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)

Steady-state levels of messenger RNA (mRNA) for different members of the heat-shock protein 70 gene family were studied in rat livers reperfused after non-necrogenic ischemia. The expression of constitutive hsc 73 gene decreases during ischemia, returns to normal upon reperfusion, and increases 4 hr after restoration of blood flow. Reperfusion induces the expression of another hsp 70 gene family member (the so-called inducible hsp 70 gene), which remains at high levels for at least 7 hr. The induction of hsp 70 family genes is preceded by activation of the cellular oncogene c-fos, the most prompt change in gene expression detected in reperfused liver. Run-on experiments demonstrate that the increased expression of these genes is largely dependent on activation of transcription. Changes in the amount of c-myc and ornithine decarboxylase mRNA are not evident, while the level of the mRNA for glucose-regulated protein GRP 78 increases later, concurrent with the onset of the acute phase response to surgical trauma. Analysis of polysomal and nonpolysomal fractions from sucrose gradients indicates that in postischemic liver, hsp 70 and hsc 73 mRNA are rapidly engaged on light polysomal or nonpolysomal complexes and are later shifted to polysomes. Albumin mRNA displays the same behavior, indicating that hsp 70 mRNA are not preferentially translated and that increased transcription is the major mechanism for enhanced hsp synthesis in postischemic liver. Damage by active oxygen species, pressure overload, and derangements of protein synthesis is likely to include the causative factors of increased expression of c-fos and the hsp 70 gene family in postischemic reperfused liver.
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PMID:Reprogramming of gene expression in postischemic rat liver: induction of proto-oncogenes and hsp 70 gene family. 210 73

Induction of messenger RNA encoding the 70-kDa heat shock or stress protein, hsp70, and the product of the proto-oncogene c-fos was evaluated in gerbil hippocampus by in situ hybridization at various recirculation intervals after 5 minutes of ischemia. Striking increases in c-fos RNA were observed in dentate granule cells within 15 minutes of recirculation and remained evident through 1 hour, returning to undetectable control levels by 3 hours. Modest c-fos hybridization was seen in CA1 and CA3 neurons during the same time course. These results are consistent with the rapid and transient stimulation-induced c-fos expression observed in many experimental systems. Hsp70 expression showed a longer time course, being strongly induced in all major hippocampal neuron populations within 3 hours and persisting for approximately 12 hours in dentate granule cells and through 24 hours in CA3 pyramidal neurons. Notably, the most prolonged expression of hsp70 RNA was observed in vulnerable CA1 neurons that minimally accumulate the immunoreactive protein, with hybridization detected essentially until the death of this cell population at 3-4 days. These studies demonstrate an overlapping distribution of hsp70 and c-fos expression in gerbil hippocampus after ischemia, although there are differences in time course and in the relative induction observed in different neuron populations. The transient increase in c-fos hybridization in dentate granule cells is identical to that seen in various seizure paradigms and provides further support for activation of hippocampal circuitry after ischemia. The prolonged time course of hsp70 messenger RNA expression in vulnerable CA1 neurons may provide a molecular correlate of proposed excitotoxic mechanisms mediating delayed neuronal death.
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PMID:70-kDa heat shock protein and c-fos gene expression after transient ischemia. 212 54

Unilateral carotid ligation in immature rats, followed by 2 h of hypoxia led to ischemic cell change from 2 h after the insult, on the ligated side of the brain. There was a time-dependent induction of immunoreactive c-fos protein in neurones but not glia or ependyma on the non-ligated side of the brain. Induction only occurred in rats that had seizures post hypoxia-ischemia. In the ligated hemisphere c-fos protein was induced in glial-like cells in the corpus callosum, fornix/fimbria and internal capsule and in ependymal cells lining the lateral ventricle starting from 2 h after hypoxia but subsiding by 3 days. No neuronal c-fos induction was seen in areas showing neuronal damage. MK-801 or carbamazepine, which prevented hypoxia-ischemia-induced seizures, also prevented c-fos induction in the non-ligated hemisphere while MK-801 was associated with increased c-fos induction in hippocampal neurones from the ligated side, as well as in glial-like and ependymal cells. These results suggest several processes are involved following the hypoxic-ischemic insult. Firstly, severe hypoxia-ischemia is associated with a reduction in neuronal c-fos protein levels, probably as a result of neuronal failure and death. Secondly, post hypoxic seizures cause c-fos induction in surviving neurones. Thirdly, glial-like from regions in which there is neural loss also exhibit induction of c-fos, which may be important for their subsequent proliferation or for the production of growth factors.
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PMID:Effects of hypoxia-ischemia and seizures on neuronal and glial-like c-fos protein levels in the infant rat. 212 69

