EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Hepatotoxic alkylation of mouse liver cells by acetaminophen is characterized by an early loss of ion regulation, accumulation of Ca2+ in the nucleus, and fragmentation of DNA in vitro and in vivo. Acetaminophen-induced DNA cleavage is accompanied by the formation of a "ladder" of DNA fragments characteristic of Ca(2+)-mediated endonuclease activation. These events unfold well in advance of cytotoxicity and the development of necrosis. The present study utilized cultured mouse hepatocytes and mechanistic probes to test whether DNA fragmentation and cell death might be related in a "cause-and-effect" manner. Cells were isolated by collagenase perfusion, cultured in Williams' E medium for 22-26 hr, and exposed to acetaminophen. Aurintricarboxylic acid, a general Ca(2+)-endonuclease inhibitor, and EGTA, a chelator of Ca2+ required for endonuclease activation, significantly decreased DNA fragmentation at 6 and 12 hr and virtually abolished cytotoxicity. N-Acetylcysteine also eliminated DNA fragmentation and cytotoxicity. 3-Aminobenzamide, an inhibitor of poly(ADP-ribose) polymerase-stimulated DNA repair, failed to alter the amount of DNA fragmentation at 6 hr but substantially increased acetaminophen cytotoxicity in hepatocytes at 12 hr. With the exception of when DNA repair was inhibited by 3-aminobenzamide, Ca2+ accumulation in the nucleus, DNA fragmentation, and hepatocyte death varied consistently and predictably with one another. Collectively, these findings suggest that unrepaired damage to DNA contributes to acetaminophen-induced cell death in vivo and may play a role in necrosis in vivo.
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PMID:Acetaminophen-induced cytotoxicity in cultured mouse hepatocytes: effects of Ca(2+)-endonuclease, DNA repair, and glutathione depletion inhibitors on DNA fragmentation and cell death. 131 Jan 69

In a number of experimental systems in which lymphocyte depletion was induced by apoptosis-inducing manipulations, no apoptotic morphology and ladder-type DNA fragmentation were detected among freshly isolated peripheral lymphocytes ex vivo. Here we report that one alteration that can be detected among splenocytes stimulated with lymphocyte-depleting doses of dexamethasone (DEX) in vivo is a reduced uptake of 3,3'dihexyloxacarbocyanine iodide (DiOC6[3]), a fluorochrome which incorporates into cells dependent upon their mitochondrial transmembrane potential (delta psi m). In contrast, ex vivo isolated splenocytes still lacked established signs of programmed cell death (PCD):DNA degradation into high or low molecular weight fragments, ultrastructural changes of chromatin arrangement and endoplasmatic reticulum, loss in viability, or accumulation of intracellular peroxides. Moreover, no changes in cell membrane potential could be detected. A reduced delta psi m has been observed in response to different agents inducing lymphoid cell depletion in vivo (superantigen and glucocorticoids [GC]), in mature T and B lymphocytes, as well as their precursors. DEX treatment in vivo, followed by cytofluorometric purification of viable delta psi mlow splenic T cells ex vivo, revealed that this fraction of cells is irreversibly committed to undergoing DNA fragmentation. Immediately after purification neither delta psi mlow, nor delta psi mhigh cells, exhibit detectable DNA fragmentation. However, after short-term culture (37 degrees C, 1 h) delta psi mlow cells show endonucleolysis, followed by cytolysis several hours later. Incubation of delta psi mlow cells in the presence of excess amount of the GC receptor antagonist RU38486 (which displaces DEX from the GC receptor), cytokines that inhibit DEX-induced cell death, or cycloheximide fails to prevent cytolysis. The antioxidant, N-acetylcysteine, as well as linomide, an agent that effectively inhibits DEX or superantigen-induced lymphocyte depletion in vivo, also stabilize the DiOC6(3) uptake. In contrast, the endonuclease inhibitor, aurintricarboxylic acid acts at later stages of apoptosis and only retards the transition from the viable delta psi mlow to the nonviable fraction. Altogether, these data suggest a sequence of PCD-associated events in which a reduction in delta psi m constitutes an obligate irreversible step of ongoing lymphocyte death, preceding other alterations of cellular physiology, and thus allowing for the ex vivo assessment of PCD.
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PMID:Reduction in mitochondrial potential constitutes an early irreversible step of programmed lymphocyte death in vivo. 772 46

