Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteolysis is an early event of apoptosis which appears to be associated with activation of the endonuclease which is responsible for internucleosomal DNA cleavage. The present study was designed to reveal the possible role of proteolysis in other early events, such as chromatin condensation, nuclear breakdown, and destabilization of in situ DNA double-stranded structure. Apoptosis of human leukemic HL-60 cells and rat thymocytes was induced by different agents, including DNA topoisomerase inhibitors, an RNA antimetabolite, and the glucocorticosteroid, prednisolone. DNA degradation was evaluated by pulsed field and conventional gel electrophoresis and by the presence of in situ DNA strand breaks. DNA stability was estimated by the measure of its sensitivity in situ to denaturation. Chromatin condensation, nuclear breakdown, and other morphological changes were monitored by interference contrast and UV microscopy following cell staining with the DNA-specific fluorochrome 4',6-diamidino-2- phenylindole. Several irreversible or reversible serine protease inhibitors prevented internucleosomal DNA degradation, nuclear breakdown, and destabilization of DNA double-stranded structure. The effective inhibitors, however, did not prevent the onset of chromatin condensation, nor the loss of the fine structural framework, nor the initial step of DNA cleavage generating DNA fragments of >=50 kb in size. The data indicate that in both cell systems the activity of proteases sensitive to the inhibitors tested is needed for internucleosomal DNA cleavage to occur. The data also suggest that these proteases may be involved in dissolution of the nuclear envelope. Because nuclear matrix proteins and histones stabilize DNA in situ, and the decrease in DNA stability which occurs during apoptosis is precluded by the inhibitors, it is likely that serine proteases may degrade DNA stabilizing proteins. The activity of these proteases, however, appears needed neither for DNA cleavage to >=50-kb fragments nor for the onset of chromatin condensation which is associated with dissolution of the structural framework of the nucleus.
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PMID:Effect of protease inhibitors on early events of apoptosis. 860 14

Higher order DNA fragmentation may be an essential signal in apoptosis. We found that etoposide (VP-16) induced apoptosis in human DU-145 prostatic carcinoma cells in a time- and concentration-dependent manner. Chromatin condensation was morphologically evident only when cells detached from the monolayer; untreated or VP-16-treated attached cells retained a normal morphology. We describe a radiolabeled alu-I sequence-based quantitative field inversion gel electrophoresis (QFIGE) method that permitted observation and quantification of discrete high molecular weight DNA fragments in detached (apoptotic) and attached (preapoptotic) DU-145 cells. The DNA fragments generated during the apoptotic death of these cells were > or = 1 (mega-base pairs) mbp, 450-600 (kilo-base pairs) kbp, and 30-50 kbp; we observed that these DNA fragments increased 9 +/- 2-, 8 +/- 2-, and 25 +/- 11-fold versus control, respectively, with a 24-hr exposure to 30 microM VP-16 in attached cell populations. In detached VP-16-treated cells, there was accrual of 30-50-kbp DNA fragments with a concomitant loss of the > or = 1-mbp and 450-600-kbp fragments; internucleosomal DNA cleavage was never observed. This pattern of high molecular weight DNA fragmentation was inhibited by cycloheximide treatment and was common to other apoptotic agents, including melphalan and bleomycin. These findings suggest that the > or = 1-mbp and 450-600-kbp DNA fragments are products of endonuclease activation and are not topoisomerase II/DNA interactions. Finally, the generation of the 30-50-kbp DNA fragments may mediate chromatin condensation, which characterizes apoptosis.
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PMID:Genesis of discrete higher order DNA fragments in apoptotic human prostatic carcinoma cells. 863 56

