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 dentate gyrus is one of the few areas of the mammalian brain where new neurons are continuously produced in adulthood. Certain insults such as epileptic seizures and ischemia are known to enhance the rate of neuronal production. We analyzed this phenomenon using the temporary occlusion of the two carotid arteries combined with arterial hypotension as a method to induce ischemia in rats. We measured the rate of cell production and their state of differentiation with a mitotic indicator, bromodeoxyuridine (BrdU), in combination with the immunohistochemical detection of neuronal markers. One week after the ischemic episode, the cell production in dentate gyrus was increased two- to threefold more than the basal level seen in control animals. Two weeks after ischemia, over 60% of these cells became young neurons as determined by colabeling with BrdU and a cytoplasmic protein (CRMP-4) involved in axonal guidance during development. Five weeks after the ischemia, over 60% of new neurons expressed calbindin, a calcium-binding protein normally expressed in mature granule neurons. In addition to more cells being generated, a greater proportion of all new cells remained in the differentiated but not fully mature state during the 2- to 5-week period after ischemia. The maturation rate of neurons as determined by the calbindin labeling and by the rate of migration from a proliferative zone into the granule cell layer was not changed when examined 5 weeks after ischemia. The results support the hypothesis that survival of dentate gyrus after ischemia is linked with enhanced neurogenesis. Additional physiological stimulation after ischemia may be exploited to stimulate maturation of new neurons and to offer new therapeutic strategies for promoting recovery of neuronal circuitry in the injured brain.
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PMID:Enhanced neurogenesis after transient global ischemia in the dentate gyrus of the rat. 1124 73

Calbindin D(28K) (CB) expression was analyzed in the rat hippocampus following 10-min-cardiac arrest-induced ischemia within a year after reperfusion. In rats examined 3 days after ischemia, CB immunoreactivity disappeared completely from CA1 pyramidal neurons and from most CA2 pyramids. In the stratum granulosum of the dentate gyrus, mossy fibers, and hippocampal interneurons, CB immunoreactivity was preserved, although staining was somewhat paler than that in control rats. A similar pattern of CB immunoreactivity was found in rats sacrificed 14 days and 1 month after cardiac arrest. From the 14th postischemic day, neuronal loss in the stratum pyramidale of CA1 but not in that of CA2 became apparent. The reappearance of CB immunoreactivity in CA1 and CA2 pyramidal neurons was noticed 6 months after ischemia, and the pattern was identical to that observed in animals sacrificed 12 months after the ictus. The prolonged loss and delayed reappearance of CB immunoreactivity in the hippocampus demonstrate that ischemia may induce long-term disturbances of protein expression, which may in turn result in impairment of hippocampal functioning.
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PMID:Long-term changes in calbindin D(28K) immunoreactivity in the rat hippocampus after cardiac arrest. 1187 64

Following 5 or 10 min of global ischemia in the adult gerbil there is a tenfold increase in the birth of new cells in the subgranular zone of dentate gyrus of the hippocampus as assessed using BrdU incorporation. This begins at 7 days, peaks at 11 days, and decreases thereafter. Over the next month approximately 25% of the newborn cells disappear. Of the remaining cells, 60% migrate into the granule cell layer where two-thirds become NeuN, calbindin and MAP-2 immunostained neurons. The remaining 40% of the cells migrate into the dentate hilus where 25% of these become GFAP labeled astrocytes. It is proposed that ischemia-induced neurogenesis contributes to the recovery of function, and specifically may serve to improve anterograde and retrograde recent memory function that is lost following global ischemia in animals and man.
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PMID:Neurogenesis following brain ischemia. 1194 34

