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)

Transient arrest of the cerebral circulation leads to neuronal cell death in selectively vulnerable regions of the central nervous system. It has recently been shown at the light microscopical level that neuronal necrosis is accompanied by a rapid microglial reaction in ischemia (Gehrmann et al. (1992) J. Cereb. Blood Flow Metab. 12:257-269). In the present study we have examined the postischemic microglial reaction in the dorsal rat hippocampus at the ultrastructural level using immuno-electron microscopy. Global ischemia was produced by 30 min of four-vessel occlusion and the microglial reaction then studied after 8, 24 and 72 h. In sham-operated controls microglial cells were not phagocytic; they were randomly distributed throughout the neuropil and occasionally made contacts with other structures such as dendrites in CA1. Ultrastructural signs of activation were observed from 1 day postlesion onward. Reactive microglial cells were consistently seen to phagocytose degenerating neurons particularly in the CA1 stratum pyramidale and in the CA4 sector. They were sometimes interposed between two morphologically distinct types of CA1 neurons, i.e., "dark" (degenerating) and "pale" (surviving) types of neurons. Phagocytic microglial cells also became positive for major histocompatibility complex (MHC) class II antigens at these locations from 1 day after ischemia onward. Furthermore, activated microglial cells were frequent along degenerating dendrites in the stratum radiatum of CA1. After survival times of up to 72 h microglial cells, but not astrocytes, were occasionally observed to undergo mitosis. In addition to their random distribution across the neuropil, microglial cells were frequently observed in a perivascular position under normal conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The microglial reaction in the rat hippocampus following global ischemia: immuno-electron microscopy. 147 69

Transient arrest of the cerebral blood circulation results in neuronal cell death in selectively vulnerable regions of the rat brain. To elucidate further the involvement of glial cells in this pathology, we have studied the temporal and spatial distribution pattern of activated microglial cells in several regions of the ischemic rat brain. Transient global ischemia was produced in rats by 30 min of a four-vessel occlusion. Survival times were 1, 3, and 7 days after the ischemic injury. The microglial reaction was studied immunocytochemically using several monoclonal antibodies, e.g., against CR3 complement receptor and major histocompatibility complex (MHC) antigens. Two recently produced monoclonal antibodies against rat microglial cells, designated MUC 101 and 102, were also used to identify microglial cells. Following ischemia, the microglial reaction was correlated with the development of neuronal damage. The earliest presence of activated microglial cells was observed in the dorsolateral striatum, the CA1 area, and the dentate hilus of the dorsal hippocampus. However, the microglial reaction was not confined to areas showing selective neuronal damage, but also occurred in regions that are rather resistant to ischemia, such as the CA3 area. Particularly in the frontoparietal cortex, the appearance of MHC class II-positive microglial cells provided an early indication of the subsequent distribution pattern of neuronal damage. The microglial reaction would thus seem to be an early, sensitive, and reliable marker for the occurrence of neuronal damage in ischemia.
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PMID:Immunocytochemical study of an early microglial activation in ischemia. 154 98

We show a differential up-regulation of immunomolecules in the rat dorsal hippocampus accompanying neuronal cell death as a consequence of transient forebrain ischemia (four-vessel occlusion model). Using a panel of monoclonal antibodies (mAbs), we have examined the time course of expression of major histocompatibility complex (MHC) antigens class I (OX-18) and class II (OX-6), leukocyte common antigen (OX-1), CD4 (W3/25) and CD8 (OX-8) antigens, CR3 complement receptor (OX-42), as well as brain macrophage antigen (ED2). The study was performed at time intervals ranging from 1 to 28 days after reperfusion. Throughout all post-ischemic time periods, strongly enhanced immunoreactivity on microglial cells in the CA1 region and dentate hilus and, to a lesser extent, in CA3 was demonstrated with mAb OX-42. MHC class I-positive cells (OX-18) appeared on day 2, whereas cells immunoreactive with OX-1 and W3/25 became evident in the CA1 and hilar regions on post-ischemic day 6. In contrast, MHC class II (Ia) antigen was first detected on indigenous microglia by day 13. In some animals, the OX-8 antibody resulted in the labelling of scattered CD8-positive lymphocytes, but perivascular inflammatory infiltrates were absent. No changes in the expression of ED2 immunoreactivity on perivascular cells could be observed. The results show that following ischemic injury, microglial cells demonstrate a time-dependent up-regulation and de novo expression of certain immunomolecules, indicative of their immunocompetence. The findings are compared with those obtained in other models of brain injury.
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PMID:Progressive expression of immunomolecules on microglial cells in rat dorsal hippocampus following transient forebrain ischemia. 155 47

