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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A brief period of bilateral carotid occlusion (BCO)-induced forebrain
ischemia
in gerbils triggers neuronal degeneration and the subsequent expression of
amyloid precursor protein
(
APP
), b-amyloid protein (b-AP), and apolipoprotein E (APO-E) in the selectively vulnerable CA1 region of the hippocampus. The increase in immunoreactivity is secondary to the postischemic degeneration of the CA1 neurons and is largely astrocyte-derived as evidenced by a simultaneous increase in glial fibrillary acidic protein (GFAP) staining. Oxygen radical-induced lipid peroxidation has been strongly suggested to play a role in postischemic neuronal damage and Alzheimer's disease. Recent literature suggests a possible link between early oxidative stress and
APP
overexpression. Therefore, the present investigation examined the effect of two novel brain-penetrating pyrrolopyrimidine lipid peroxidation inhibitors (PNU-101033E and PNU-104067F) on CA1 neurodegeneration and the subsequent increase in
APP
, b-AP, APO-E, and GFAP immunostaining at 4 days after a 5-minute episode of forebrain
ischemia
. Using an antibody for lipid peroxidation-derived malondialdehyde (MDA)-modified proteins, the authors also examined the effects of PNU-104067F on MDA immunostaining 2 days after
ischemia
, before completion of the neuronal loss. At 2 days, the authors also evaluated microglial activation using an antibody to surface major histocompatibility complex class II antigen expressed by activated microglia. Gerbils were treated at 30 mg/kg orally 30 minutes before the BCO and 2 hours after
ischemia
, followed by daily dosing for the next day (microglia and MDA) and the successive 3 days for
APP
, b-AP, APO-E, and GFAP immunostaining.
APP
and APO-E staining was significantly suppressed by 50% and 66%, respectively, with either compound. b-AP immunoreactivity was decreased 56% with both compounds, and GFAP expression was significantly decreased 53% (PNU-101033E) and 60.5% (PNU-104067F). There was a concomitant partial sparing of the CA1 hippocampal neurons by both PNU-101033E and PNU-104067F (P < .01) as determined by cresyl violet histochemistry. PNU-104067F significantly inhibited lipid peroxidation-derived MDA immunostaining and microglia activation (P < .05) at 48 hours after
ischemia
. Brain-penetrable lipid peroxidation inhibitors may provide attenuation of various glial response proteins after ischemic injury, probably secondary to neuronal protection.
...
PMID:Neuroprotective efficacy and mechanisms of novel pyrrolopyrimidine lipid peroxidation inhibitors in the gerbil forebrain ischemia model. 959 46
The susceptibility of axons to blunt head injury is well established. However, axonal injury following cerebral ischemia has attracted less attention than damage in gray matter. We have employed immunocytochemical methods to assess the vulnerability of axons to cerebral ischemia in vivo. Immunocytochemistry was performed using antibodies to a synaptosomal-associated protein of 25 kDa (SNAP25), which is transported by fast anterograde transport; the 68-kDa neurofilament subunit (NF68kD); and microtubule-associated protein 5 (MAP5) on sections from rats subjected to 30 min and 1, 2, and 4 h of
ischemia
induced by permanent middle cerebral artery (MCA) occlusion. After 4 h of occlusion, there was increased SNAP25 immunoreactivity, which was bulbous in appearance, reminiscent of the axonal swellings that occur following blunt head injury. Increased SNAP25 immunoreactivity was present in circumscribed zones in the subcortical white matter and in the axonal tracts at the border of infarction, a pattern similar to that previously described for
amyloid precursor protein
. Although less marked, similar changes in immunoreactivity in axons were evident following 2 h of
ischemia
. MAP5 and NF68kD had striking changes in immunoreactivity in axonal tracts permeating the caudate nucleus within the MCA territory at 4 h. The appearance was roughened and disorganized compared with the smooth regular staining in axons within the nonischemic areas. Profiles reminiscent of axonal bulbs were evident in MAP5-stained sections. The changes seen with NF68kD and MAP5 were also evident at 2 h but were more subtle at 1 h. There were no changes in axonal immunoreactivity with SNAP25 or NF68kD at 30 min after MCA occlusion. Altered immunoreactivity following
ischemia
using SNAP25, MAP5, and NF68kD provides further evidence for the progressive breakdown of the axonal cytoskeleton following an ischemic insult. NF68kD and MAP5 appear to be sensitive markers of the structural disruption of the cytoskeleton, which precedes the subsequent accumulation of SNAP25 within the damaged axons. Axonal cytoskeletal breakdown and disruption of fast axonal transport, which are well-recognized features of traumatic brain injury, are also sequalae of an ischemic insult.
...
