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)

After occlusion of the right common carotid artery in the gerbil, we monitored the progression of ischemic damage and postischemic damage and the repair process in the brain immunohistochemically by using tubulin, creatine kinase BB-isoenzyme (CK-BB), and neuron-specific enolase as the neuronal markers and astroprotein, glial fibrillary acidic protein, and CK-BB as the astrocytic markers. The earliest ischemic lesion was detected in the hippocampus and the cerebral cortex after ischemia for 5 minutes as loss of the reaction in the neuropil, nerve cell bodies, and dendrites. The reaction disappeared more promptly in the dendrites than in the nerve cell bodies. The reaction for tubulin was the most sensitive for detection of the neuronal ischemic damage. After an ischemic period of 30 minutes and subsequent reestablishment of cerebral circulation, the immunohistochemical lesions affecting the neuronal structure expanded during the first 3 hours and then slowly afterward for up to 12 hours. Reactive astrocytes were already identified 24 hours after reperfusion. The current investigation demonstrated that early ischemic damage can be clearly visualized by use of the immunohistochemical technique soon after the onset of cerebral ischemia but that considerable heterogeneity exists not only in different anatomic regions but also within the neuronal structure. This technique has potential for further investigation of cerebral ischemia or other pathophysiologic conditions when used in combination with other morphologic, physiologic, or biochemical techniques.
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PMID:Early detection of cerebral ischemic damage and repair process in the gerbil by use of an immunohistochemical technique. 243 12

An 11-year-old boy with slowly progressive gangrene caused by vasculopathy similar to that of neurofibromatosis (NF) type 1 (NF I; von Recklinghausen disease [NFvR]) and a newborn girl with idiopathic gangrene with vascular changes resembling those of NFvR prompted the analysis of all 105 propositi with NF (NF I and NF II) evaluated between January 2, 1982, and December 31, 1986, at the genetics clinic of University of South Florida. They were analyzed for renal hypertension, symptomatic ischemia, and known vascular changes. One additional 27-month-old boy with NFvR was found to have extensive vascular changes with renal hypertension. The vasculopathy indicated asymmetric over/undergrowth of cellular and extracellular components of the vascular wall and implied dysregulation of the paracrine growth mechanism. Immunocytochemical studies of affected vessels were done only in the 11-year-old boy and showed positive neuron-specific enolase, S-100 protein, and glial fibrillary acidic protein (GFAP) reactions indicative of Schwann cell involvement. The vascular changes in children with NFvR are mostly asymptomatic; however hypertension secondary to renal artery stenosis and/or Moya-moya disease have been reported infrequently. Our patients with vasculopathies provoked thoughts in regard to the so-called vascular NF, its place in current NF nomenclature and classification, relationship to fibromuscular dysplasia (FMD), and possible role in infantile gangrene.
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PMID:"Vascular neurofibromatosis" and infantile gangrene. 251 May 17

Neuron-specific enolase concentrations were measured in samples of rat cerebrospinal fluid obtained repeatedly before and after occlusion of the middle cerebral artery. A method for reliable, repeated sampling of cisternal cerebrospinal fluid was developed for this purpose. Occlusion of the middle cerebral artery induced cerebral infarcts of slightly variable size with good correlation to raised neuron-specific enolase concentrations. Sham operation caused only superficial cortical damage at the site of surgery and was followed by an early, slight, and transient increase in neuron-specific enolase concentration. With our technique, the development of cerebral infarcts can be studied in individual rats under experimentally controlled conditions over an extended period of time. Analysis of neuron-specific enolase can be used in trials of drugs for mitigating the effect of ischemia. Information concerning the release of neuron-specific enolase from ischemic cerebral tissue to the cerebrospinal fluid is important because neuron-specific enolase in the cerebrospinal fluid can be determined in patients suffering from cerebrovascular insult.
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PMID:Neuron-specific enolase is a marker of cerebral ischemia and infarct size in rat cerebrospinal fluid. 341 12

