EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Methylation and DNase I-hypersensitive sites of the myeloperoxidase gene in human myeloid leukemia HL-60 cells were studied by Southern blot hybridization using the myeloperoxidase gene probes. Digestion of DNA with a methylation-sensitive restriction endonuclease indicated that a CpG in the CCGG sequence located 3.53 kbp upstream of the myeloperoxidase gene was unmethylated in HL-60 cells expressing the gene, whereas it was methylated in K562 cells and human placenta not expressing the gene. The site in HL-60 cells remained unmethylated after retinoic acid- or 12-O-tetradecanoyl-phorbol-13-acetate-induced differentiation that arrests myeloperoxidase synthesis. Digestion of isolated nuclei with various amounts of DNase I indicated that four DNase I-hypersensitive sites were in an upstream region of the myeloperoxidase gene in HL-60 cells and three sites were within the gene. In retinoic acid-induced cells, the bands of the hypersensitive site near the 5' side of the gene and that in the first intron became weak, while that of the site in the fifth intron became strong. The bands of these hypersensitive sites were weak in K562 cells. The implications of these changes in tissue-specific expression and developmental down-regulation of the myeloperoxidase gene are discussed.
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PMID:Undermethylation and DNase I hypersensitivity of myeloperoxidase gene in HL-60 cells before and after differentiation. 130 85

Closed circular unintegrated DNA of the SEATO strain of gibbon ape leukemia virus (GaLV-S) was isolated from canine thymus fibroblasts after cocultivation with chronically infected bat lung fibroblasts. Restriction endonuclease HindIII cleaves GaLV-S DNA once, thus allowing isolation and cloning of HindIII-digested unintegrated DNA in a permitted form. Two clones isolated in the vector, Charon 21A, were nearly identical by restriction enzyme mapping to each of the two types of GaLV-S previously observed. These two types differ at a single SalI site. Unlike previous maps of GaLV-S proviral DNA, however, both clones lack SstI sites in the long-terminal-repeat units. Both the GaLV-S clones and the major species of GaLV-S proviral DNA contain an EcoRI site in the long-terminal-repeat units. The presence of this EcoRI site and the absence of an SstI site in the GaLV-S long-terminal-repeat units differentiate it from all other known GaLV strains and from the closely related nononcogenic simian sarcoma-associated virus. Heteroduplex comparisons of each of the two clones to clones of simian sarcoma-associated virus show no obvious deletion or substitution loops. This suggests that the ability of GaLV-S to induce myeloid leukemia in gibbon apes in not due to an acquired onc gene.
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PMID:Molecular cloning of circular unintegrated DNA of two types of the SEATO strain of gibbon ape leukemia virus. 629 90

Samples of leukemic cell DNA from 14 children with acute nonlymphocytic leukemia (ANLL) and 4 human myeloid leukemia cell lines were analyzed for rearrangement in the heavy chain region of the immunoglobulin gene. The diagnosis of ANLL was confirmed in all patients by morphological, cytochemical, and immunologic studies. By restriction endonuclease digestion and hybridization with cloned heavy chain immunoglobulin gene probes for the constant (Cmu) and joining (JH) regions, the DNA of 2 patients and 1 cell line (ML-1) was found to contain rearrangements. The DNA from the remaining 12 patients and 3 cell lines was not rearranged (germline configuration). Both patients with apparent immunoglobulin gene rearrangement achieved complete remission on therapy for ANLL. Immunoglobulin gene rearrangement in phenotypically defined ANLL suggests (1) that such changes may not be limited to lymphoid leukemia of B cell lineage, or (2) that, in some patients, the leukemic transforming event may involve stem cells capable of both B cell and myeloid differentiation.
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PMID:Heavy chain immunoglobulin gene rearrangement in acute nonlymphocytic leukemia. 632 25