PMID:Axonal injury caused by focal cerebral ischemia in the rat. 962 29
Axonal injury following cerebral ischaemia has attracted less attention than damage in grey matter. However, it is becoming increasingly recognised that axons are highly vulnerable to focal ischaemia [D. Dewar, D.A. Dawson, Changes of cytoskeletal protein immunostaining in myelinated fibre tracts after focal cerebral ischaemia in the rat, Acta. Neuropathol., 93 (1997) 71-77] [2]; [L. Pantoni, J.H. Garcia, J.A. Gutierrez, Cerebral white matter is highly vulnerable to
ischemia
, Stroke, 27 (1996) 1641-1647] [10]; [P. S. Yam, T. Takasago, D. Dewar, D.I. Graham, J. McCulloch, Amyloid precursor protein accumulates in white matter at the margin of a focal ischaemic lesion, Brain Res., 760 (1997) 150-157] [15]. Since white matter does not contain neuronal cell bodies or synapses it is likely that the mechanisms of injury and strategies for its protection are different from those in grey matter. In order that the effect of therapeutic intervention on the protection of axons can be assessed, a method by which axonal injury can be mapped and quantified is required. For this purpose, we investigated immunocytochemical methods using
amyloid precursor protein
(
APP
) following permanent middle cerebral artery occlusion in the rat.
APP
is transported by fast anterograde axonal transport [E.H. Koo, S.S. Sisodia, D.R. Archer, L.J. Martin, A. Weidemann, K. Beyreuther, P. Fischer, C.L. Masters, D.L. Price, Precursor of amyloid protein in
Alzheimer disease
undergoes fast anterograde axonal transport, Proc. Natl. Acad. Sci. U.S.A. 87 (1990) 1561-1565] [7] and has been shown to accumulate following a variety of insults to axons, indicative of dysfunction of axonal transport [R.N. Kalaria, S.U. Bhatti, E.A. Palatinsky, D.H. Pennington, E.R. Shelton, H.W. Chan, G. Perry, W.D. Lust, Accumulation of the beta
amyloid precursor protein
at sites of ischemic injury in rat brain, Neuroreport, 4 (1993) 211-214] [4]; [T. Kawarabayashi, M. Shoji, Y. Harigaya, H. Yamaguchi, S. Hirai, Expression of
APP
in the early stage of brain damage, Brain Res., 563 (1991) 334-338] [5]; [N. Otsuka, M. Tomonaga, K. Ikeda, Rapid appearance of beta-
amyloid precursor protein
immunoreactivity in damaged axons and reactive glial cells in rat brain following needle stab injury, Brain Res., 568 (1991) 335-338] [9]; [K. Shigematsu, P. L. McGeer, Accumulation of
amyloid precursor protein
in neurons after intraventricular injection of colchicine, Am. J. Pathol., 140 (1992) 787-794] [12]. We have been able to map the topographical relationship between
APP
accumulation and region of infarction using immunocytochemistry and image analysis techniques. Additionally, using a semi-quantitative scoring system, we have demonstrated that there is a relationship between the amount of
APP
accumulation and the volume of infarction following middle cerebral artery occlusion. These methods will be useful in the future for the assessment of therapeutic interventions on the protection of axons following ischaemic injury.
...
PMID:Topographical and quantitative assessment of white matter injury following a focal ischaemic lesion in the rat brain. 963 Jul
Ameboid microglia are activated macrophages in the developing brain. With age, these cells undergo gradual transformation into the adult form, known as ramified or resting microglia. In response to neuronal insults, microglia change their morphology and immunophenotype and proliferate to become full-blown brain macrophages. Microglia release a battery of neurotoxic substances. Responses to neuronal damage occur at various intervals after the insult, suggesting that microglia may be an attractive target for pharmacologic intervention. The cerebrospinal fluid (CSF) of Alzheimer disease (AD) patients contains antibodies that recognize activated microglia in the developing rat and in the ischemic gerbil brain. These results suggest that AD shares common mechanisms related to the activation of microglia with both these experimental models. In vitro, the xanthine derivative propentofylline (PPF) depresses the production of reactive oxygen intermediates produced by macrophages. To appreciate in vivo interactions of PPF, two models were employed: developing rats and adult gerbils exposed to
ischemia
. Newborn rats were administered PPF (10 mg/kg) for 7 days. Gerbils were exposed to 5 min of transient forebrain
ischemia
and received PPF (10 mg/kg) 24 h later until the day before sacrifice. Animals were sacrificed at 7 or 14 days after reperfusion. Brains were processed for immunocytochemistry. Reactive microglia were visualized with monoclonal antibodies OX18 and OX42 or AD-CSF microglia antibodies. In the case of
ischemia
, an antibody against the
amyloid precursor protein
(
APP
) (residues 676-695) was included. Newborn rats receiving PPF for 7 days displayed a dramatic reduction in the number of activated microglia compared with untreated littermates. Ischemic control in gerbils showed complete nerve death, accumulations of
APP
, and enhanced microglial reactivity. In gerbils receiving PPF,
APP
accumulation was absent or very slight, and activated microglia were downregulated. The ability of PPF to interfere with activated microglia suggests that this agent may be useful for slowing progressive nerve cell death associated with AD, which is considered to be largely influenced by pathologic glial reactions.
