Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Apoptotic cells were histochemically demonstrated by the TdT-mediated biotinylated dUTP nick end-labeling (TUNEL) method in formalin-fixed and paraffin-embedded sections of the human endometrium and placental villi. In 53 endometrial biopsy specimens, labeled nuclei were identified in 16 samples showing a desquamating change, associated with menstruation, functional bleeding or adenocarcinoma. Cells in the normal proliferative and secretory phases were unlabeled. The labeled nuclei in the gland and stroma corresponded well to the so-called apoptotic bodies. Placental tissues at various stages of gestation were obtained by spontaneous abortion, intrauterine fetal death or normal delivery. Syncytiotrophoblastic cells in an early gestational stage (7-12 weeks) and in the term placenta were focally labeled, and the labeled cells possessed pyknotic nuclei and densely eosinophilic cytoplasm. In the early gestational chorionic villi with marked hydropic degeneration or in hydatidiform mole, the stromal cells were frequently labeled. Villous cells in coagulation necrosis (infarction) also revealed strong signals. The apoptotic bodies were not recognizable histologically in these labeled villi. The placenta at the 20th to 33rd week of gestation lacked labeling. From a technical point of view, it should be noted that cells in the foci showing ischemia or coagulation necrosis were labeled positively.
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PMID:Apoptotic cells in the human endometrium and placental villi: pitfalls in applying the TUNEL method. 757 70

Focal cerebral ischemia in rats subjected to middle cerebral artery (MCA) occlusion results in apoptotic DNA fragmentation and activation of putative cell death effector genes in neurons and functional impairment of the plexus choroideus. In the present study we investigated whether cerebral ischemia may induce apoptotic cell death in the choroid plexus. Using in situ end-labeling by terminal transferase and fluorescein-dUTP, nuclear DNA breaks were detected in the choroid plexus of the lateral ventricle of the ischemic hemisphere after 6 h but not after 1.5 h of MCA occlusion. Intense cytoplasmic immunostaining for pro-apoptotic Bax protein and moderate immunolabeling for Bcl-X was observed in the epithelium of the choroid plexus of the lateral and third ventricles. However, constitutive expression of Bax and Bcl-X proteins in the plexus choroideus did not change significantly following focal ischemia. Thus, cells of the choroid plexus may die by apoptosis after several hours of cerebral ischemia. Modulation of cell death effector genes of the bcl-2 family however, may not be required for apoptotic cell death to occur.
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PMID:Evidence for apoptotic cell death in the choroid plexus following focal cerebral ischemia. 873 34

Permanent occlusion of the middle cerebral artery in rats was used to assess the effects of focal ischemia on the expression of members of the bcl-2 family which have been implicated in the regulation of programmed cell death. Intraluminal occlusion of one middle cerebral artery for 6 h resulted in histologically detectable brain damage within the ipsilateral caudate putamen, basolateral cortex and parts of the thalamus. In the infarcted basolateral cortex and thalamus fragmentation of DNA was detected in many nuclei using in-situ end-labeling of DNA breaks by terminal transferase, whereas only scattered labeled nuclei were visible in the infarcted caudate putamen. Immunohistochemical analysis revealed activation of c-Fos in the infarcted cortex and thalamus and in the non-infarcted cingulate cortex as has been shown by others. A decrease in immunoreactivity for Bcl-2, and Bcl-X and an increase in immunostaining for Bax was observed exclusively in neurons within the ischemic cortex and thalamus. Within the infarcted caudate putamen, however, protein levels of all bcl-2 family members declined and c-Fos remained absent. By reverse transcription and polymerase chain reaction it was demonstrated that levels of bcl-2 mRNA markedly decreased in the ipsilateral hemisphere, whereas the amount of bax mRNA was elevated. These findings suggest that a shift in the ratio of cell death repressor Bcl-2 to cell death effector Bax and a concomitant activation of c-Fos may contribute to neuronal apoptosis in the infarcted thalamus and cortex.
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PMID:Altered expression of Bcl-2, Bcl-X, Bax, and c-Fos colocalizes with DNA fragmentation and ischemic cell damage following middle cerebral artery occlusion in rats. 887 9

