UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The heterogeneity of c-fos and hsp72 mRNA expression during focal ischemia was studied in mice by combining in situ hybridization with metabolic imaging. Focal ischemia was produced by middle cerebral artery occlusion for 3 h. The infarct core and the penumbra were differentiated by regional ATP and cerebral protein synthesis (CPS) imaging. hsp72 mRNA expression was restricted to the ischemic penumbra, as defined by the dissociation between preserved ATP and suppressed CPS. c-fos mRNA was expressed not only in the penumbra but also in the peri-ischemic normal brain tissue in which both ATP and CPS were preserved. These data demonstrate a highly selective differential expression of immediate-early and stress-related genes in the peri-infarct surrounding which is explained by different mechanisms of gene induction.
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PMID:Differential expression of c-fos and hsp72 mRNA in focal cerebral ischemia of mice. 959 42

The effects of a traumatic neocortical lesions, induced by transcranial cold injury, on brain metabolism and gene expression were examined. The surrounding of the lesions was characterized by increased glucose and lactate levels without major disturbances of protein synthesis or energy state. A transient pH decrease by 0.4 units was noticed 1 h post-injury, which shifted towards alkaline values by 3 h. The metabolic disturbances did not differ between injured animals with spontaneous spreading depressions (SD, n = 14) and those without SD (n = 7). In SD animals, c-fos mRNA was strongly elevated in the injury-remote cortex, but hsp72 mRNA was not enhanced. Thus, in contrast to focal ischemia, the metabolic dysfunction around traumatic cortical lesions is not aggravated by SD.
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PMID:Effects of a traumatic neocortical lesion on cerebral metabolism and gene expression of rats. 960 3

Previous studies in a model of unilateral hypoxia-ischemia in the developing rat brain have shown induction of the mRNAs of c-fos and c-jun and presence of apoptotic DNA fragmentation. In this same model, dexamethasone confers neuroprotection if given before the insult. Since c-fos and c-jun have been involved in several models of cell death, we investigated whether the neuroprotective effect of dexamethasone could be associated with changes in expression of these genes. Rat pups, pre-treated with either 0.5 mg/kg dexamethasone or vehicle 48 h, 24 h and immediately before the injury, were subjected to ligation of the left common carotid artery followed by 3 h hypoxia. Analysis of c-fos and c-jun expression at 2 h, by means of in situ hybridization, revealed diminished induction in dexamethasone-treated animals. Jun immunoreactivity, but not Fos, and DNA fragmentation, assessed by in situ end-labeling of fragmented DNA, were present at 24 h only in vehicle-injected animals. Electrophoresis of brain extracted DNA revealed a ladder pattern in all the animals. Our results show a relationship between Jun overexpression and cell-death in the hypoxic-ischemic developing brain and suggest that dexamethasone exerts its protective effect anteceding immediate early gene induction, at some early point in post-ischemic signal transduction.
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PMID:Cell death and associated c-jun induction in perinatal hypoxia-ischemia. Effect of the neuroprotective drug dexamethasone. 960 39

The expression of the proto-oncogenes c-fos and c-jun was examined by in situ hybridization at various timepoints following transient retinal ischemia by means of ligation of the retinal central artery in the rat. Ischemia of 90-minute duration resulted in the degeneration of neurons in both the ganglion cell layer and the inner nuclear layer at 48 hours after reperfusion. The expression of c-fos and c-jun messenger RNA throughout the entire inner nuclear layer was transiently coinduced following 90-minute retinal ischemia with a peak at 1 hour after reperfusion. This expression was also found in the ganglion cell layer at 3 hours after reperfusion. Weak signals for c-fos and c-jun mRNA were observed at 24 hours after reperfusion and returned to near control levels by 48 hours. c-jun protein expression was detected in the ganglion cell layer, the middle of the inner nuclear layer, and optic nerve head at 3 hours, but not 1 hour, after lethal ischemia/reperfusion; however, c-fos protein expression was not detected after reperfusion. Whereas no neuronal degenerative changes were found at 7 days after 30-minute ischemic retina, c-fos and c-jun messenger RNA were also induced at 1 hour postreperfusion. To our knowledge, this study is the first report to show expression patterns of immediate-early genes after retinal ischemia/reperfusion. These results suggest that changes in expression of c-fos and c-jun after transient retinal ischemia are similar to those after transient brain ischemia, and the selective occlusion of the central retinal artery will provide a useful model for studying ischemic neuronal degeneration in vivo in the rat retina.
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PMID:Expression of c-fos and c-jun mRNA following transient retinal ischemia: an approach using ligation of the retinal central artery in the rat. 960 95

