Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Significant numbers of myocytes die by apoptosis during myocardial infarction. The molecular mechanism of this process, however, remains largely unexplored. To facilitate a molecular genetic analysis, we have developed a model of ischemia-induced cardiac myocyte apoptosis in the mouse. Surgical occlusion of the left coronary artery results in apoptosis, as indicated by the presence of nucleosome ladders and in situ DNA strand breaks. Apoptosis occurs mainly in cardiac myocytes, and is shown for the first time to be limited to hypoxic regions during acute infarction. Since hypoxia-induced apoptosis in other cell types is dependent on p53, and p53 is induced by hypoxia in cardiac myocytes, we investigated the necessity of p53 for myocyte apoptosis during myocardial infarction. Myocyte apoptosis occurs as readily, however, in the hearts of mice nullizygous for p53 as in wild-type littermates. These data demonstrate the existence of a p53-independent pathway that mediates myocyte apoptosis during myocardial infarction.
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PMID:Myocyte apoptosis during acute myocardial infarction in the mouse localizes to hypoxic regions but occurs independently of p53. 929 1

Apoptosis is an active, gene-directed process of cell death in which early fragmentation of nuclear DNA precedes morphological changes in the nucleus and, later, in the cytoplasm. In ischemia, biochemical studies have detected oligonucleosomes of apoptosis whereas sequential morphological studies show changes consistent with necrosis rather than apoptosis. To resolve this apparent discrepancy, we subjected rats to 10 minutes of transient forebrain ischemia followed by 1 to 14 days of reperfusion. Parameters evaluated in the CA1 region of the hippocampus included morphology, in situ end labeling (ISEL) of fragmented DNA, and expression of p53. Neurons were indistinguishable from controls at postischemic day 1 but displayed cytoplasmic basophilia or focal condensations at day 2; some neurons were slightly swollen and a few appeared normal. In situ end labeling was absent. At days 3 and 5, approximately 40 to 60% of CA1 neurons had shrunken eosinophilic cytoplasm and pyknotic nuclei, but only half of these were ISEL. By day 14, many of the necrotic neurons had been removed by phagocytes; those remaining retained mild ISEL. Neither p53 protein nor mRNA were identified in control or postischemic brain by in situ hybridization with riboprobes or by northern blot analysis. These results show that DNA fragmentation occurs after the development of delayed neuronal death in CA1 neurons subjected to 10 minutes of global ischemia. They suggest that mechanisms other than apoptosis may mediate the irreversible changes in the CA1 neurons in this model.
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PMID:DNA fragmentation follows delayed neuronal death in CA1 neurons exposed to transient global ischemia in the rat. 930 10

We used double staining histochemistry to investigate the relationship between apoptotic cell death and selective protein expression associated with DNA damage (p53, Bax, MDM2, Gadd45), DNA repair (PCNA) and cell cycle proteins (cyclin A, cyclin D, cdk2, cdk4) in rats (n = 6; control rats, n = 5) subjected to transient (2 h) middle cerebral artery occlusion (MCAo) and 46 h of reperfusion. Few apoptotic cells were detected in the non-ischemic hemisphere of control rats. In ischemic animals, scattered apoptotic cells were present in the ischemic core and clustered apoptotic cells were present and localized to the inner boundary zone of the ischemic core. Proteins were preferentially localized to the cellular cytoplasm of control rats and in the non-ischemic hemisphere of rats subjected to MCAo. However, after MCAo these proteins were expressed and were preferentially localized to nuclei within the ischemic lesion. DNA damage induced proteins (wt-p53 and p53-response proteins) were preferentially expressed within apoptotic cells after ischemia. DNA repair proteins and cell cycle proteins were preferentially expressed within morphologically intact cells and in reversibly damaged cells in the ischemic areas. The selective expression of proteins associated with DNA damage, DNA repair and cell cycle observed in morphologically intact cells, ischemic injured cells and apoptotic cells suggests a differential role for these proteins in cell survival and apoptosis after stroke.
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PMID:Apoptosis and protein expression after focal cerebral ischemia in rat. 931 3

Apoptosis is well described in invertebrates and recently documented in mammals. The prevalence and pathophysiology of mammalian apoptosis is unknown and may have clinical ramifications. The aim of this study is to investigate the apoptotic response during kidney ischemia-reperfusion (I/R) injury. Kidney I/R was initiated in anesthetized rats by occlusion of the renal pedicle for 45 min with or without pretreatment with .2 mg/kg verapamil: control animals received sham exposure. Flow was re-established after ischemia and the animals were allowed to recover for 24 h. Bilateral kidneys were harvested for DNA electrophoresis, Western analysis for p53, Northern analysis for c-myc expression, and light and electron microscopic analysis. Kidney I/R caused characteristic DNA laddering in the clamped kidney, and less extensive laddering was seen in the contralateral kidney. Light and electron microscopic analysis confirmed apoptotic morphology in the reperfused tissues. Verapamil pretreatment completely abolished DNA laddering and attenuated the microscopic evidence of apoptosis. p53 levels were increased by I/R in the ischemic kidney and moderately increased in the contralateral organ. c-myc mRNA levels were increased by the I/R insult. Kidney I/R injury may induce global apoptosis, which seems to be associated with an alteration in calcium homeostasis. The increase in p53 and c-myc mRNA levels seen with I/R may facilitate apoptosis. Calcium modulation seems to reduce apoptosis during I/R and may have therapeutic implications.
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PMID:Calcium blockade reduces renal apoptosis during ischemia reperfusion. 937 65