This study examined the pattern of protein synthesis in the neocortex, caudate-putamen, and the hippocampus following transient forebrain ischemia in rats. The animal model of temporary ischemia used in this study causes permanent damage to vulnerable neurons with a time course of injury that varies from hours (caudate nucleus) to days (hippocampus). To examine the spectrum of proteins synthesized in these regions at 3 and 18 h after recirculation, cerebral proteins were pulse-labeled in vivo by an intravenous injection of [35S]methionine. Newly synthesized (35S-labeled) and constitutive (unlabeled) proteins were analyzed by two-dimensional gel electrophoresis and fluorography. In all three brain regions, specific proteins underwent preferential synthesis (Mr approximately 27,000, approximately 65,000, approximately 70,000, approximately 110,000), while others showed decreased synthesis (neuron-specific enolase, alpha- and beta-tubulin). There was an early (3 h post ischemia) induction of the Mr approximately 70,000 mammalian "stress" protein; at 18 h post ischemia, its synthesis remained high in the hippocampus but was diminished in the neocortex and had largely subsided in the caudate-putamen. All regions at 18 h showed increased synthesis of an Mr approximately 50,000 protein, tentatively identified as glial fibrillary acidic protein. The results show that temporary forebrain ischemia induces changes in protein synthesis that include features similar to those observed in other eukaryotic cells subjected to injurious stress. These postischemic changes in protein synthesis are qualitatively similar in all brain regions examined despite regional differences in the severity of subsequent neuronal damage. The persistent synthesis of the Mr approximately 70,000 stress protein in the hippocampus, however, may reflect continued metabolic injury long after the ischemic episode has passed.
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PMID:Protein synthesis in postischemic rat brain: a two-dimensional electrophoretic analysis. 379 99

Levels of neuron-specific enolase (NSE) were measured in rat CSF following occlusion of the four major arteries to the brain for 10, 20, or 30 min. In the CSF of rats submitted to 30 min of total ischemia, an up to nine-fold increase of NSE level occurred within the first few hours and then slowly diminished. Significant levels were seen for as long as 8 days. Histological observations 3 days after ischemia showed neuronal loss as well as neuronal damage in several forebrain regions such as hippocampus, striatum, and thalamus. Ischemia was followed by transient decreases in exploration behavior and neurological states that were no longer visible 24 h later. After 10 or 20 min ischemia, NSE levels were increased to a lesser degree and fewer damaged neurons were observed. The positive correlation between duration of ischemia and amount of NSE release in CSF indicates that the measurement of NSE in the CSF is a sensitive and reliable index of neuronal lesions.
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PMID:Experimental brain ischemia: neuron-specific enolase level in cerebrospinal fluid as an index of neuronal damage. 672 46

The mechanisms underlying the response of the brain to ischemia are not fully understood. Biochemical and morphological changes following neocortical infarction can be investigated in rats using a model of focal cerebral ischemia induced by unilateral occlusion of the middle cerebral artery (MCA). Evaluation of ischemic damage often employs conventional histologic stains. Immunocytochemistry can be used as a valuable tool in this model to define changes in specific proteins of interest. In this study, an antiserum raised against insulin-like growth factor II (IGF-II) receptor was used to evaluate changes of IGF-II receptor immunoreactivity in the cerebral cortex of rats 4 and 7 days following permanent MCA occlusion. IGF-II receptor immunoreactivity was found to be associated with neocortical pyramidal neurons within the core of the ischemic infarct itself. The staining intensity was markedly elevated above that observed in nonischemic neurons. Immunopositive neurons exhibited a punctate staining pattern. These neurons appeared to correspond to argentophilic neurons, as defined by modified Bielschowsky silver staining. Evaluation of other neuronal markers revealed the absence of immunoreactivity for neuron-specific enolase and for tyrosine hydroxylase within the ischemic area. These observations show an increase in a specific growth factor receptor within neurons in the ischemic core of a focal infarct several days following permanent focal infarction, a time when neurons are presumed to be dead. The significance and the potential role of IGF-II receptor in lesion-induced plasticity are discussed.
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PMID:Increase in insulin-like growth factor II receptor within ischemic neurons following focal cerebral infarction. 759 34

Neuron-specific enolase (NSE) is a sensitive marker of brain injury after stroke, global ischemia, and coma. We report changes in serum NSE (s-NSE) in 19 patients who sustained status epilepticus. s-NSE peaked within 24 to 48 hours after status epilepticus. The mean peak s-NSE level for the entire group was elevated compared with the levels for normal controls (24.87 ng/ml versus 5.36 ng/ml, p = 0.0001) and for epileptic controls (24.87 ng/ml versus 4.61 ng/ml, p = 0.0001). The mean peak s-NSE level for the 11 subjects without an acute neurologic insult (15.44 ng/ml) was also significantly increased compared with levels for normal and epileptic controls. Further, s-NSE was significantly correlated with outcome and duration. We conclude that s-NSE is a promising in vivo marker of brain injury in status epilepticus and warrants further study in larger populations.
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PMID:Serum neuron-specific enolase in human status epilepticus. 864 98