The study aimed to elucidate the effects of cortical ischemia and postischemic environmental enrichment on hippocampal cell genesis. A cortical infarct was induced by a permanent ligation of the middle cerebral artery distal to the striatal branches in 6-month-old spontaneously hypertensive rats. Bromodeoxyuridine (BrdU) was administered as 7 consecutive daily injections starting 24 hours after surgery and animals were housed in standard or enriched environment. Four weeks after completed BrdU administration, BrdU incorporation and its co-localization with the neuronal markers NeuN and calbindin D28k, and the astrocytic marker glial fibrillary acidic protein in the granular cell layer and subgranular zone of the hippocampal dentate gyrus were determined with immunohistochemistry and were quantified stereologically. Compared with sham-operated rats, rats with cortical infarcts had a five-to sixfold ipsilateral increase in BrdU-labeled cells. About 80% of the new cells were neurons. Differential postischemic housing did not influence significantly the total number of surviving BrdU-labeled cells or newborn neurons. However, postischemic environmental enrichment increased the ipsilateral generation of astrocytes normalizing the astrocyte-to-neuron ratio, which was significantly reduced in rats housed in standard environment postischemically.
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PMID:Effects of cortical ischemia and postischemic environmental enrichment on hippocampal cell genesis and differentiation in the adult rat. 1214 70

Recent studies have demonstrated that antibodies against the calcium-binding proteins (CaBPs) parvalbumin (PV), calbindin (CB), and calretinin (CR) are appropriate tools for demonstrating transient features and developmental changes of human fetal brain organization as well as for detecting specific alterations in pathologically altered specimens. CB and CR are abundantly expressed in various nerve cell types of the subplate in the second half of gestation. The subplate being an outstandingly wide zone subjacent to the cortical plate, it is a "waiting compartment" for various cortical afferents that reside here prior to entering the cortical plate. The cortical plate (future layers II-VI of the cerebral cortex) contains only CR-ir neurons until the 6th gestational month. In the 7th and 8th month, cortical CB- and PV-ir interneurons are observed in deeper portions of the cortical plate. Cajal-Retzius cells of layer I are CR-immunolabeled from the 4th month onwards. Fetal hydrocephalus causes severe alterations of CB- and PV-ir neurons in the subplate and the cortical plate: shrinkage of ir neurons, loss of process labeling and in most severe cases, entire loss of immunolabeling. Such alterations, which cannot be detected in Nissl-stained sections, indicate distinct impairment of neuronal function. The ganglionic eminence being a prominent part of the telencephalic proliferative zone persists nearly throughout the entire fetal period. Between 16 and 24 weeks of gestation, CR-ir cells are found in the center and, in a higher number, in the periphery, i.e., the mantle zone, of the ganglionic eminence. The mantle zone also exhibits CB-ir cells. These observations support experimental data showing that CR-ir precursor cells leave the ganglionic eminence to migrate towards the cerebral cortex. The CR- and CB-ir neurons of the mantle zone most probably represent an intermediate target for outgrowing axons. This notion is supported by the observation that SNAP (synaptosomal associated protein) 25-ir fibers coming from the intermediate zone terminate upon CR-ir cells in the mantle zone. Within the amygdaloid complex, immature, migrating CR- or CB-ir neurons are observed in the 5th and 6th gestational month. In the 8th and 9th month, anti-CR and anti-CB mark different subsets of interneurons as well as a small proportion of pyramidal projection neurons. The different subsets of interneurons are likely to be functionally different with regard to their connectivities. Considering studies in the literature, it is obvious that CR is transiently expressed in pyramidal cells. Moreover, diffuse (neuropil) CB and CR immunolabeling, which is found in different intensities in the various amygdaloid subdivisions, displays distinct redistribution during development, an observation indicating reorganization of afferent inputs. The sequential arrival of various afferent fiber systems in the two compartments of the striatum (patch and matrix compartment) is reflected by changing patterns of diffuse CB immunolabeling: During the second half of gestation, the patches are labeled and postnatally a changeover to matrix labeling is seen. The thalamic reticular complex reveals prominent transient features seen in PV and CR immunopreparations. Four subdivisions become obvious: the main portion, the perireticular nucleus, the medial subnucleus, and the pregeniculate nucleus. The PV- and CR-ir perireticular nucleus, not visible in the mature brain, is a distinct fetal entity located within the internal capsule. The main portion of the reticular complex is much more prominent in the fetus than in the adult and displays transitory CR expression. The most probable developmental role of the reticular complex is to provide guiding cues for outgrowing axons from or into the dorsal thalamus. The basal nucleus of Meynert and the hypothalamic tuberomamillary nucleus both provide extrathalamic projections to the cerebral cortex. The sequential differentiation of the two nuclei can be demonstrated using anti-CB and anti-PV. The basal nucleus strongly expresses CB and appears to be mature distinctly earlier than the PV-ir tuberomamillary nucleus. Antisera against CaBPs clearly demonstrate that the magnocellular part of the red nucleus located in the mesencephalic tegmentum is outstanding in the fetal and perinatal brain and inconspicuous in the adult. In particular, CB is the most abundant CaBP in this portion of the red nucleus. The dominance of the magnocellular part over the parvocellular part may be a substrate for a specific transitory pattern of motor behavior. On the whole, CaBPs mark the transient architectonic organization of the brain, which is involved in the establishment of transitory neuronal circuitries. The latter are essential for the formation of mature projections. Detailed data on the normal organization of the transient structures are required for the evaluation of alterations occurring in the fetal and perinatal brain. The transient structures are sites of predilection for alteration caused by hypoxia-ischemia, hemorrhage, or hydrocephalus.
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PMID:Calcium-binding proteins in the human developing brain. 1223 93