The neuroprotective potential of the nerve growth factor (NGF) against permanent ischemic brain damage has been investigated in vivo using NGF-transgenic (tg) mice. The expression of the transgene is driven by part of the promoter of the proto-oncogene c-fos, which belongs to the first set of genes activated after brain ischemic insult. Wild-type (wt) mice and tg mice were subjected to permanent focal ischemia induced by electrocoagulation of the middle cerebral artery. Twenty four hours (h) after the ischemic shock, when compared to wt, tg mice displayed a 40% reduction of the infarcted area, which lasted up to 1 week. However, infarcted brain areas were similar in wt and tg mice within the first hours post-occlusion, indicating that NGF acted to block the progression of neuronal damage. Kinetics of NGF synthesis assessed by ELISA was in good agreement with the observed neuroprotective effect, since NGF content peaked 6 h post-ischemia. This was further correlated with the time-course of c-Fos immunoreactivity, detectable only from 6 h post-ischemia. The neuroprotective effect of NGF involved the impairment of apoptotic cell death, as evidenced by a marked decrease of the number of apoptotic profiles inside the ischemic zone in tg mice. These results underline the potential of c-fos-NGF-tg mice to study in vivo the molecular and cellular mechanisms of the NGF-induced neuroprotective effect against ischemic damage.
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PMID:Reduction of cortical infarction and impairment of apoptosis in NGF-transgenic mice subjected to permanent focal ischemia. 964 68

The effects of a traumatic neocortical lesion, induced by transcranial cold injury, on brain metabolism and gene expression were examined. The surrounding of the lesions was characterized by increased glucose and lactate levels without major disturbances of protein synthesis or energy state. A transient pH decrease by 0.4 units was noticed 1 h post-injury, which shifted towards alkaline values by 3 h. The metabolic disturbances did not differ between injured animals with spontaneous spreading depressions (SD, n = 14) and those without SD (n = 7). In SD animals, c-fos mRNA was strongly elevated in the injury-remote cortex, but hsp72 mRNA was not enhanced. Thus, in contrast to focal ischemia, the metabolic dysfunction around traumatic cortical lesions is not aggravated by SD.
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PMID:Effects of a traumatic neocortical lesion on cerebral metabolism and gene expression of rats. 966 26

Lipopolysaccharide (LPS) preconditioning induces cardiac resistance to subsequent LPS or ischemia. This study tested the hypothesis that resistance to LPS and resistance to ischemia are two manifestations of cardiac cross-resistance which may involve reprogramming of cardiac gene expression. Rats were preconditioned with a single dose of LPS (0.5 mg/kg ip). Cardiac resistance to LPS was examined with a subsequent LPS challenge. Cardiac resistance to ischemia was determined by subjecting hearts to ischemia-reperfusion. Total RNA was extracted from myocardium for Northern analysis of mRNAs encoding protooncoproteins, antioxidant enzymes, and contractile protein isoforms. Rats preconditioned with LPS 1-7 days earlier acquired cardiac resistance to endotoxemic depression. This resistance temporally correlated with resistance to ischemia. Pretreatment with cycloheximide (0.5 mg/kg ip) abolished resistance to both LPS and ischemia. LPS preconditioning induced the expression of c-jun and c-fos mRNAs. LPS also transiently increased mRNAs encoding catalase and Mn-containing superoxide dismutase. The expression of both alpha- and beta-myosin heavy chain mRNAs was upregulated, whereas the expression of cardiac alpha-actin mRNA was suppressed. We conclude that 1) LPS induces sustained cardiac resistance to both LPS and ischemia, 2) resistance to ischemia and resistance to LPS seem to be two mechanistically indistinct components of cardiac cross-resistance, and 3) the cardiac cross-resistance is associated with reprogramming of myocardial gene expression.
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PMID:Myocardial gene reprogramming associated with a cardiac cross-resistant state induced by LPS preconditioning. 968 2