...
PMID:Properties of activated microglia and pharmacologic interference by propentofylline. 976 25
Cerebral ischemia is a risk factor for late onset Alzheimer's disease. Since estrogen replacement therapy benefits the outcome of cerebral stroke in post-menopausal women, we designed the present study to investigate the effects of estrogen on the expression of beta-
amyloid precursor protein
(
APP
) mRNA following focal
ischemia
in female rats. Female rats were ovariectomized (OVX) for two weeks. A single dose of 17 beta-estradiol (E2) (100 microgram/kg) was injected s.c. two hours before a unilateral middle cerebral artery (MCA) occlusion. Brain samples were harvested from ischemic core and penumbra of cortices at one hour and twenty-four hours following MCA occlusion. The expression of
APP
mRNA was assessed by RT-PCR. At one hour after MCA occlusion, OVX rats had a 67.9% (p<0.05) increase in
APP
mRNA in the penumbra. E2 treatment reduced this
APP
mRNA over-expression by 26.3% at that region. At twenty four hours following MCA occlusion, OVX rats had increases in
APP
mRNA of 52.9% and 57.0% (p<0.05) in the core and penumbra, respectively. E2 treatment reduced the
APP
mRNA over-expression by 61.0% and 48.6% (p<0.05) in these two regions, respectively. These effects appeared to reflect an interaction between hormonal environment and
ischemia
, since in the absence of MCA occlusion, there were no significant differences in
APP
mRNA expression among OVX, OVX-E2 treated and intact female rats. The present study demonstrates that estrogen may have an important role in reducing the over-expression of
APP
mRNA following focal
ischemia
.
...
PMID:Estrogen attenuates over-expression of beta-amyloid precursor protein messager RNA in an animal model of focal ischemia. 981 55
Diffuse
amyloid beta-protein
(Abeta) deposits with numerous glial cells containing C-terminal Abeta fragments occur in the cerebral cortex of patients with Alzheimer's disease. By using a panel of antibodies specific for various epitopes in the Abeta peptide, we have investigated the immunohistochemical nature of the diffuse Abeta deposits. The extracellular material contains Abeta with a C-terminus at residue valine40 (Abeta40) as well as residues alanine42/threonine43 (Abeta42). The N-termini include aspartate1, pyroglutamate3, and pyroglutamate11, with pyroglutamate3 being dominant. Microglia and astrocytes in and around these deposits contain intensely staining granules. Most of these granules are negative for antibodies to the N-terminally located sequences of Abeta. These include 6E10 (Abeta1-17), 6F/3D (Abeta8-17), and the N-terminal antibodies specific to aspartate1, pyroglutamate3, and pyroglutamate11. The C-termini of intraglial Abeta are comparable with those of the extracellular deposits. The microglia and astrocytes have quiescent morphology compared with those associated with senile plaques and other lesions such as
ischemia
. Complement activation in these deposits is not prominent and often below the sensitivity of immunohistochemical detection. Although factors which may cause this type of deposit remain unclear, lack of strong tissue responses suggests that these deposits are a very early stage of Abeta deposition. They were found only inconsistently and were absent in a number of cases examined in this study. Further analysis of these deposits might provide important clues regarding the accumulation and clearance of Abeta in Alzheimer's disease brain.
...