A recent study has shown that N-acetylcysteine (NAC) not only has sun-protective properties but also inhibits the UVB-induced suppression of contact hypersensitivity (CHS) in mice. Because NAC does not absorb any UVA (320-400 nm radiation) or UVB (290-320 nm radiation) we have studied the underlying mechanism of protection. Irradiation of solutions of plasmid DNA with UVC (200-290 nm radiation) (10 J m-2) resulted in the formation of cyclobutane pyrimidine dimers, but the extent to which this occurred was not affected by the presence of NAC as was determined by an in vitro T4 endonuclease assay. N-acetylcysteine proved not to have any effect on the photoisomerization of trans-urocanic acid (UCA) to its cis-form in vitro; at equilibrium, approximately 55% cis-UCA was formed. The same percentage was also found in vivo on exposure of mice to UVB (15 kJ m-2). Topical application of NAC 30 min prior to irradiation did not have any influence as well on the photoisomerization of trans- to cis-UCA. These in vivo experiments were performed under the same conditions used previously to show the protective effect of NAC against UVB-induced suppression of CHS. We conclude that this protection of NAC is at least partly based on interference in the role of cis-UCA in UVB-induced suppression of CHS. This conclusion is supported by the observation that NAC completely inhibits the suppression of CHS by cis-UCA administered to mice that were always kept in the dark. In the same range of doses as used in the present study, it was shown in our previous study that NAC alone does not affect the CHS response.
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PMID:The protective effect of N-acetylcysteine on UVB-induced immunosuppression by inhibition of the action of cis-urocanic acid. 888 38

Cyanide is a mitochondrial poison and its toxicity is mediated through histotoxic hypoxia. Although cyanide is regarded as a neurotoxin, its other toxic manifestations are also well documented. Cyanide triggers all those events which can lead to DNA damage, but its genotoxic potential has not been established yet. The present investigation addresses the DNA damage induced by cyanide in rat thymocytes in vitro. Cell viability (eosin Y exclusion and LDH leakage) along with DNA strand breaks were measured in thymocytes exposed to 1.25-10 mM KCN for various time intervals. Cleavage into oligonucleosomal fragments of extracted DNA from cyanide treated thymocytes were visualized on gel electrophoresis. Cyanide produced both time and dose dependent DNA fragmentation accompanied by cytotoxicity. The DNA damage was sensitive to elevated levels of extracellular Ca2+ and was minimal in Ca2+ free medium. The DNA fragmentation was attenuated by Zn2+ (modulator of Ca2+/Mg2+-dependent endonuclease), N-acetylcysteine (free radical scavenger) and diltiazem (Ca2+ channel blocker). Cyanide induced DNA damage was further observed in baby hamster kidney cells (BHK-21), where unlike thymocytes, internucleosomal DNA fragmentation was not observed. Thymocytes were more sensitive to cyanide as compared to BHK-21 cells.
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PMID:Cyanide induced DNA fragmentation in mammalian cell cultures. 935 39

The effects of thiols, ascorbic acid and thermal stress on the basal (steady-state) levels of oxidative DNA base modifications were studied. In various types of untreated cultured mammalian cells, the levels of total glutathione were found to be inversely correlated with the levels of DNA base modifications sensitive to the repair endonuclease Fpg protein, which include 8-hydroxyguanine (8-oxoG). A depletion of glutathione by treatment with buthionine sulphoximine increased the steady-state level in AS52 Chinese hamster cells by approximately 50%. However, additional thiols in the culture medium did not reduce the level of Fpg-sensitive base modifications: 0-10 mM N-acetylcysteine had no effect, whereas cysteine ethylester even increased the oxidative DNA damage at concentrations >0.1 mM. Similarly, ascorbic acid (0-20 mM) failed to reduce the steady-state levels. When AS52 cells were grown at elevated temperature (41 degrees C), the steady-state level of the oxidative DNA modifications increased by 40%, in spite of a concomitant 1.6-fold increase of the cellular level of total glutathione. Depletion of glutathione at 41 degrees C nearly doubled the already elevated level of oxidative damage. A constitutive expression of the heat-shock protein Hsp27 in L929 mouse fibrosarcoma cells at 37 degrees C increased the glutathione level by 60%, but had little effect on the level of oxidative DNA damage.
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PMID:Influence of glutathione levels and heat-shock on the steady-state levels of oxidative DNA base modifications in mammalian cells. 1006 73