The present studies were undertaken to characterize further the potential role of protein kinase C (PKC) in the regulation of apoptosis in HL-60 promyelocytic leukemia cells. The capacity of acute exposure to specific and nonspecific pharmacological inhibitors of PKC to promote apoptotic DNA fragmentation was examined both quantitatively and qualitatively and correlated with effects on cellular differentiation and proliferation. Incubation of HL-60 cells for 6 h with chelerythrine and calphostin C (highly specific inhibitors that act at the regulatory domain) or H7 and gossypol (nonspecific inhibitors that act at the PKC catalytic domain) produced concentration-dependent increases in DNA fragmentation. Induction of DNA fragmentation by chelerythrine, calphostin C, and gossypol was biphasic, resulting in a sharp decline in effect at concentrations above 5 microM, 0.1 microM, and 100 microM, respectively, whereas maximal and more stable effects were observed in response to H7 (100 microM). A 6-h exposure to staurosporine, a nonspecific but potent PKC inhibitor, failed to induce DNA fragmentation at concentrations generally used to achieve maximal inhibition of enzyme activity (e.g., 50 nM) but promoted fragmentation at considerably higher concentrations (e.g., > or = 200 nM). In contrast, 6-h exposures to the nonspecific protein kinase inhibitor hypericin (0.1 to 100 microM) or to the nonspecific inhibitor of protein kinase A, HA1004 (50 microM), were without effect on DNA fragmentation. DNA obtained from cells exposed to chelerythrine (5 microM), calphostin C (100 nM), H7 (50 microM), gossypol (50 microM), and staurosporine (200 nM)--but not hypericin (25 microM)--exhibited clear evidence of internucleosomal DNA cleavage on agarose gel electrophoresis; moreover, these cells exhibited the classical morphological features of apoptosis (cell shrinkage, nuclear condensation, and the formation of apoptotic bodies). All of the PKC inhibitors that induced apoptosis, and one of the inhibitors that did not (hypericin), substantially inhibited HL-60 cell clonogenicity at the concentrations evaluated. None of the agents tested induced cellular maturation as assessed by nonspecific esterase and nitro-blue tetrazolium positivity. DNA fragments obtained from cells exposed to specific and nonspecific PKC inhibitors possessed predominantly 5'-phosphate termini, consistent with the action of a Ca(2+)-/Mg(2+)-dependent endonuclease. Finally, Northern blot analysis revealed that exposure to calphostin C at a concentration that induced apoptosis (100 nM) failed to alter expression of bcl-2, an oncogene known to block apoptosis in both lymphoid and myeloid leukemia cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Induction of apoptotic DNA fragmentation and cell death in HL-60 human promyelocytic leukemia cells by pharmacological inhibitors of protein kinase C. 751 Oct 48

We recently reported that treatment with calcium ionophore, A23187, induces apoptosis in human myelogenous leukemia cells but causes necrotic cell death in T-lymphoblastic leukemia cells. To better understand the underlying mechanisms of such different modes of cell death, we established hybridomas between HL-60 promyelocytic and CEM T-lymphoblastic leukemia cells. The resulting hybridomas were divided into three groups in terms of their susceptibility to apoptosis following exposure to A23187: (1) hybridomas highly sensitive to apoptosis, (2) hybridomas with intermediate sensitivity to apoptosis which occurs later and to a lesser extent, and (3) hybridomas resistant to apoptosis. However, growth inhibition after 72 h of incubation and an initial rise in intracellular free calcium concentrations induced by A23187 were similar in the three groups. Expression of Ca(2+)-independent/Mg(2+)-dependent endonuclease, which had an optimal pH of 7.5-8.5 and was inhibited by Zn2+, was correlated with the susceptibility of the hybridomas to A23187-induced apoptosis. Thus, this endonuclease may play, at least in part, an important role in the induction of apoptosis in leukemia cell lines. Analysis of hybridomas between apoptosis-sensitive and apoptosis-resistant cells is useful in the elucidation of genetic factors which regulate cell death.
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PMID:Variable susceptibility to apoptosis induced by calcium ionophore in hybridomas between HL-60 promyelocytic and CEM T-lymphoblastic leukemia cell lines: relationship to constitutive Mg(2+)-dependent endonuclease. 805 Apr 97

The mechanism of cell death induced by calcium ionophore, A23187, was investigated in six human leukemia cell lines. Following exposure to 1 microM A23187, the myelogenous cell lines (HL-60, U-937, KG-1) underwent apoptosis within 3 h as determined by their morphology and DNA fragmentation assay. In contrast, T-lymphoblastic leukemia cell lines (Molt-4, Molt-3, CEM) revealed necrotic cell death after 24 h of incubation. However, an initial rise of intracellular free calcium concentrations and growth inhibition after treatment with A23187 were similar in the two cell types. We further showed that an endonuclease capable of mediating internucleosomal DNA fragmentation was constitutively expressed in the cytosol but not in the nuclei of the myelogenous cell lines, although this endonuclease was not detected in either the nuclei or the cytosol of the T-lymphoblastic cell lines. The activation of the endonuclease in myelogenous cells is calcium-independent and has an optimal pH of 7.5-9. It is inhibited by 1 mM zinc ion or 300 microM aurintricarboxylic acid. We propose that this constitutive endonuclease may be related to the susceptibility of myelogenous leukemia cell lines to apoptotic cell death.
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PMID:Different mode of cell death induced by calcium ionophore in human leukemia cell lines: possible role of constitutive endonuclease. 826 92