PMID:Occurrence of the diffuse amyloid beta-protein (Abeta) deposits with numerous Abeta-containing glial cells in the cerebral cortex of patients with Alzheimer's disease. 1002 15
In the CNS, reactive oxygen species (ROS) have been implicated in a wide range of degenerative processes including amyotrophic lateral sclerosis,
ischemia
-reperfusion injury,
Alzheimer disease
, Parkinson disease and aging. However, the exact mechanism is unknown, and there is little information on possible roles of ROS in cell injury and the process on recovery of astrocytes, the most abundant glial cells in the brain. We examined hydrogen peroxide (H2O2)-induced DNA fragmentation and thymidine incorporation into cultured astrocytes as an indicator of the process of recovery from astrocytic DNA injury. Astrocytes were isolated from cerebral cortices of 0-day-old rats and treated with 1 mM dibutyryl cyclic AMP for 4 days. H2O2 of 100 microM stimulated thymidine incorporation into astrocytes. Caffeine, ryanodine, cyclic ADP-ribose (endogenous ryanodine receptor agonist) and beta-NAD+ (precursor of cyclic ADP-ribose) suppressed partially the stimulatory effect of H2O2. Ruthenium red (ryanodine receptor antagonist) facilitated further the stimulatory effect of H2O2. The facilitated effect of ruthenium red on H2O2-induced thymidine incorporation was suppressed by caffeine, ryanodine, cyclic ADP-ribose and beta-NAD+. H2O2-induced DNA fragmentation and astrocytic death were suppressed by ruthenium red. These findings suggest that the process of recovery from astrocytic DNA injury by H2O2 may be regulated by Ca2+ efflux from ryanodine-sensitive intracellular Ca2+ stores.
...
PMID:[Role of ryanodine receptors in hydrogen peroxide-induced DNA fragmentation and thymidine incorporation in cultured rat astrocytes]. 1019 Jan 45
In addition to producing acute neuronal necrosis within selectively vulnerable brain regions, our recent studies have shown that global cerebral ischemia may also be followed by protracted degenerative changes occurring over the course of 10 weeks. Chronic brain pathology may be associated with the abnormal deposition of beta-
amyloid precursor protein
(betaAPP). In the present study, we used a monoclonal antibody to the N-terminal portion of betaAPP to characterize the brains of rats surviving 1-10 weeks following 10 min of global brain
ischemia
produced by bilateral carotid artery occlusions plus systemic hypotension. After
ischemia
, increased betaAPP immunolabeling emerged in several brain regions. In the hippocampus, granular deposits appeared in the damaged CA1 area by 2 weeks, and by 4-10 weeks the remnants of necrotic CA1 neurons were also immunolabeled. In striatum and thalamus, regions with necrotic cell death also revealed granular betaAPP deposits. The neocortex was devoid of overt ischemic neuronal damage but revealed prominent betaAPP immunoreactivity. Large ovoid deposits of low-density betaAPP immunostaining occurred in cortical neurons at 1-2 weeks. At 4-10 weeks, large round or oval deposits immunoreactive for betaAPP appeared in several cortical regions. The highest density of deposits was seen in the temporal and piriform cortices. Our results indicate that abnormal betaAPP deposition may result from ischemic as well as chronic neurodegenerative processes.
...
PMID:Progressive parenchymal deposition of beta-amyloid precursor protein in rat brain following global cerebral ischemia. 1020 75
Two unilateral hypoxic-
ischemia
(HI) models (moderate and severe) in immature rat brain have been used to investigate the role of various transcription factors and related proteins in delayed neuronal death and survival. The moderate HI model results in an apoptotic-like neuronal death in selectively vulnerable regions of the brain while the more severe HI injury consistently produces widespread necrosis resulting in infarction, with some necrosis resistant cell populations showing evidence of an apoptotic type death. In susceptible regions undergoing an apoptotic-like death there was not only a prolonged induction of the immediate early genes, c-jun, c-fos and nur77, but also of possible target genes
amyloid precursor protein
(APP751) and CPP32. In contrast, increased levels of BDNF, phosphorylated CREB and PGHS-2 were found in cells resistant to the moderate HI insult suggesting that these proteins either alone or in combination may be of importance in the process of neuroprotection. An additional feature of both the moderate and severe brain insults was the rapid activation and/or proliferation of glial cells (microglia and astrocytes) in and around the site of damage. The glial response following HI was associated with an upregulation of both the CCAAT-enhancer binding protein alpha (microglia only) and NFkappaB transcription factors.
...
PMID:Neuronal death and survival in two models of hypoxic-ischemic brain damage. 1020 30
In the present study, we have examined the expression of both presenilins in the rat hippocampus, cortex, striatum, and cerebellum after middle cerebral artery occlusion (MCA-O), an animal model of
ischemia
. The cortex showed the greatest increase in PS mRNA levels (7-10-fold) at 4 and 8 days posttreatment. Presenilin-1 (PS-1) levels in the contralateral cortex were significantly increased 1 day after MCA-O. In comparison, PS mRNA content was only modestly elevated in the hippocampus and striatum at 4 and 8 days after MCA-O (30-100% changes). Other Alzheimer's disease (AD)-related genes,
amyloid precursor protein
and apolipoprotein E, are induced in brain injury suggesting that these AD-related genes may well be components of a brain-injury response. Thus, a breakdown in this response via cerebrovascular disease and/or genetic mutation may contribute to AD pathology.
...
PMID:Induction of presenilins in the rat brain after middle cerebral arterial occlusion. 1037 15
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