There is compelling evidence for the central role of oxidative damage in the aging process and for the participation of reactive oxygen species in tumor initiation and promotion. Caloric restriction (CR) or energy restriction retards age-associated increases in mitochondrial free-radical production and reduces the accumulation of oxidatively damaged cell components. CR has also been shown to slow down age-related declines in various repair capabilities, including some types of DNA repair. It is proposed that inhibitors of mitochondrial electron transport and/or uncouplers of oxidative phosphorylation (rotenone, amytal, amiodarone, valinomycin, etc.), when used at extremely low doses, could mimic the effects of CR in model systems. The objective is to lower mitochondrial free-radical production by decreasing the fraction of electron carriers in the reduced state. In addition to a variety of other effects, CR has been shown to increase the rate of apoptosis, particularly in preneoplastic cells, and in general, to promote elevated levels of free glucocorticoids (GCs). GCs are known to induce tissue-specific apoptosis and to upregulate gap-junction-mediated intercellular communication (GJIC). Tumor promoters like phorbol esters have the opposite effect, in that they inhibit both the process of apoptosis and GJIC. The enzyme poly (ADP-ribose) polymerase (PARP) is thought to play a central role in apoptosis, in a manner that has been highly conserved in evolution. There is good evidence that the apoptosis-associated Ca/Mg-dependent DNA endonuclease is maintained in a latent form by being poly (ADP-ribosylated). Apoptosis would require the removal of this polymer from the endonuclease, and, most likely, its removal from topoisomerase II and histone H1 as well. The role of poly (ADP-ribose) in apoptosis, carcinogenesis, and aging could be studied by the use of modulators of PARP activity (3-aminobenzamide, 3-nitrosobenzamide, 1% ethanol, etc.), inhibitors of poly ADP-ribose) glycohydrolase activity (ethacridine, 43 degrees C, etc.), and inhibitors of the PARP-specific protease (interleukin-1 beta converting enzyme (ICE)-like protease). Also, it would be of interest to determine if CR can decrease the half-life of poly (ADP-ribose), upregulate GJIC, and modulate the activities of PARP, the glycohydrolase, and the PARP-specific protease, factors potentially important in these processes.
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PMID:The beneficial effects of dietary restriction: reduced oxidative damage and enhanced apoptosis. 865 88

Camptothecin is an S-phase-specific anticancer agent that inhibits the activity of the enzyme DNA topoisomerase-I (topo-I). Irreversible DNA double-strand breaks are produced during DNA synthesis in the presence of camptothecin, suggesting that this agent should not be toxic to nondividing cells, such as neurons. Unexpectedly, camptothecin induced significant, dose-dependent cell death of postmitotic rat cortical neurons in vitro; astrocytes were more resistant. Aphidicolin, an inhibitor of DNA polymerase alpha, did not prevent camptothecin-induced neuronal death, while death was prevented by actinomycin D and 5,6-dichloro-1-beta-D-ribofuranosyl benzimidazole as well as cycloheximide and anisomycin, inhibitors of RNA and protein synthesis, respectively. Camptothecin-induced neuronal death was apoptotic, as characterized by chromatin condensation, cytoplasmic shrinking, plasma membrane blebbing, and fragmentation of neurites. DNA fragmentation was also confirmed by the use of the in situ DNA end labeling assay. In addition, aurintricarboxylic acid, an inhibitor of the apoptotic endonuclease, partially protected against camptothecin-induced neuronal death. The toxicity of stereoisomers of a camptothecin analogue was stereospecific, demonstrating that toxicity was a result of inhibition of topo-I. The difference in sensitivity to camptothecin between neurons and astrocytes correlated with their transcriptional activity and level of topo-I protein expression. These data indicate important roles for topo-I in postmitotic neurons and suggest that topo-I inhibitors can induce apoptosis independent of DNA synthesis. We suggest a model based on transcriptionally mediated DNA damage, a novel mechanism of action of topo-I poisons.
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PMID:Induction of neuronal apoptosis by camptothecin, an inhibitor of DNA topoisomerase-I: evidence for cell cycle-independent toxicity. 870 53

