharmacological inhibitors, we found that Z-aspartyl-2,6-dichlorobenzoyloxymethylketone (Z-Asp-CH2-DCB; 100 microM), a caspase-like protease inhibitor, completely blocked S-nitrosoglutathione (GSNO)-induced apoptosis in both RAW 264.7 and U937 cells (IC50 = 50 microM for RAW 264.7 macrophages vs. IC50 = 33 microM for U937 cells). Notably, a characterized caspase-3 (Ac-DEVD-CHO) inhibitor left NO-induced DNA fragmentation and the appearance of an apoptotic morphology unaltered, although completely blocking caspase-3 activity. However, Z-Asp-CH2-DCB suppressed protease-mediated U1-70kDa cleavage and DNA fragmentation in parallel. In contrast, poly(ADP-ribose) polymerase cleavage in U937 cells was only delayed by Z-Asp-CH2-DCB, while poly(ADP-ribose) polymerase digestion in RAW 264.7 macrophages proceeded unaltered. We further compared U1-70kDa and poly(ADP-ribose) polymerase cleavage in stably Bcl-2 transfected RAW 264.7 macrophages. Rbcl2-2, a Bcl-2 overexpressing clone, suppressed DNA fragmentation and U1-70kDa digestion in response to GSNO, although allowing delayed but complete poly(ADP-ribose) polymerase degradation. Conclusively, poly(ADP-ribose) polymerase cleavage not causatively coincided with the appearance of other apoptotic parameters. Our results suggest that NO-induced apoptosis demands a Z-Asp-CH2-DCB inhibitable caspase activity, most likely distinct from caspase-3 and caspase-1. NO-mediated executive apoptotic signaling results in U1-70kDa and poly(ADP-ribose) polymerase cleavage. Whereas U1-70kDa digestion closely correlates to the occurrence of apoptotic parameters such as DNA fragmentation or an apoptotic morphology, poly(ADP-ribose) polymerase-breakdown does not.
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PMID:Protease activation during nitric oxide-induced apoptosis: comparison between poly(ADP-ribose) polymerase and U1-70kDa cleavage. 967 Nov 15

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