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)

Transient forebrain ischemia in rodents caused internucleosomal DNA fragmentation that appeared in the striatum 24 h after reperfusion, and in the hippocampus 72 h after reperfusion. Gel electrophoresis and an in situ technique to label 3' termini of endonuclease generated DNA fragments demonstrated similar temporal patterns. These data show that endonuclease activation accompanies the demise of selectively vulnerable neurons following transient forebrain ischemia.
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PMID:Temporal pattern of internucleosomal DNA fragmentation in the striatum and hippocampus after transient forebrain ischemia. 777 86

Apoptosis, a form of cell death ("programmed" cell death) in which the nucleus and cytoplasm shrink and often fragment, serves to eliminate excessive or unwanted cells during remodeling of embryonic tissues, during organ involution, and in tumor regression. In acute pathological states, such as ischemia, the cells tend to swell and lyse--a process called necrosis. We hypothesize that the delayed neural death clinically associated with hypoxia may, in part, represent apoptosis. A tissue culture model of 24 hours of hypoxia was employed using sympathetic neurons. Pretreatment with an endonuclease inhibitor (aurintricarboxylic acid) decreased cell death by 53%, depolarizing conditions (55 mM potassium chloride) decreased cell death by 33%, and an RNA synthesis inhibitor (actinomycin D) by 26% (all have been shown to prevent apoptosis). Pretreatment with antisense c-myc had no effect. Fluorescent staining with propidium iodide (a DNA marker) demonstrated chromatin condensation and agarose gel electrophoresis demonstrated a DNA "ladder." These data suggest that apoptosis may play a role in hypoxic cell death and that in this paradigm, expression of c-myc is unnecessary. This would suggest a new approach to our understanding of hypoxia and open new strategies to lessen neuronal damage secondary to this process.
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PMID:Evidence for hypoxia-induced, programmed cell death of cultured neurons. 799 72

Wistar rats, eight days old, were subjected to permanent bilateral forebrain ischemia, followed by hypoxia for 15 minutes. A cerebral infarct, mainly involving the cerebral neocortex, hippocampus, amygdala, striatum and subcortical white matter was produced. Neurons and glia showing punctate chromatin condensation and karyorrhectic cells were observed 12 hours after hypoxia-ischemia. Their number increased during the first two days and recruitment of cells with degenerating nuclei occurred until day five. In situ labeling of nuclear DNA fragmentation stained many normal-appearing nuclei, as well as punctate chromatin condensations and nuclear fragments in karyorrhectic cells. Delayed neuronal death in the CA1 area of the hippocampus was observed after 20 minutes of transient forebrain ischemia in the adult gerbil. In situ labeling of nuclear DNA fragmentation demonstrated stained punctate chromatin condensation in a few degenerating cells at 48 hours post-ischemia. Substantial labeling of CA1 neurons occurred in the fourth day. Agarose gel electrophoresis of extracted brain DNA from ischemic infant rats and adult gerbils showed a ladder-type pattern which is typical of nuclear DNA fragmentation into oligonucleosomal fragments (internucleosomal cleavage). These findings suggest that endonuclease(s) activation may play a role in cell death induced by different forms of hypoxia-ischemia.
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PMID:Evidence of nuclear DNA fragmentation following hypoxia-ischemia in the infant rat brain, and transient forebrain ischemia in the adult gerbil. 806 57

Activation of programmed cell death has recently been suggested to be involved in the delayed neuronal death of CA1 hippocampal neurons after global ischemia based on protection offered by protein synthesis inhibitors. Here, we studied the effects of transcriptional (actinomycin D) and translational (cycloheximide and anisomycin) inhibitors on glutamate-induced neuronal death in cerebellar granule cell cultures. The effects of aurintricarboxylic acid, an endonuclease inhibitor, were studied as well. No protection against glutamate toxicity could be observed with any of these inhibitors. We also analyzed the genomic DNA of glutamate-treated cells on agarose gel electrophoresis. No DNA degradation could be observed after glutamate exposure. We conclude that glutamate-induced neuronal death does not exhibit the features of apoptosis in cultured granule cells.
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PMID:Glutamate-induced neuronal death is not a programmed cell death in cerebellar culture. 809 39

The structural changes which occur in chromatin DNA after ischemic brain injury are poorly understood. This study examined the appearance of double-strand DNA breaks and the temporal profile of DNA degradation following focal ischemic injury in rat brain. Focal cerebral ischemia was produced by tandem occlusion of the common carotid and proximal middle cerebral arteries. The effects of decapitation ischemia were also studied by DNA analysis. DNA was extracted by standard methods from the ischemic brain tissues and electrophoresed on a 1.5% agarose gel. With decapitation ischemia, random DNA cleavage was observed as a dense "smear" on the gel electrophoresis beginning 6 h after the ischemic insult, and increasing in amount thereafter. Focal ischemia provided DNA fragmentation, which is specific DNA cleavage at the internucleosomal linker regions, particularly in the caudoputamen. Coexisting random degradation and specific fragmentation of DNA was observed in the cortex following focal ischemia. To determine whether an endonuclease responsible for DNA fragmentation was present, nuclear proteins were extracted from normal brain nuclei and the endonuclease activity was determined using plasmid DNA and a nuclear incubation system. This demonstrated that brain nuclear proteins have Ca(2+)-dependent endonuclease activity which is related to DNA fragmentation. Ischemic injury causes both random and specific DNA cleavage in the brain, which is probably mediated by Ca(2+)-dependent endonuclease.
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PMID:Endonuclease activation following focal ischemic injury in the rat brain. 838 11