In vivo electrophysiological recordings of CA1/CA2 pyramidal cells were performed 10-12 months after global forebrain ischemia (four-vessel occlusion, 15 mm) and were compared to levels of calbindin expression. Ischemic animals were subdivided in non-sclerotic ischemic (NSI) and sclerotic ischemic (SI) groups depending on the absence or presence of hippocampal sclerosis. A decreased excitability was observed in neurons from both groups, as shown by significant prolongation of inter-spike intervals (ISI) of evoked action potentials and by increased amplitude of fast after-hyperpolarization (fAHP). The ratio of calbindin-positive CA1/CA2 pyramidal cells decreased from 59% in control to 33% and 8% in NSI and SI animals, respectively. These results suggest that decreased excitability of CA1/CA2 pyramidal cells represents a protective mechanism against ischemia-induced neurodegeneration and might be related to decreased calbindin expression.
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PMID:Increased inter-spike intervals and fast after-hyperpolarization of action potentials in rat hippocampal pyramidal cells accompanied with altered calbindin immunoreactivity 10-12 months after global forebrain ischemia. 1236 51

We investigated spatial and temporal alterations of calbindin D-28k (CB) immunoreactivity in the gerbil main olfactory bulb after transient ischemia-reperfusion. In sham-operated animals, CB-immunoreactive (IR) neurons were found in the periglomerular layer, external plexiform layer and granule cell layer. At 1-4 days after ischemic insult, the number of CB-IR neurons significantly increased. This result suggests that the increased CB may buffer the intracellular calcium at an early time point after the ischemic insult. In contrast, 10-30 days after the ischemic insult, the number of CB-IR neurons significantly decreased as compared to sham-operated animals. This result suggests that a malfunction in olfactory process may have occurred in the olfactory bulb at a later time point after the ischemic insult.
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PMID:Chronological alterations of calbindin D-28k immunoreactivity in the gerbil main olfactory bulb after ischemic insult. 1270 42