A single amino acid change transforms restriction enzyme NaeI to a topoisomerase and recombinase (NaeI-L43K) that shows no sequence similarity to these protein families. This transformation appears to result from coupled endonuclease and ligase domains. To further elucidate the relationship between NaeI-L43K and the topoisomerase protein family, we studied the effect of the topoisomerase inhibitors on NaeI-L43K activity. The intercalative drugs amsacrine, ellipticine, and daunorubicin inhibited NaeI-L43K, whereas the nonintercalating drugs camptothecin, VP-16, and oxolinic acid did not. Ethidium bromide also inhibited NaeI-L43K, implying that intercalation is responsible for its inhibition. The effects of the intercalative drugs on the DNA cleavage steps of NaeI and NaeI-L43K were compared. The drugs hardly inhibited DNA cleavage by wild type NaeI but completely inhibited DNA cleavage by NaeI-L43K. This difference in inhibition demonstrates that the L43K amino acid change sensitized NaeI to these drugs. Low concentrations of the intercalative drugs, except for ethidium bromide, enhance production of topoisomerase--DNA covalent intermediates but inhibited production of the NaeI-L43K--DNA covalent intermediate. These results imply some unique differences between DNA relaxation by NaeI-L43K and DNA topoisomerase. Concomitant with studying inhibition of the cleavage intermediate, NaeI-L43K was found to covalently bond with the 5' end of the cleaved DNA strand.
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PMID:Changing a leucine to a lysine residue makes NaeI endonuclease hypersensitive to DNA intercalative drugs. 875 63

Substituting lysine for leucine at position 43 (L43K) transforms NaeI from restriction endonuclease to topoisomerase and makes NaeI hypersensitive to intercalative anticancer drugs. Here we investigated DNA recognition by Nael-L43K. Using DNA competition and gel retardation assays, NaeI-L43K showed reduced affinity for DNA substrate and the ability to bind both single- and double-stranded DNA with a definite preference for the former. Sedimentation studies showed that under native conditions NaeI-L43K, like NaeI, is a dimer. Introduction of mismatched bases into double-stranded DNA significantly increased that DNA's ability to inhibit NaeI-L43K. Wild-type NaeI showed no detectable binding of either single-stranded DNA or mismatched DNA over the concentration range studied. These results demonstrate that the L43K substitution caused a significant change in recognition specificity by NaeI and imply that NaeI-L43K's topoisomerase activity is related to its ability to bind single-stranded and distorted regions in DNA. A mechanism is proposed for the evolution of the NaeI restriction-modification system from a topoisomerase/ligase by a mutation that abolished religation activity and provided a needed change in DNA recognition.
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PMID:Effects on NaeI-DNA recognition of the leucine to lysine substitution that transforms restriction endonuclease NaeI to a topoisomerase: a model for restriction endonuclease evolution. 893 68

A filter binding assay that measures internucleosomal DNA fragmentation associated with apoptosis is described. The assay is based on a novel principle that consists of using simultaneously two kinds of glass fiber filters to harvest [3H]thymidine-prelabeled cells following their incubation with inducers of apoptosis. One filter, which is neutral, traps intact chromatin and high-molecular-weight DNA. The other filter, which is positively charged with DEAE active groups, traps low-molecular-weight DNA fragments. DNA fragmentation is quantified by measuring the radioactivity retained by each of the filters. The assay was evaluated with the histiocytic lymphoma cell line U937 and the topoisomerase inhibitors camptothecin, etoposide, and doxorubicin. These agents caused a dose-dependent decrease of radioactivity in the neutral filter and a parallel increase of radioactivity in the DEAE filter. Irradiation-induced single strand breaks and topoisomerase-mediated primary DNA damage were not detected by this method. Consistent with the detection of internucleosomal DNA fragmentation, the effects measured by this assay were prevented by the endonuclease inhibitor zinc acetate and by the metabolic inhibitor sodium azide. Results obtained using this assay were validated by observation of DNA ladders on agarose gels and by morphologic examination of apoptotic features. Evaluation of the assay in a mock screen demonstrated that the introduction of the DEAE filter increases the assay sensitivity and eliminates false positives. Thus, this assay may be used in high-throughput screening approaches to discover novel modulators of apoptosis.
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PMID:A glass fiber/diethylaminoethyl double filter binding assay that measures apoptotic internucleosomal DNA fragmentation. 893 61