Neuron-specific enolase (NSE) levels of cerebrospinal fluid (CSF) were measured in 39 patients with ischemic stroke and 15 controls. There was a significant increase of CSF NSE in acute ischemic stroke patients as compared with the controls. The altered CSF NSE levels correlated well with the infarct size in CT scan. The CSF NSE levels were higher in 6-multiinfarct dementia (MID) patients who were diagnosed after 6-month follow-up than those in 22 non-MID patients of this series. Our research supports the view that CSF NSE can be a useful biochemical marker for brain ischemia. The importance of CSF NSE in the study of dementia related to ischemic stroke is worth further studies.
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PMID:Neuron-specific enolase in patients with acute ischemic stroke and related dementia. 779 31

Naturally occurring cell death (NOCD) is a prominent feature of the developing nervous system. During this process, neurons express bcl-2, a major regulator of cell death whose expression may determine whether a neuron dies or survives. To gain insight into the possible role of bcl-2 during NOCD in vivo, we generated lines of transgenic mice in which neurons overexpress the human BCL-2 protein under the control of the neuron-specific enolase (NSE) or phosphoglycerate kinase (PGK) promoters. BCL-2 overexpression reduced neuronal loss during the NOCD period, which led to hypertrophy of the nervous system. For instance, the facial nucleus and the ganglion cell layer of the retina had, respectively, 40% and 50% more neurons than normal. Consistent with this finding, more axons than normal were found in the facial and optic nerves. We also tested whether neurons overexpressing BCL-2 were more resistant to permanent ischemia induced by middle cerebral artery occlusion; in transgenic mice, the volume of the brain infarction was reduced by 50% as compared with wild-type mice. These animals represent an invaluable tool for studying the effects of increased neuronal numbers on brain function as well as the mechanisms that control the survival of neurons during development and adulthood.
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PMID:Overexpression of BCL-2 in transgenic mice protects neurons from naturally occurring cell death and experimental ischemia. 794 26

The present study has examined certain metabolic markers in fetal neocortical tissue transplanted to the cortex, hippocampus, striatum, or ventricle. Particularly, the immunocytochemical expression of neuron-specific enolase (NSE) was studied in a series of host rats ranging between 10 days and 15 months postoperative. NSE is a major glycolytic pathway enzyme found in all neurons. The antibody to NSE is a very reliable marker for neuronal functional metabolic activity and developmental status and its onset has been shown to coincide with synaptic connections. In some grafts oxidative metabolic status was investigated using cytochrome oxidase (CO) histochemistry. In addition, the normal development of NSE expression in rat neocortex was also examined. In normal development, NSE was weakly expressed in fetal brain, but by 1-2 weeks postnatal the enzyme was strongly expressed in all neurons. Typical cortical laminar patterns were evident at 30 days with neurons in layer V and scattered interneurons the most strongly stained. In cortex-cortex transplants NSE expression was very weak; at 1-3 weeks postoperative, it was practically nonexistent; and at all later times only a minority of neurons had normal expression when compared to that in normal development even though by Nissl staining standards in adjacent sections they appeared "normal." Labeling indices ranged between 30 and 49%. Intraventricular grafts had consistently low NSE expression with labeling indices ranging between 18 and 46%. However, when the neocortical tissue was placed in other regions, neuronal NSE appeared only slightly below normal. CO histochemistry corroborated the NSE activity with regards to graft placement. Several possibilities that may account for reduced NSE profile in transplanted neurons include incomplete migration patterns, reduced synaptic connectivity, and potential ischemia causing lowered protein synthesis during reestablishment of vascular connections. If neuronal glycolysis is weakened, it is possible that neurotransmitter production or axonal transport are reduced. Since most energy capacity in brain is dependent on the glycolytic sequence for oxidative metabolism, reduced glycolytic capacity, as depicted by NSE expression, may suggest the presence of transplanted neurons that have adapted to their new environment with a relatively immature profile.
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PMID:Developmental expression of neuron-specific enolase immunoreactivity and cytochrome oxidase activity in neocortical transplants. 828 24


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