To clarify the development of tubular necrosis and its healing process in ischemic renal failure observing degeneration, necrosis, cell proliferation and the involvement of apoptosis in the renal tubular epithelial cells before and after renal ischemia in rats through morphological examination. Eight week-old male rats were used for this study. The model for acute renal failure was by obstruction of bilateral renal arteries and veins for 45 minutes in several intervals (0 hr, 1 hr, 3 hr, 6 hr, 12 hr, 24hr, 48 hr, 96 hr, 1 week, 2 weeks and 4 weeks) each following reperfusion. Urinary beta 2-microglobulin (BMG) levels were measured to evaluate renal tubular function. In evaluating tubular necrosis and cell proliferation, observations of renal tubular tissue were made serially by use of light microscopy and immunological staining of proliferating cell nuclear antigen (PCNA) and bromodeoxyuridine (BrdU), respectively. The number of nuclei in the proximal tubular epithelium/circumference of the basement membrane (n/BM index) was calculated using a tissue measuring device. Transmission electron microscopy and the TdT-mediated dUTP-biotin nick end labeling (TUNEL) methods were used as indices of apoptosis. Maximal BMG values were obtained 24 hours after ischemia when injury in the proximal tubular epithelium was most prominent. The maximal number of PCNA and BrdU-positive cells were obtained 24 hours after ischemia and thereafter gradually decreased. The n/BM index in the disorder group was significantly increased 96 hours and 1 week after ischemia (p < 0.001). Electron microscopy revealed nuclear fragmentation and apoptosis in the tubular area indicating that there were significant differences. The number of positive cells for in situ nick end labelling increased 24 hours and 2 weeks after ischemia, exhibiting a two peak curve. However, the number of positive cells significantly decreased 4 weeks after ischemia. In the proximal kidney tubules damaged by reperfusion after ischemia, epithelial hyperplasia developed 3 to 6 days after the most active period of S-phase cells was noted. Thereafter, a decreasing number of epithelial cells was observed. It seemed that the decreasing number of these cells had been produced by apoptosis detected 2 weeks after ischemia.
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PMID:[A pathomorphological study on damage and repair process of tubuli after renal ischemia]. 895 3

The time course and localization of DNA fragmentation in a neonatal rat model of unilateral hypoxia-ischemia were assessed by means of the terminal transferase-mediated biotin dUTP nick end labeling (TUNEL) assay. TUNEL-positive cells were detected in the hemisphere ipsilateral to the ligation immediately after the injury and increased to reach a maximum 1-3 days later, then decreasing until day 10, in parallel with cell death identified by standard histological methods. Cells showing any of the different morphologies of chromatin condensation and fragmentation were labeled, particularly within the core of the ischemic lesion. These results, obtained in a paradigm of necrosis in the immature brain, add to previous evidence suggesting that some forms of non-apoptotic DNA fragmentation are labeled by the TUNEL assay.
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PMID:Identification of necrotic cell death by the TUNEL assay in the hypoxic-ischemic neonatal rat brain. 925 49

Using stroke-prone spontaneously hypertensive rats with permanent occlusion of the middle cerebral artery (MCA), we investigated whether the secondary thalamic degeneration following cortical infarction is related to apoptosis, and whether the protein synthesis inhibitor cycloheximide (CHX) ameliorates this degenerative process. TdT-mediated dUTP-biotin nick end labeling (TUNEL staining) revealed a distinct pattern of nuclear staining in many ventroposterior (VP) thalamic nucleus neurons on the lesioned side at 1 week after MCA occlusion. In rats with a single or continuous intraventricular infusion of CHX, starting just after brain ischemia, in the VP thalamic neurons were significantly more numerous than those in the thalamic nucleus of rats with vehicle infusion at 1 week after MCA occlusion. However, at 2 weeks after MCA occlusion, the numbers of VP thalamic neurons were similar in the CHX- and vehicle-treated groups. These findings suggest that the secondary thalamic degeneration following cortical infarction is an event reminiscent of apoptosis and that CHX prevents the secondary thalamic neuronal death transiently.
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PMID:Protein synthesis inhibitor transiently reduces neuronal death in the thalamus of spontaneously hypertensive rats following cortical infarction. 932 31

Transient global or focal ischemia leads to the production of several types of lesions in the DNA backbone including alkali-labile sites, and both single-stranded (ss) and double-stranded (ds) breaks. The ds breaks result in high molecular weight fragments of 10-50 kbp that contain both 3'- and 5'-OH end-groups, suggesting that more than one endonuclease is involved. This lesioning of DNA is followed by the appearance of the damage-response indicator Gadd45 in the ischemic hemisphere following middle cerebral artery occlusion. By 6 h, gadd45 mRNA was shown to increase by semi-quantitative reverse transcriptase - polymerase chain reaction. In situ hybridization histochemistry indicated that these increases in gadd45 mRNA occurred in pyramidal neurons located on the edge of the infarcted cortex. Gadd45 immunostaining yielded similar findings with maximal protein staining detected at 18 h after occlusion. In neurons, in the infarct core with frank DNA fragmentation shown by in situ TdT-mediated dUTP-biotin nick end labeling (TUNEL) at 24 h, the Gadd45 immunostaining was not visible. Taken together, these findings suggest that Gadd45 responds to DNA damage following ischemia as part of a repair response mounted by brain cells attempting to survive the insult.
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PMID:Increases in DNA lesions and the DNA damage indicator Gadd45 following transient cerebral ischemia. 949 61

