Early Detection of DNA Strand Breaks in the Brain After Transient Focal Ischemia: Implications for the Role of DNA Damage in Apoptosis and Neuronal Cell Death

Chen, Jun; Jin, Kunlin; Chen, Minzhi; Pei, Wei; Kawaguchi, Kenji; Greenberg, David A.; Simon, Roger P.

doi:10.1046/j.1471-4159.1997.69010232.x

Cited by 298 publications

(228 citation statements)

References 40 publications

(66 reference statements)

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“…The existence of ss breaks in apoptotic DNA fragments has been clearly demonstrated (Figure 1). 7,51,52 The rate of nuclear proteolysis might also be a factor determining the extent of DNA fragmentation, since rapid protein degradation and collapse of nuclear structure might stop DNA cleavage at any given stage. This would explain the fact that DNA degradation never proceeds to completion and that the DNA ladder is not always observed even in cells containing nucleases capable of internucleosomal DNA cleavage.…”

Section: Discussionmentioning

confidence: 99%

Mapping the initial DNA breaks in apoptotic Jurkat cells using ligation-mediated PCR

et al. 2003

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Apoptotic DNA degradation could be initiated by the accumulation of single-strand (ss) breaks in vulnerable chromatin regions, such as base unpairing regions (BURs), which might be preferentially targeted for degradation by both proteases and nucleases. We tested this hypothesis in antiFas-treated apoptotic Jurkat cells. Several nuclear proteins known for their association with both MARs and the nuclear matrix, that is, PARP, NuMA, lamin B and SATB1, were degraded, but the morphological rearrangement of the BURbinding SATB1 protein was one of the earliest detected changes. Subsequently, we have identified several genes containing sequences homologous to the 25 bp BUR element of the IgH gene, a known SATB1-binding site, and examined the integrity of genomic DNA in their vicinity. Multiple ss breaks were found in close proximity to these sites relative to adjacent regions of DNA. Consistent with our prediction, the results indicated that the initiation of DNA cleavage in antiFas-treated Jurkat cells occurred within the BUR sites, which likely became accessible to endonucleases due to the degradation of BUR-binding proteins.

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Section: Discussionmentioning

confidence: 99%

Mapping the initial DNA breaks in apoptotic Jurkat cells using ligation-mediated PCR

et al. 2003

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“…The slight disparities between TUNEL and SS-DNA labeling at day 14 of EHYP could reflect sensitivity differences between the two methods in the detection of apoptosis. Alternatively, because TUNEL is considered to be a less specific marker of apoptosis (Grasl Kraupp et al, 1995;Frankfurt et al, 1996), other cells in the process of death by nonapoptotic mechanisms may have also been labeled (Chen et al, 1997;Labat Moleur et al, 1998). It needs to be emphasized that the magnitude of tissue hypoxia used in this study was relatively mild compared with the levels of hypoxia required for induction of apoptosis using a single exposure (Banasiak and Haddad, 1998).…”

Section: Apoptosismentioning

confidence: 99%

Behavioral and Anatomical Correlates of Chronic Episodic Hypoxia during Sleep in the Rat

2001

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The role played by chronic episodic hypoxia (EHYP) in the neurocognitive morbidity of obstructive sleep apnea (OSA) is unknown. Sleep recordings, Morris water maze experiments, and immunohistochemistry for NMDA NR1 glutamate receptor, c-fos protein, and apoptosis [nuclear immunoreactivity for single-stranded DNA and terminal deoxynucleotidyl transferase-mediated biotinylated UTP nick end labeling assay] were conducted in EHYP-exposed Sprague Dawley male rats. Exposures consisted of up to14 d in an environmental chamber in which O 2 concentrations were cycled between 10 and 21% every 90 sec or 30 min during 12 hr of daylight. For the remaining 12 hr, EHYP rats breathed room air, while controls spent 14 d in room air. Although EHYP induced significant disruption of sleep architecture during the initial day of exposure, sleep patterns normalized thereafter. Marked increases in apoptosis occurred in the CA1 hippocampal region (sevenfold) and cortex (Cx; eightfold) after 1-2 d of EHYP but not in CA3 and were followed by decreases toward normoxic levels by 14 d. Double labeling for NMDA NR1 and c-fos revealed marked architectural disorganization in CA1 and Cx with increases in c-fos over time. Rats exposed to EHYP displayed significantly longer escape latencies and swim path lengths to escape a hidden platform during 12 training trials given over 2 d. Differences in the performances of EHYP and control rats, although reduced, persisted after 14 d of recovery. We conclude that EHYP is associated with marked cellular changes over time within neural regions associated with cognitive functions. Furthermore, EHYP impaired performance during acquisition of a cognitive spatial task without affecting sensorimotor function. Such changes may underlie components of the learning and memory impairments found in OSA.

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“…TUNEL labeling was performed according to a published method (Chen et al, 1997), with minor modifications. In brief, fixed cells in slide chambers were incubated in the terminal deoxynucleotidyl-transferase (TDT) buffer (Invitrogen, Carlsbad, CA) for 10 minutes at RT and then incubated for 2h at 37°C in TDT buffer containing 10 mM biotin-aha-dUTP (Invitrogen, Carlsbad, CA) and 300 U/ml TDT (Invitrogen, Carlsbad, CA).…”

Section: Terminal Deoxynucleotidyltransferase-mediated Dutp Nick End mentioning

confidence: 99%

Src kinase inhibition decreases thrombin-induced injury and cell cycle re-entry in striatal neurons

Liu

Cheng

Ander

et al. 2008

Neurobiology of Disease

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Since Src kinase inhibitors decrease brain injury produced by intracerebral hemorrhage (ICH) and thrombin is activated following ICH, this study determined whether Src kinase inhibitors decrease thrombin induced brain injury. Thrombin injections into adult rat striatum produced focal infarction and motor deficits. The Src kinase inhibitor PP2 decreased thrombin-induced Src activation, infarction in striatum and motor deficits in vivo. Thrombin applied to cultured post-mitotic striatal neurons caused: injury to axons and dendrites; many TUNEL positive neuronal nuclei; and re-entry into the cell cycle as manifested by cyclin D1 expression, induction of several other cell cycle genes and cyclin-dependent kinase 4 activation. PP2 dose-dependently attenuated thrombin-induced injury to the cultured neurons; and attenuated thrombin-induced neuronal cell cycle re-entry. These results are consistent with the hypotheses that Src kinase inhibitors decrease injury produced by ICH by decreasing thrombin activation of Src kinases and, at least in part, by decreasing Src induced cell cycle re-entry.

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Early Detection of DNA Strand Breaks in the Brain After Transient Focal Ischemia: Implications for the Role of DNA Damage in Apoptosis and Neuronal Cell Death

Cited by 298 publications

References 40 publications

Mapping the initial DNA breaks in apoptotic Jurkat cells using ligation-mediated PCR

Mapping the initial DNA breaks in apoptotic Jurkat cells using ligation-mediated PCR

Behavioral and Anatomical Correlates of Chronic Episodic Hypoxia during Sleep in the Rat

Src kinase inhibition decreases thrombin-induced injury and cell cycle re-entry in striatal neurons

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