The polymeric dye aurintricarboxylic acid (ATA) has been shown to protect various cell types from apoptotic cell death, reportedly through inhibition of a calcium-dependent endonuclease activity. Recent studies have indicated that there may be some commonalities among apoptosis, programmed cell death, and certain other forms of neuronal death. To begin to explore the possibility of common biochemical mechanisms underlying ischemia- or excitotoxin-induced neuronal death and apoptosis in vivo, gerbils or rats subjected to transient global ischemia or NMDA microinjection, respectively, received a simultaneous intracerebral infusion of ATA or vehicle. As a biochemical marker of neuronal death, spectrin proteolysis, which is mediated by activation of calpain I, was measured in hippocampus after 24 h. ATA treatment resulted in a profound reduction of both NMDA- and ischemia-induced spectrin proteolysis, consistent with the possibility of some common mechanism in apoptosis and other forms of neuronal death in vivo.
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PMID:Aurintricarboxylic acid protects hippocampal neurons from NMDA- and ischemia-induced toxicity in vivo. 851 86

Apoptosis is a form of cell death distinct from necrosis showing distinctive morphologic features and may require energy. It is under various control mechanisms and may involve an endonuclease, which cleavages genomic DNA in the internucleosomal linker regions. Previously, we reported that ischemic/reperfusion injury to rat retina induced endonuclease mediated apoptosis of retinal neurons. In this study, we examined the effect of aurintricarboxylic acid (ATA), an endonuclease inhibitor, on ischemia/reperfusion damage in rat retina in our established rat model. A single intraperitoneal injection of ATA at 2 mg/kg given immediately after 60 minutes of ischemia to the retina showed no observable effect. At 10 mg/kg, there was notable beneficial effect morphologically but not morphometrically. ATA at 100 mg/kg showed significant effect both morphologically and morphometrically. This observation is consistent with the hypothesis that endonuclease mediated apoptosis may be involved in retinal cell loss after ischemia/reperfusion insult.
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PMID:The effect of aurintricarboxylic acid, an endonuclease inhibitor, on ischemia/reperfusion damage in rat retina. 859 Feb 57

Apoptosis is one of the two forms of cell death and occurs under a variety of physiological and pathological conditions. Cells undergoing apoptotic cell death reveal a characteristic sequence of cytological alternations including membrane blebbing and nuclear and cytoplasmic condensation. Early activation of an endonuclease has been previously demonstrated after a transient focal ischemia in the rat brain Charriaut-Marlangue C, Margaill I, Plotkine M, Ben-Ari Y (1995) Early endonuclease activation following reversible focal ischemia. J Cereb Blood Flow Metab 15:385-388). We now show that a significant number of striatal and cortical neurons, exhibited chromatin condensation, nucleus segmentation, and apoptotic bodies increasing with recirculation time, as demonstrated by in situ labeling of DNA breaks in cryostat sections. Apoptotic nuclei were also detected in the horizontal limb diagonal band, accumbens nucleus and islands of Calleja. Several necrotic neurons, in which random DNA fragmentation occurs, were also shown at 6 h recirculation, in the ischemic core. Further investigation with hematoxylin/eosin staining revealed that apoptotic nuclei were present in cells with a large and swelled cytoplasm and in cells with an apparently well-preserved cytoplasm. These two types of cell death were reminiscent of those described in developmental cell death. Our data suggested that apoptosis may contribute to the expansion of the ischemic lesion.
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PMID:Apoptosis and necrosis after reversible focal ischemia: an in situ DNA fragmentation analysis. 859 49

Using an in situ nick translation procedure, DNA single-strand breaks (SSB) in postischemic gerbil hippocampus were investigated after 15-min forebrain ischemia followed by 0-4h of recirculation. In the control group, increased SSB were noticed in the ependymal cell layer and the dentate gyrus. After 15-min ischemia without recirculation, no remarkable changes in SSB were observed. However, after 1 h of recirculation, a marked increase in SSB was recognized throughout the hippocampus, especially in the cells in CA1 subfield and the dentate gyrus. After 4 h of recirculation, SSB decreased to a level near that of the control group. The results of the present study indicate that ischemic insults may injure intranuclear DNA during postischemic recirculation periods. Although many factors may be involved, activated endonuclease due to an intracellular Ca2+ rise, free radicals, and postischemic hyperthermia appear to be involved in this phenomenon.
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PMID:DNA single-strand breaks in postischemic gerbil brain detected by in situ nick translation procedure. 861 61

In recent years much has been learned about the cellular and molecular events underlying cerebral hypoxia-ischemia (HI). We review, from a molecular standpoint, the main pathogenetic theories in hypoxic-ischemic cerebral injury, including excitotoxicity, free radical damage, and the role of growth factors, proto-oncogenes and heat shock proteins. The various forms of cell death in the developing and adult brain (necrosis, apoptosis and delayed neuronal death) are reviewed, with an emphasis on gene regulation of naturally-occurring and HI-associated cell death. We report the expression of the immediate early gene c-fos and c-jun mRNAs and of HSP72 mRNA and protein in several models of cerebral HI. Gel agarose electrophoresis of extracted DNA and in situ end-labeling of fragmented DNA revealed that cell death in these models was associated with endonuclease(s) activation. We also pre-treated some animals with dexamethasone, a neuroprotective drug in a model of perinatal HI. High-dose dexamethasone prevented c-fos induction in cerebral regions sensitive to HI. This effect may be due to a functional antagonism, at the transcriptional level, between Fos and the glucocorticoid receptor.
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PMID:[Molecular factors of cerebral hypoxia-ischemia]. 868 Dec 2

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