The relationship between gene responses and cumulative ischemic damage, as induced by two 10 min episodes of unilateral common carotid artery (CCA) occlusion separated by 5 h, was examined by in situ hybridization histochemistry and terminal transferase biotinylated-dUTP nick end labeling (TUNEL) in the gerbil brain. Intense cell death was noticed starting from 5 h after the second ischemic insult, reaching maximum levels in the nucleus caudate-putamen and thalamus at 12-24 h, but in the cortex and hippocampus at 2 days post-ischemia. Although tissue damage developed gradually, the region of progressive infarction could be delineated as an area deficient in gfap mRNA starting from 12 h, more apparent 24 h after repeated ischemic insults. Hsp72 mRNA was strongly increased in the cortex, caudate-putamen, ventrolateral thalamus, CA1-CA4 fields and dentate gyrus in the early stages, i.e., 15 min-5 h post-ischemia. C-jun mRNA was also elevated in these structures except for the CA1 field, where mRNA levels remained low. In the caudate-putamen and thalamus, where DNA fragmentation occurred rapidly, c-jun and hsp72 mRNAs declined to almost basal levels within 12 h after repeated ischemia, whereas in the other structures, c-jun and hsp72 mRNAs decreased in a more delayed fashion by 24-48 h. The close association between the c-jun and hsp72 mRNA decline and the onset of injury may reflect a more general disruption of the transcription process probably as the consequence of secondary metabolic deterioration. The dissociation between c-jun and hsp72 mRNA expression in the CA1 field may indicate severe ischemic injury, surpassing the range of tissue salvage.
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PMID:Expression of c-jun, hsp72 and gfap following repeated unilateral common carotid artery occlusion in gerbils-correlates of delayed ischemic injury. 966 68

In the central nervous system, interleukin (IL)-3 has been shown to exert a trophic action only on septal cholinergic neurons in vitro and in vivo, but a widespread distribution of IL-3 receptor (IL-3R) in the brain does not conform to such a selective central action of the ligand. Moreover, the mechanism(s) underlying the neurotrophic action of IL-3 has not been elucidated, although an erythroleukemic cell line is known to enter apoptosis after IL-3 starvation possibly due to a rapid decrease in Bcl-2 expression. This in vivo study focused on whether IL-3 rescued noncholinergic hippocampal neurons from lethal ischemic damage by modulating the expression of Bcl-xL, a Bcl-2 family protein produced in the mature brain. 7-d IL-3 infusion into the lateral ventricle of gerbils with transient forebrain ischemia prevented significantly hippocampal CA1 neuron death and ischemia-induced learning disability. TUNEL (terminal deoxynucleotidyltransferase-mediated 2'-deoxyuridine 5'-triphosphate-biotin nick end labeling) staining revealed that IL-3 infusion caused a significant reduction in the number of CA1 neurons exhibiting DNA fragmentation 7 d after ischemia. The neuroprotective action of IL-3 appeared to be mediated by a postischemic transient upregulation of the IL-3R alpha subunit in the hippocampal CA1 field where IL-3Ralpha was barely detectable under normal conditions. In situ hybridization histochemistry and immunoblot analysis demonstrated that Bcl-xL mRNA expression, even though upregulated transiently in CA1 pyramidal neurons after ischemia, did not lead to the production of Bcl-xL protein in ischemic gerbils infused with vehicle. However, IL-3 infusion prevented the decrease in Bcl-xL protein expression in the CA1 field of ischemic gerbils. Subsequent in vitro experiments showed that IL-3 induced the expression of Bcl-xL mRNA and protein in cultured neurons with IL-3Ralpha and attenuated neuronal damage caused by a free radical-producing agent FeSO4. These findings suggest that IL-3 prevents delayed neuronal death in the hippocampal CA1 field through a receptor-mediated expression of Bcl-xL protein, which is known to facilitate neuron survival. Since IL-3Ralpha in the hippocampal CA1 region, even though upregulated in response to ischemic insult, is much less intensely expressed than that in the CA3 region tolerant to ischemia, the paucity of IL-3R interacting with the ligand may account for the vulnerability of CA1 neurons to ischemia.
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PMID:Interleukin 3 prevents delayed neuronal death in the hippocampal CA1 field. 970 46

50 eyes of 30 Sprague-Dawley rats were subjected to 60 minutes of pressure-induced ischemia, then fixed for light and electron microscopy with no reperfusion, or reperfusion after 30 minutes, 1, 2 or 4 hours, and 1 or 3 days from the time ocular ischemia was relaxed. The TdT-mediated dUTP-biotin nick end labeling (TUNEL) method revealed apoptotic signs at the inner retina as early as 1 hour after reperfusion. However, the incidence of apoptotic signs with the TUNEL method did not accord with the results of electron microscopic examination. During the time after the reperfusion started, especially after more than 4 hours, apoptotic signs became obvious and extended from the inner to the outer retina. These apoptotic findings could be seen with both the TUNEL method and electron microscopy. By 3 days after the reperfusion, necrotic cells in the ganglion cell layer, and the inner and outer nuclear layer became more prominent than apoptotic cells. These results may provide a baseline for therapeutic strategy and the prognosis of ischemia-reperfusion injury in the retina.
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PMID:[Apoptotic changes after pressure-induced ischemia-reperfusion injury in the rat retina]. 972 Mar 62


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