No attention has been given to an influence of the intracranial pressure (ICP) elevation on the brain at the level of the gene. In the present study, we originally attempted to evaluate the molecular biological changes of the brain, especially the expression of c-fos mRNA as a marker of cellular response, caused by increased ICP. Our results confirm that the neurons and non-neuronal cells are well able to tolerate the stress of increased ICP at the level of the gene, under the condition that cerebral blood flow (CBF) is maintained. A severe increase in ICP, which reduces CBF, enhances the c-fos mRNA expression in a similar fashion as in a forebrain ischemia model, except in the choroid plexus.
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PMID:Expression of immediate early gene c-fos in rat brain following increased intracranial pressure. 977 82

Previous studies have demonstrated that cortical spreading depression (CSD) induces neuronal tolerance to a subsequent episode of ischemia. The objective of the present investigation was to determine whether CSD alters levels of mRNA coding for putative neuroprotective proteins. Unilateral CSD was evoked in male Wistar rats by applying 2 mol/L KCl over the frontal cortex for 2 hours. After recovery for 0, 2, or 24 hours, levels of several mRNA coding for neuroprotective proteins were measured bilaterally in parietal cortex using Northern blot analysis. Levels of c-fos mRNA and brain-derived neurotrophic factor (BDNF) mRNA were markedly elevated at 0 and 2 hours, but not 24 hours after CSD. Tissue plasminogen activator (tPA) mRNA levels were also significantly increased at 0 and 2 hours, but not 24 hours after CSD. Levels of the 72-kDa heat-shock protein (hsp72) mRNA were not significantly increased by CSD, except for a small elevation (20%) at 2 hours recovery. Levels of the 73-kDa heat-shock cognate (hsc73) mRNA were slightly, but significantly, increased at 2 and 24 hours of recovery. Finally, levels of mRNA for protease nexin-1 and glutamine synthetase were not significantly altered by CSD at any time studied. The current results support the hypothesis that neuronal tolerance to ischemia after CSD may be mediated by increased expression of FOS, BDNF, or tPA, but not by increased expression of hsp72, hsc73, nexin-1, or glutamine synthetase.
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PMID:Effect of cortical spreading depression on the levels of mRNA coding for putative neuroprotective proteins in rat brain. 985 Jan 43

To elucidate the mechanism of ischemia-induced signal transduction in vivo, we investigated the effect of the targeted disruption of the alpha and delta isoforms of the cAMP-responsive element-binding protein (CREB) on c-fos and heatshock protein (hsp) 72 gene induction. Permanent focal ischemia was induced by occlusion of the middle cerebral artery of the CREB mutant mice (CREB(-/-), n = 5) and the wild-type mice (n = 6). Three hours after onset of ischemia, the neurologic score was assessed and pictorial measurements of ATP and cerebral protein synthesis (CPS) were carried out to differentiate between the ischemic core (where ATP is depleted), the ischemic penumbra (where ATP is preserved but CPS is inhibited), and the intact tissue (where both ATP and CPS are preserved). There were no significant differences in neurologic score or in ATP, pH, and CPS between the two groups, suggesting that the sensitivity of both strains to ischemia is the same. Targeted disruption of the CREB gene significantly attenuated c-fos gene induction in the periischemic ipsilateral hemisphere but had no effect on either c-fos or hsp72 mRNA expression in the penumbra. The observations demonstrate that CREB expression, despite its differential effect on c-fos, does not modulate acute focal ischemic injury.
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PMID:Attenuated c-fos mRNA induction after middle cerebral artery occlusion in CREB knockout mice does not modulate focal ischemic injury. 985 Jan 45

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