Most developing lymphocytes spontaneously die in the thymus during positive and negative selection of the T cell repertoire. By evaluating the expression of the proliferation antigens Ki-67 and PCNA, we demonstrated here that more than 95% of thymocytes are potentially proliferating. The coincidence within the same cell population of death and proliferation is thus apparent in developing thymocytes. Using dual-parameter cytometric techniques to evaluate in single cells the amount of DNA versus light-scattering values, we found that spontaneous thymocyte apoptosis occurs with similar frequency in all the cycle phases, whereas apoptosis induced by the anti-topoisomerase-II, etoposide (which is the consequence of irreversible DNA damage), takes place with higher frequency in S and G2 phases (i.e., in those cycle phases in which DNA is subjected to torsional constraints). The capability of thymocytes to enter apoptosis was also monitored by digesting DNA in situ with DNase I (a nuclease that cleaves DNA mimicking the nuclear damage common to most apoptotic suicides). We also show that endonuclease-mediated DNA digestion occurs to a similar extent in cells with different DNA contents, i.e., in cycle phases in which the superstructural organization of chromatin is markedly different.
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PMID:Spontaneous apoptosis of thymocytes is uncoupled with progression through the cell cycle. 898 20

DNA end-labeling procedures were used to analyze both the frequency and distribution of DNA strand breaks in mammalian cells exposed or not to different types of DNA-damaging agents. The 3' ends were labeled by T4 DNA polymerase-catalyzed nucleotide exchange carried out in the absence or presence of Escherichia coli endonuclease IV to cleave abasic sites and remove 3' blocking groups. Using this sensitive assay, we show that DNA isolated from human cells or mouse tissues contains variable basal levels of DNA strand interruptions which are associated with normal bioprocesses, including DNA replication and repair. On the other hand, distinct dose-dependent patterns of DNA damage were assessed quantitatively in cultured human cells exposed briefly to menadione, methylmethane sulfonate, topoisomerase II inhibitors, or gamma rays. In vivo induction of single-strand breaks and abasic sites by methylmethane sulfonate was also measured in several mouse tissues. The genomic distribution of these lesions was investigated by DNA cleavage with the single-strand-specific S1 nuclease. Strikingly similar cleavage patterns were obtained with all DNA-damaging agents tested, indicating that the majority of S1-hypersensitive sites detected were not randomly distributed over the genome but apparently were clustered in damage-sensitive regions. The parallel disappearance of 3' ends and loss of S1-hypersensitive sites during post-gamma-irradiation repair periods indicates that these sites were rapidly repaired single-strand breaks or gaps (2- to 3-min half-life). Comparison of S1 cleavage patterns obtained with gamma-irradiated DNA and gamma-irradiated cells shows that chromatin structure was the primary determinant of the distribution of the DNA damage detected.
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PMID:Clusters of S1 nuclease-hypersensitive sites induced in vivo by DNA damage. 927 20

Etoposide, a topoisomerase II inhibitor used in cancer therapy, has been shown to induce apoptosis in vitro in a variety of cell types. In the present study, we have characterized the effects of etoposide on undifferentiated rat pheochromocytoma PC12 cells. Etoposide killed PC12 cells in a time- and concentration-dependent manner. 20-24 h incubation with 10 micrograms/ml etoposide induced 25-50% cell death. Hoechst 33258 staining revealed apoptotic morphology in dying cells. No evidence was found of either oligonucleosomal DNA fragmentation, as shown by agarose gel electrophoresis, or endonuclease involvement, as shown by the inability of aurintricarboxylic acid to prevent cell death. Cycloheximide and actinomycin-D were unable to prevent etoposide cytotoxicity indicating that the process is not dependent upon de novo protein or mRNA synthesis. NGF (5 ng/ml) prevented etoposide-induced PC12 cell death. These results offer an example of how the morphological features of apoptosis are not necessarily associated with oligonucleosomal DNA fragmentation or with de novo macromolecule synthesis.
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PMID:Etoposide-induced PC12 cell death: apoptotic morphology without oligonucleosomal DNA fragmentation or dependency upon de novo protein synthesis. 933 35


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