In this study, the cytotoxic activity of gallic acid derivatives (GDs) was studied using some cancer cell lines. Among them, 3,4-methylenedioxyphenyl 3,4,5-trihydroxybenzoate (GD-1) and S-(3,4-methylenedioxyphenyl)-3,4,5-trihydroxy-thiobenzoate (GD-3) were found to induce cell death in cancer cell lines with IC50s ranging from 2.9 to 114.4 microM, a concentration comparable with or lower than that of gallic acid. On the other hand, although gallic acid did not show any cytotoxicity against primary cultured rat hepatocytes and human keratinocytes, GD-1 and -3 showed slightly higher sensitivity against such normal cells, when compared with gallic acid. The cell death induced by gallic acid and GD-1 was accompanied by internucleosomal DNA fragmentation characteristic of apoptosis, whereas only smear DNA degradation was detected following GD-3 treatment. When the mechanism by which GD-1 and -3 caused cell death in HL-60RG cells was examined, GD-1 and -3-induced cell death was inhibited by the intracellular Ca2+ chelator, bis-(o-aminophenoxy)-N,N,N,N'-tetraacetic acid acetoxymethyl ester (BAPTA-AM), calmodulin inhibitor, W-7, and the Ca2+/Mg2+ -dependent endonuclease inhibitor zinc sulfate. In contrast, catalase, N-acetylcysteine (NAC), and ascorbic acid inhibited gallic acid-induced apoptosis in HL-60RG cells, whereas they had no effect on GD-1- and -3-induced cell death. This result suggests that GD-1 and -3 induced cell death in a different manner to gallic acid. In conclusion, esterification of gallic acid with a 3,4-methylenedioxyphenyl group yielded potent agents to treat cancer with a different signaling pathway from gallic acid, although selectivity was lost.
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PMID:Cell death-inducing activity by gallic acid derivatives. 1037 66

Type II restriction endonuclease activities of Helicobacter pylori strain Roberts and of the type strain H. pylori NCTC 11637 were detected and analysed by conventional techniques. The endonucleases were partially purified, their optima for activity and their recognition and cleavage sites were determined. H. pylori (Roberts) contained at least two enzymes: HpyBI was an isoschizomer of RsaI (GT/AC) and HpyBII was of a novel specificity (GTN/NAC). H. pylori NCTC 11637 was found to contain an isoschizomer of EcoRV (HpyCI: GAT/ATC) and at least one other enzyme which was too unstable to characterise.
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PMID:Type II restriction endonucleases from Helicobacter pylori include an enzyme with a novel recognition sequence. 1048 Nov 3

Doxapram-induced potentiation of acetaminophen-induced reductions in cell viability and apoptosis was examined in mouse primary cultured hepatocytes. Loss of viability following exposure of acetaminophen and/or doxapram in cultured hepatocytes was assessed by monitoring [3H]-thymidine incorporation and mitochondrial activity, and apoptosis of hepatocytes was determined by nuclear microscopic observation and from detection of a ladder-like DNA fragmentation pattern in agarose gel electrophoresis. The combination of acetaminophen (5 mM) and doxapram (10, 20, 50 or 100 microM) potentiated the reduction in cell viability and increased lipid peroxide levels of hepatocytes. Hepatocytes exposed for 24 h to acetaminophen (5 mM) plus doxapram (100 microM) showed atrophy of nuclei including chromatin condensation and a ladder-like DNA fragmentation pattern characteristic of apoptosis. Antioxidant (N-acetylcysteine), iron-chelator (deferoxamine), intracellular calcium ion chelator (quin 2-AM), endonuclease inhibitor (aurintricarboxylic acid) and poly (ADP-ribose) polymerase inhibitor (3-aminobenzamide) all improved the viability of cells and eliminated the ladder-like DNA fragmentation in cells exposed to acetaminophen plus doxapram. In conclusion, the combination acetaminophen and doxapram potentiated the reduction in cell viability and apoptosis in mouse primary cultured hepatocytes. We suggest that careful observation for hepatotoxicity is recommended when acetaminophen and doxapram are prescribed simultaneously.
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PMID:Combination acetaminophen and doxapram potentiated hepatotoxicity in mouse primary cultured hepatocytes. 1070 59