We have analyzed the brain pattern and time-course of c-fos-like proteins expression in kainic acid-induced seizures in the rat. C-fos-like immunoreactivity increased initially in the hippocampus, notably in the dentate gyrus, at the time of the first limbic motor seizure (90 min after kainate). C-fos-like labelling progressively involved different structures of the limbic system when the rats manifested a permanent epileptic state (3-6 h). The labelling was still conspicuous 12 h after kainate treatment and progressively declined to reach control levels 48 h after kainate. This time-course is similar to that produced by kainic acid on 2-deoxyglucose consumption and correlates with the electrographic changes previously described, supporting the idea that c-fos-like immunostaining may provide a useful marker of neuronal activity, with a cellular resolution. Since anoxic-ischemic treatment produces a very slight and transient increase in c-fos-like immunostaining restricted to the fascia dentata, c-fos-like expression is seizure-related and not due to a local hypoxia or ischemia.
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PMID:Effects of kainic acid-induced seizures and ischemia on c-fos-like proteins in rat brain. 212 98

Temporary renal ischemia is followed by increased DNA synthesis and cell division as the kidney restores the continuity of the renal epithelium. We sought to characterize some of the changes in proto-oncogene and growth factor expression during this proliferative response. Northern analysis of polyadenylated RNAs of kidney cortical and outer stripe of outer medullary tissue from male Sprague-Dawley rats was performed following release of renal hilar clamping of 50 minutes duration. Ischemia produced an increase in c-fos mRNA that reached a peak at one hour and declined rapidly to control levels by four hours after release of the clamp. A similar rapid increase and decrease in early growth response 1 (Egr 1) mRNA was noted. The response of these immediate early genes was typical of their response to mitogens, suggesting that they served a similar role in renal cell regeneration. Levels of c-Ki-ras and glyceraldehyde phosphate dehydrogenase mRNA were unchanged. Renal preproEGF mRNA decreased at two hours, was virtually absent by 24 hours and remained low for at least four days after ischemia. Urinary excretion of EGF fell immediately after release of ischemia and before the decline in preproEGF mRNA or SNGFR, suggesting post-transcriptional affects of ischemia on renal EGF production. EGF excretion returned to only 50% of control by day 21. Specific 125I-EGF binding increased in membrane fractions of cortex, outer medulla and inner medulla as early as 24 hours after release of the clamp. Cortical 125I-EGF binding increased in the proximal tubule but not in the glomerulus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in gene expression after temporary renal ischemia. 236 5

The amounts of mRNAs for proto-oncogene c-fos and structural protein beta-actin were measured in the rat cerebral cortex after transient forebrain ischemia. A transient and specific induction of c-fos mRNA was noticed in the cerebral cortex 30-90 min after ischemia followed by decline to control value. In contrast, the level of mRNA for beta-actin was not altered throughout the recirculation period examined. These results suggest specific role of c-fos gene after brain damage.
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PMID:Proto-oncogene c-fos is transiently induced in the rat cerebral cortex after forebrain ischemia. 249 62

Levels of prepro epidermal growth factor (EGF) mRNA in renal cortical tissue and urinary EGF excretion have been determined during cisplatin and ischemia-induced acute renal failure in the rat. Northern analysis of polyadenylated RNAs of kidney cortical tissue showed diminished renal preproEGF mRNA in rats injected with cisplatin (5 mg/kg). The decrease in preproEGF mRNA occurred as early as 12 hours in the kidney and persisted for at least three days after cisplatin injection. The submandibular gland, a major site of EGF synthesis, contained normal levels of preproEGF mRNA. Transplatin, a non-nephrotoxic isomer of cisplatin, did not reduce renal preproEGF mRNA levels. Northern analysis of polyadenylated RNAs of kidney cortical tissue 24 hours after a 50 minute period of renal pedicle clamping also showed reduced preproEGF mRNA levels. By contrast, cisplatin increased renal c-fos mRNA. Urinary EGF excretion was also reduced after cisplatin and ischemia and the decrease in EGF excretion correlated significantly with the degree of renal failure. The data show that nephrotoxic and ischemic renal cell injury reduces preproEGF mRNA and urinary EGF excretion. Reduced preproEGF mRNA and diminished EGF excretion may be important in the functional and regenerative responses to renal injury.
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PMID:Reduced renal prepro-epidermal growth factor mRNA and decreased EGF excretion in ARF. 261 90