The present studies were initiated to investigate whether p53 transactivated target genes are induced in a rat model of focal cerebral ischemia. Therefore, we applied in situ hybridization, immunocytochemistry and western blotting to study the temporal and spatial expression of p53 and its transcriptional targets Bax, p21 and cyclin G1 following permanent middle cerebral artery occlusion in the rat. Cyclin G1 immunoreactivity was constitutively expressed in the nuclei of cells in the choroid plexus and ependymal cell layer and in the cytoplasm of cell bodies and dendrites of pyramidal neurons of the cerebral cortex. Cyclin G1 messenger RNA and protein levels transiently increased to 150% of contralateral levels in neurons of the ipsilateral frontal and parietal cortex and striatum 3 h following middle cerebral artery occlusion. A low level of constitutively expressed p21 messenger RNA and protein was found in nuclei of cells in the choroid plexus, oligodendrocytes and neurons. p21 messenger RNA and protein levels gradually increased to 250% and 140% of contralateral levels in areas bordering the infarct core up to 6 h following middle cerebral artery occlusion. In contrast, p53 and Bax messenger RNA and protein levels, and protein levels of p27, cyclin-dependent kinase 5, p35 and cyclin E decreased in the infarct core and border areas with time after middle cerebral artery occlusion. The selective up-regulation of cyclin G1 and p21 in neurons in the border zone of a focal ischemic infarct indicates their involvement in an adaptive response to ischemic injury. The possible participation of cyclin G1 and p21 in a signal transduction pathway associated with ischemia-induced cellular stress is discussed.
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PMID:Cell cycle-related gene expression in the adult rat brain: selective induction of cyclin G1 and p21WAF1/CIP1 in neurons following focal cerebral ischemia. 957 98

Acidosis is a well established concomitant of tissue ischemia. Acidosis in the pH range 6.0-7.0 is seen in cerebral ischemia and within solid tumors. Extracellular acidosis of pH 6.0 and 6.4 provided essentially complete protection from 48 h serum deprivation induced apoptotic death of cultured primary murine neurons. We tested the effect of p53 using transformed mouse embryo fibroblasts of either p53+/+ or p53-/- genotype. Both were markedly protected from serum deprivation by acidity. Hypoxia induced fibroblast injury was also reduced at pH 6.8. Lower pH resulted in a shift from apoptotic to necrotic morphology after 42 h hypoxia. Acidosis reduces apoptosis of both normal and transformed cells, irrespective of p53 status.
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PMID:Acidosis reduces neuronal apoptosis. 957 83

Glioblastomas may develop rapidly without clinical and histopathological evidence of a less malignant precursor lesion (de novo or primary glioblastoma) or through progression from low-grade or anaplastic astrocytoma (secondary glioblastoma). Primary glioblastomas typically show overexpression of EGFR, but rarely p53 mutations, while secondary glioblastomas frequently carry a p53 mutation, but usually lack overexpression of EGFR, suggesting that these glioblastoma subtypes develop through distinct genetic pathways. In the present study, we assessed the expression of Fas/APO-1 (CD95), an apoptosis-mediating cell membrane protein, and its relation to necrosis phenotype in primary and secondary glioblastomas. Large areas of ischemic necroses were observed in all 18 primary glioblastomas, but were significantly less frequent in secondary glioblastomas (10 of 19, 53%; p = 0.0004). Fas expression was predominantly observed in glioma cells surrounding large areas of necrosis and was thus significantly more frequent in primary glioblastomas (18 of 18, 100%) than in secondary glioblastomas (4 of 19, 21%; p < 0.0001), suggesting that these clinically and genetically defined subtypes of glioblastoma differ in the extent and mechanism of necrogenesis. Necrosis and microvascular proliferation are histologic hallmarks of the glioblastoma. Following incubation of glioblastoma cell lines under hypoxic/anoxic conditions for 24-48 hours, Fas mRNA levels remained unchanged, whereas VEGF expression was markedly upregulated. This suggests that in contrast to VEGF Fas expression is not induced by ischemia/hypoxia. Analysis of Fas mRNA levels in a glioblastoma cell line containing a p53 mutation and an inducible wild-type p53 gene showed little difference under induced and noninduced conditions, suggesting that in glioblastomas, Fas expression is not directly linked to the p53 status.
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PMID:Necrogenesis and Fas/APO-1 (CD95) expression in primary (de novo) and secondary glioblastomas. 960 Feb 16