The influence of oxidative stress by hydrogen peroxide (H2O2) was examined in mouse primary cultured hepatocytes. A change in morphology was observed in hepatocytes incubated for 30 min in saline A containing H2O2. The percentage of dead cells, as measured by the fluorescence method, was increased in a dose-dependent manner. In addition, a ladder-like DNA fragmentation pattern was detected by agarose gel electrophoresis 1 h after exposure to 3 mM H2O2. This phenomenon was prolonged for 24 h. Hydrogen peroxide-induced cell viability reduction and DNA fragmentation were dose-dependently protected by the addition of antioxidants (N-acetylcysteine, L-ascorbic acid), a metal-chelator (1,10-phenanthroline), iron-chelator (deferoxamine) and intracellular calcium ion chelator (quin 2-AM). No influence, however, was detected by endonuclease inhibitors (zinc, aurintricarboxylic acid) and poly (ADP-ribose) polymerase inhibitors (3-aminobenzamide, theophylline). These results following H2O2-induced cell viability reduction suggested that oxidative stress by H2O2 itself or H2O2-derived changes involved in ferrous or intracellular calcium ions resulted in apoptosis in mouse primary cultured hepatocytes. These phenomena are not likely to be associated with endonuclease or poly (ADP-ribose) polymerase.
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PMID:Characterization of hydrogen peroxide-induced apoptosis in mouse primary cultured hepatocytes. 1070 8

Cyanide inhibits the mitochondrial respiratory chain enzyme cytochrome oxidase causing histotoxic hypoxia. It is primarily considered as a neurotoxin but its other toxic manifestations are also well documented. Cyanide-induced apoptosis in neuronal cells has also been demonstrated recently. At the same time we also reported that potassium cyanide (KCN) produces extensive cytotoxicity and DNA fragmentation in rat thymocytes. The DNA damage was sensitive to elevated levels of extracellular Ca2+ and was attenuated by Zn2+ (modulator of Ca2+ dependent endonuclease), N-acetylcysteine (free radical scavenger) and diltiazem (Ca2+ channel blocker). In a continuation of this work, in the present study we have shown that the cytotoxicity and DNA fragmentation induced by 5 mM KCN was preceded by loss of mitochondrial integrity (MTT assay and rhodamine-123 staining) and nuclear viability (propidium iodide uptake) which were mediated by generation of reactive oxygen species (DCHF-DA staining). The DNA damage was also accompanied by nuclear fragmentation (Hoechst 33342 staining), a phenomenon that characterises the 'apoptotic' type of cell death. The in vitro toxic insult of KCN was challenged by pre-treatment (0.5 h), simultaneous treatment or post-treatment (0.5-3 h) of various pharmacological agents viz., Trolox (antioxidant), EGTA (Ca2+ modulator) and aurintricarboxylic acid (ATA; Ca2+/Mg2+ dependent endonuclease inhibitor). In addition, Quercetin (antioxidant) was tested as simultaneous treatment alone and was found to be ineffective. On the basis of various biochemical indices and DNA fragmentation (quantitative and qualitative), simultaneous treatment of Trolox was found to be the most effective in attenuating cyanide toxicity in vitro. This protection can be attributed to interventions in oxidative stress-mediated cell injury which is an early event preceding DNA damage. Both EGTA and ATA could not prevent this damage. Trolox also increased the LD(50) of KCN in mice 2.5-fold as compared to 1.8- and 1.6-fold for EGTA and ATA, respectively.
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PMID:Pharmacological interventions of cyanide-induced cytotoxicity and DNA damage in isolated rat thymocytes and their protective efficacy in vivo. 1127 22

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