Methods are described for determining the expression of specific mRNAs and proteins in brain slices, in order to elucidate changes in gene expression during preparation of vibratome slices from hippocampus of adult rats. In situ hybridization with 35S-labeled oligonucleotides was used to evaluate the level and distribution of c-fos and hsp72 mRNAs in 15-microns frozen sections prepared from these slices. Commercially available antibodies were used to examine the distribution of induced Fos and Jun proto-oncogenes as well as expression of the neuronal cytoskeletal protein, microtubule-associated protein 2 (MAP2), in 50-microns vibratome sections from immersion-fixed slices. These studies confirm the induction of c-fos and hsp72 mRNAs during routine incubation, as previously observed in hippocampal slices obtained with a tissue chopper and incubated under somewhat different conditions, indicating that such responses are likely to be common features of many slice preparations. Accumulation of Fos and Jun immunoreactivities in neurons and glia was generally consistent with the distribution of c-fos mRNA induction observed in slices, and the neuronal component of this response was comparable to the expression of these proteins observed after transient ischemia in vivo. MAP2 immunoreactivity detected in the dendritic processes of neurons tended to show an increase in staining intensity during slice incubation, although loss of dendritic staining in specific regions was occasionally observed in association with the absence of Fos and Jun expression and histological evidence of neuron damage. These results support the use of MAP2 immunoreactivity as a sensitive indicator of neuronal integrity in slices.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunocytochemical and in situ hybridization approaches to the optimization of brain slice preparations. 747 55

Ischemia/hypoxia rapidly induce ischemic changes in vulnerable neurons: cortical neurons in layers II-III and V, hippocampal neurons, cerebellar Purkinje cells and certain basal ganglia and brainstem neurons. The ischemic changes are manifested histologically by nuclear pyknosis, cytoplasmic shrinkage and basophilia. These neurons exhibit strong and persistent expression of immediate early genes (IEGs): c-fos and c-jun. The onset of IEG expression is followed within a day by enhanced bFGF expression in non-ischemic neurons in the same general regions. The appearance of bFGF is followed within another day by proliferation of blood vessels, macrophages and glial cells around the infarct. The newly-formed blood vessels and macrophages migrate into the necrotic infarct aiming at disposal of the necrotic debris. The gliosis although concentrated around the infarct spreads to involve remote regions of both hemispheres. Based on the spatiotemporal correlation between cell proliferation and bFGF and the known mitogenic properties of bFGF, we believe that this molecule may be responsible for the late response in brain infarct including angiogenesis, gliosis and macrophage proliferation. The physiological roles of IEGs in the chain of adaptive response following brain infarction and its relationship with bFGF are subjects pending future investigations.
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PMID:Correlation between proto-oncogene, fibroblast growth factor and adaptive response in brain infarct. 756 83

Involvement of the IEGs in brain injury and ischemia is under intensive investigation (Gubits et al., 1993). There are several families of the IEGs. They include the fos, jun, and zinc finger genes that encode transcription factors. Products of the fos family (c-fos, fra-1, fra-2, and fos B) bind to members of the jun family (c-jun, jun B, jun D) via leucine zippers, and this dimer then binds to the AP-1 site (consensus sequence -TGACTCA-) in the promoter of target genes, which in turn regulate the expression of late response genes that produce long-term changes in cells. For example, c-fos may regulate the long-term expression of preproenkephalin, nerve growth factor, dynorphin, vasoactive intestinal polypeptide, tyrosine hydroxylase and other genes with AP-1 sites in their promoters (Curran and Morgan, 1987; Sheng and Greenberg, 1990). It is likely that the c-fos gene up-regulation observed in ischemic astrocytes leads to the changes observed in the expressions of hsp and cytoskeleton protein genes in this experimental model. This is supported by the findings of Sarid (1991) and Pennypacker et al. (1994) who have shown that AP-1 DNA binding activity in hippocampus recognized an AP-1 sequence from the promoter region of the GFAP which is a potential target gene. van de Klundert et al. (1992) also suggested the involvement of AP-1 in transcriptional regulation of vimentin. IEGs can be induced within minutes by extracellular stimuli including transmitters, peptides, and growth factors. In this study, we have shown that c-fos induction by ischemia was rapid and transient.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Gene expression in astrocytes during and after ischemia. 756 84

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