The proto-oncogene c-myc, and the tumor suppressor gene p53, encode proteins which function as transcriptional regulating factors governing cell proliferation, differentiation, and apoptosis. Recent evidence suggests that the delayed neuronal death which follows an episode of transient forebrain ischemia may involve apoptotic processes. We have therefore utilized immunohistochemistry to investigate the effects of transient global ischemia on neuronal expression of p53- and Myc-like immunoreactivities in the rodent forebrain 2, 12, 24, 48, and 72 h following reperfusion. Transient global ischemia (20 min), produced by four vessel occlusion (4-VO), initially elevated p53-like immunoreactivity in both CA1 and CA3 hippocampal subfields at 24 h of recirculation. However, distinct patterns of gene expression became evident in these regions at later time points. A pivotal difference was the persistence of ischemia-induced increases of p53- and Myc-like immunoreactivity in the CA1 region of the hippocampus. Unlike CA3 neurons where p53-like immunoreactivity subsided to basal levels by 48 h of survival, CA1 neurons continued to display increased p53-immunoreactivity 48 h post-ischemia, while Myc-like immunoreactivity was selectively elevated in CA1 neurons at this time point. Ischemia-induced increases in p53-like immunoreactivity were also detected in vulnerable regions of the amygdala, thalamus, and cortex 12 to 48 h after recirculation. Given that both p53 and Myc have been implicated in gene signalling pathways which mediate programmed cell death, our findings which demonstrate that 4-VO produces persistent elevations of p53- and Myc-like immunoreactivities in vulnerable neurons suggest that these proteins may also contribute to delayed neuronal death following an episode of transient forebrain ischemia.
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PMID:Hippocampal Myc and p53 expression following transient global ischemia. 960 97

In various animal models of cerebral hypoxia-ischemia, it is not clear whether neuronal apoptosis results from hypoxia alone or whether other factors mediate this process. We hypothesized that (1) hypoxia alone can induce neuronal apoptosis, (2) hypoxic severity alters the time course of neuronal apoptosis, (3) hypoxia increases neuronal p53, and this increase in p53 is critical for neuronal apoptosis. Embryonic neocortical neurons cultured for 7-10 days were placed in an incubator with levels set at 0.1%, 1%, and 3% O2 and were removed at 24-h intervals for study. Under all hypoxic conditions, observed changes in cellular morphology and DNA fragmentation, detected by the TUNEL method and gel electrophoresis, were consistent with apoptosis. These alterations were seen after a shorter period with increasing hypoxic severity. Immunoblot analysis revealed an increase in p53 protein in hypoxia-exposed neurons. Analysis of immunofluorescence-stained neurons revealed increases in p53 with increased duration and severity of hypoxia. Antisense oligonucleotides for p53 significantly increased the number of surviving neurons during hypoxic exposure. We conclude that hypoxia-induced neuronal apoptosis is, in part, a p53-dependent process whose time course is influenced by hypoxic severity and duration.
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PMID:Hypoxia-induced apoptosis: effect of hypoxic severity and role of p53 in neuronal cell death. 966 52

Oxidative stress affecting DNA integrity may be an important mediator of cell death induced by cerebral ischemia followed by reperfusion. Genes involved in the DNA repair processes may play an important role in cell viability. We studied the spatial expression of the DNA damage inducible gene p53 and its transcriptional targets p21WAF1/CIP1, cyclin G1, and Bax and compared their expression with markers of early DNA damage following 10 min of transient forebrain ischemia in rats. Cyclin G1 and p21WAF1/CIP1 mRNA levels increased significantly between 2.5 and 4-fold in neurons of the hippocampus, cortex, and striatum during the first 24 hr after reperfusion and decreased at 48 hr of reperfusion. Significant increases in the protein levels of Cyclin G1 and p21 WAF1/CIP1 were only seen in the striatum at 48 hr of reperfusion. The mRNA levels of the p21 family members p27KIP1 or p57KIP2 demonstrated no significant changes. p53, baxalpha, and bcl-xl mRNA levels increased in all areas of the hippocampus by 12 to 24 hr and decreased over the next 2 days of reperfusion. baxalpha mRNA was specifically induced in neurons of the outer cortical layers at 12 and 24 hr after reperfusion, and protein levels increased in the striatum at 48 hr. No changes in protein levels of p53, Bcl-xl, or Bcl-2 were detected in the cerebral cortex, hippocampus, or striatum at any time point following reperfusion. Single-stranded DNA breaks detected with DNA polymerase I-mediated in situ nick translation partly overlapped with nuclear cyclin G1 protein in the striatum, cortex, and hippocampus at 24 hr, however at 48 hr cyclin G1 remained elevated only in neurons bordering areas exhibiting DNA damage. Nuclear p53 protein, p21 mRNA, and baxalpha mRNA were absent in cells stained with the in situ nick translation method but p21 mRNA and baxalpha mRNA were increased in neurons adjacent to those with detectable DNA nick ends at 24 and 48 hr following reperfusion. The enhanced expression of cyclin G1, p21WAF1/CIP1, and baxalpha in neurons surviving transient forebrain ischemia may indicate their participation in an adaptive response to cerebral ischemia and reperfusion.
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PMID:Increased expression of cyclin G1 and p21WAF1/CIP1 in neurons following transient forebrain ischemia: comparison with early DNA damage. 969 56


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