We examined ischemia-related changes of calbindin D-28k (CB) immunoreactivity in L(7) of the spinal ventral horn after transient spinal cord ischemia in rabbits. In the sham-operated group, CB immunoreactivity was not present in the spinal ventral horn, but CB immunoreactivity was detectable in the dorsal horn. CB immunoreactivity was detectable in the ventral horn at 30 min after ischemia: the CB immunoreactivity was found in glial cells identified as astrocytes. At 1 h after ischemia, CB immunoreactivity was highest and present at a few somata located in the lamina VII as well as many glial cells. CB immunoreactivity was lower in the lamina VII at 3 h after ischemia compared to 1 h post-ischemic group. By 2 days after ischemia, CB immunoreactivity was decreased in this region. In addition, the result of Western blot result showed the pattern of CB expression similar to that of immunohistochemistry. In conclusion, the ischemia-related changes of CB immunoreactivity in neurons and glial cells in the ischemic spinal ventral horn in rabbits may be related to modulation of intracellular calcium following transient ischemia.
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PMID:Expression and changes of calbindin D-28k immunoreactivity in the ventral horn after transient spinal cord ischemia in rabbits. 1545 Jun 85

Much evidence has been accumulated that the increased expression of calbindin D-28k (CB) is involved in the blockade of calcium-evoked excitotoxicity in cerebral ischemia. We investigated the expression of CB in the basal lamina of microvessels in the ventral horn of the rabbit spinal cord after transient spinal cord ischemia. Spinal cord sections at the level of L7 were immunostained using monoclonal antibody raised against CB at light and electron microscopic levels. CB immunoreactivity was detected in the basal lamina of microvessels at 30 min after ischemic insult. By 3 h after ischemia, CB immunoreactivity was increased in the basal lamina of the microvessels. CB immunoreactivity began to decrease at 6 h after ischemia and nearly disappeared at 48 h after ischemic insult. For calcium detection in the blood vessels of spinal cord, we conducted an alizarin red staining. Alizarin red reactivity was detected in some microvessels at 3 h after ischemic insult. Our results suggest that the ectopic expression of CB in the microvascular basal laminae may be associated with the buffering of calcium in the endothelial cells of microvessels after ischemic damage.
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PMID:Calbindin D-28k is expressed in the microvascular basal lamina in the ventral horn at early time after transient spinal cord ischemia in the rabbit. 1588 64

Calcium-binding proteins are thought to play important roles in calcium buffering. The present study investigated the effects of ischemia and reperfusion on calbindin D28K, calretinin, and parvalbumin immunoreactivity in the ganglion cell layer of the rabbit. Rabbits were administered ischemic damage by increasing the intraocular pressure. After 60 and 90 min of ischemia, reperfusion (7 d) was allowed to occur. The b-wave of the electroretinogram (ERG) was reduced by more than 50% and almost 80% in retina given ischemia for 60 and 90 min, respectively. The oscillatory potential (OPs) wave was reduced approximately 50% at 60 min ischemia and 70% at 90 min ischemia. In both normal and ischemic-treated retina, calcium-binding protein immunoreactivity was seen in many cells in the ganglion cell layer. In eyes subjected to 60 min ischemia, there was a decrease of the density of calbindin D28K- (8.29%), calretinin- (14.44%), and parvalbumin- (26.83%) immunoreactive (IR) cells compared to the control retina. In eyes subjected to 90 min ischemia, there was a higher decrease of the density of calbindin D28K- (18.48%), calretinin- (33.59%), and parvalbumin- (54.26%) IR cells than at 60 min. Some calcium-binding protein-IR neurons, especially calretinin-IR neurons, showed aggregations that were abnormally packed together in retina subjected to ischemia for 90 min. The results show that calbindin D28K-, calretinin-, and parvalbumin-IR cells in the ganglion cell layer are susceptible to ischemic damage and reperfusion. The degree of reduction varied among different calcium-binding proteins and ischemic damage times. These results suggest that calbindin D28K-containing neurons are less susceptible to ischemic damage than calretinin- and parvalbumin-containing neurons in the ganglion cell layer of rabbit retina.
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PMID:Alterations in the localization of calbindin D28K-, calretinin-, and parvalbumin-immunoreactive neurons of rabbit retinal ganglion cell layer from ischemia and reperfusion. 1599 55

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