We detected Mg(2+)-dependent, Ca(2+)-independent endonuclease activity in non-apoptotic myeloid leukemia cell nuclei using autodigestion method which cleaved the chromatin of the autologous leukemia cells to an oligonucleosomal length pattern. Similar endonuclease activity could be successfully recovered in the protein extracts of the human leukemia cell nuclei. The extracts consistently elicited characteristic DNA cleavage of another leukemia cell (KG-1) nuclei as the target, the enzyme activity of which had been inactivated. We propose that this method is a useful tool for the study of endonucleases involved in apoptosis.
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PMID:Detection of Mg(2+)-dependent endonuclease activity in myeloid leukemia cell nuclei capable of producing internucleosomal DNA cleavage. 844 27

Abasic (AP) sites in DNA are cytotoxic and mutagenic and their repair is initiated by AP endonucleases. The major AP endonuclease of mammalian cells is encoded by the APE gene. Ape protein has also been proposed to modulate the activity of some transcription factors independently of its AP endonuclease activity. We investigated whether APE expression is coordinated with cell division, which could diminish mutagenesis. The level of APE mRNA was followed during wound healing in porcine epidermis, in which surgical wounding prompts rapid cell proliferation followed by a differentiation program to regenerate normal skin. In situ hybridization with a probe from human APE cDNA revealed strongly decreased expression in rapidly proliferating migrating cells during the first 1-3 days following wounding, succeeded by sharply increased APE expression that exceeded the pre-wounding levels by days 9-17. These changes were not observed in the surrounding undamaged tissue. In contrast to the foregoing in vivo results, APE expression in cultured primary human fibroblasts (IMR90) or myeloid leukemia cells (K562) was not coordinated with cell division. This biphasic APE expression during wound healing could relate to transcription factor regulation or it could allow unhindered DNA synthesis or prepare the developing epidermis to handle DNA damage. However, if transient under-expression of APE-encoded repair enzyme does occur, it might render regenerating skin especially vulnerable to mutagenesis during the cell proliferation phase.
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PMID:Regulated expression of APE apurinic endonuclease mRNA during wound healing in porcine epidermis. 862 67

The presence of at least two distinct Mg2+- or Mn2+-dependent, Ca2+-independent endonuclease activities was shown in the myeloid leukemia cell line P39. One of them was recovered from nuclear extracts and the other from a cytoplasmic fraction. The molecular size of the former was 30 kDa in both gel filtration and activity gel and that of the latter approximately 130-140 kDa in gel filtration and 65-70 kDa in activity gel. These two activities were almost completely inhibited by 0.1 mM ZnCl2 or 0.1 mM aurintricarboxylic acid, common inhibitors of apoptosis. Both could produce nucleosomal-size DNA fragmentation when incubated with diethyl-pyrocarbonate-treated nuclei as substrates, and the pattern of cleavage was 3'-OH and 5'-P. Taken together, either or both of these activities may be associated with apoptosis of myeloid leukemia cells.
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PMID:Mg2+- or Mn2+-dependent endonuclease activities of human myeloid leukemia cells capable of producing nucleosomal-size DNA fragmentation. 914 10

To explore the possibility of a new therapeutic strategy for leukemia by intervening in the DNA methylation to re-express p15 suppressor gene, methylation inhibitors, 5-Aza-2'-deoxycytidine (5-Aza-CdR) and cell differentiation agent (CDAII) were used to treat myelogenous leukemia cell line KG1a in which p15 gene expression was suppressed due to DNA hypermethylation. The biological characteristics of KG1a cells untreated or treated with the agents were investigated and analyzed using morphology, methylation specific-PCR (MSP), (3)H-labeled microassay technique, restriction endonuclease reaction, flow cytometry and immunofluorescence methods. The results indicated that both agents showed concentration-dependent and time-dependent inhibition of cell proliferation. 5-Aza-CdR and CDAII induced apoptosis and cell differentiation with G(2) and G(0)/G(1) arrest respectively. Furthermore, DNA methyltransferase activity and level of methylation in genomic DNA were decreased and p15 protein was re-expressed partially. It is concluded that it is possible to treat leukemia by intervening in the DNA methylation using methyltransferase inhibitors and it is worth to make a thorough study on mechanism of the new strategy.
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PMID:[Inhibitory effect on proliferation of KG1a cell line by methyltransferase inhibitors]. 1251 59

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