In many studies of renal transplant recipients, acute tubular necrosis has been shown to predispose to a higher rate of graft loss, apparently due to rejection, but the mechanism of this effect is unknown. One possibility is an increased immunogenicity of the graft. To study this possibility, we examined the expression of major histocompatibility complex antigens in kidneys damaged by ischemia, using a mouse model of ischemic ATN. ATN was produced in the left kidney of male CBA mice by temporary clamping of the vascular pedicle for up to 60 min. Class I and II MHC expression was quantified by the extent of binding of monoclonals in radioimmunoassay, after 1 to 35 days in both kidneys. MHC induction was localized by indirect immunoperoxidase staining. Specific steady state mRNA for beta 2 microglobulin and class II were quantified by northern blotting using 32P-labeled probes. Changes in MHC expression were assessed by comparing the ischemically injured left kidney to the control right kidney. By day 1, ATN was evident by histology but there was no change in MHC expression. By day 3, class I was increased in the left kidney by 3-6-fold over the right. In tissue sections, the class I increase was localized to tubular epithelial cells. Starting on day 7 and persisting to day 35, class II was increased by 1.5 to 3 times for the ischemic kidney over the control, primarily in interstitial cells but also in tubular cells. This increase in class II was associated with the appearance of Thy 1.2-positive cells in the interstitial areas. Increased antigen expression was preceded by increased steady state mRNA. Thus unilateral ischemic ATN causes increased MHC expression in tubular cells and the accumulation of an inflammatory infiltrate, both of which may contribute to the increased rate of rejection and graft loss in ischemically injured kidneys.
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PMID:Increased major histocompatibility complex antigen expression in unilateral ischemic acute tubular necrosis in the mouse. 210 46

Immunoreactive class 1 and class 2 major histocompatibility complex gene products (MHCP) and beta 2 microglobulin (beta 2 MG) were demonstrated by microscopic immunocytochemistry in cryostat sections of skeletal muscle biopsies of 67 patients with various neuromuscular diseases. Diagnoses included normal muscle, chronic partial denervation, Duchenne dystrophy, polymyositis, dermatomyositis, inclusion body myositis, and miscellaneous neuromuscular diseases. Normal mature muscle fibers did not express MHCP, but blood vessels showed both class 1 and 2 MHCP and beta 2 MG. Regenerating muscle fibers showed consistent sarcolemmal class 1 MHCP expression irrespective of the disease. In polymyositis, the majority of extrafusal muscle fibers of most patients showed strong sarcolemmal class 1 MHCP expression. In dermatomyositis, muscle fibers situated either in perifascicular or in randomly clustered distribution revealed strong class 1 MHCP reactivity. In inclusion body myositis, scattered small clusters of muscle fibers were positive for class 1 MHCP. In polymyositis and inclusion body myositis, particularly strong class 1 MHCP expression was invariably seen in nonnecrotic muscle fibers partially invaded by lymphocytes whose cytotoxic effects are believed to be class 1 MHCP restricted. Factors or agents that trigger class 1 MHCP expression are presumed also to sensitize lymphocytes to muscle fibers in these diseases, but their identity remains obscure at this time. In dermatomyositis, the expression of MHCP in perifascicular muscle fibers and in areas of capillary loss may represent the triggering of MHCP expression by a nonspecific cellular stress reaction, in this case probably low-grade ischemia.
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PMID:Expression of immunoreactive major histocompatibility complex products in human skeletal muscles. 327 73

We assessed the structural and functional evolution of small intestinal transplant rejection in a rat model by use of 1-micron section, electron microscopic, and in vitro electrophysiologic techniques to study jejunal mucosa 3, 6, and 9 d posttransplantation. The earliest structural abnormalities detected in jejunal loops transplanted from Lewis X Brown Norway F1 hybrids into Lewis rats occurred within 3 d posttransplantation and consisted of focal endothelial cell injury of the microvasculature and focal injury of crypt epithelial cells. Both alterations were associated with adjacent infiltration of large lymphoid cells, and both markedly progressed and became rather diffuse over the following 6 d. In contrast, villus absorptive cells were not markedly altered in structure until the 9th postoperative day. As compared with host jejuna, allograft jejunal epithelium demonstrated multiple functional abnormalities. Transepithelial resistance declined progressively by days 6 and 9 (both P less than 0.05), although baseline transepithelial spontaneous potential difference was only affected at day 9 (P less than 0.01). Stimulated absorption by allograft jejuna, as assessed by measuring electrical response to mucosal glucose, was not significantly diminished until day 9 (P less than 0.05). In contrast, stimulated secretion assessed by measurement of electrical response to serosal theophylline was diminished by day 6 (P less than .01). These data suggest that the earliest epithelial injury during rejection, as judged both structurally and functionally, occurs in the crypt and is paralleled by endothelial injury at the level of the microvasculature. Thus, the primary targets for rejection are most likely endothelial cells and crypt epithelial cells. In contrast, structural and functional impairment of villus epithelium is detectable only at substantially later times during rejection and are most likely secondary processes related to either ischemia produced by microvascular injury or decreased epithelial regenerative ability secondary to crypt injury. Last, we show that the detrimental structural and functional sequellae of jejunal transplantation across the major histocompatibility complex in this model is strikingly ameliorated with cyclosporine therapy.
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PMID:Structural and functional evolution of jejunal allograft rejection in rats and the ameliorating effects of cyclosporine therapy. 397 15

The impact of cold storage of cardiac allografts on expression of major histocompatibility complex antigens and vascular adhesion molecules is not known. We obtained serial endomyocardial biopsy specimens at harvest, on implantation, and approximately 15 minutes after reperfusion from six consecutive human cardiac allografts stored in University of Wisconsin solution. Cold ischemia time was 187 +/- 45 minutes. A fourth endomyocardial biopsy specimen was obtained from the recipients of cardiac allografts 1 week after operation. Expression of major histocompatibility complex antigens and vascular adhesion molecules was studied by immunohistochemistry. The intensity was scored blindly by a semiquantitative method. On vascular endothelial cells, the expression of major histocompatibility complex class I and II antigens was strong; ICAM-1 expression was moderate, and expression of VCAM-1 and ELAM-1 was weak to absent. The expression of these antigens on vascular endothelial cells did not change in sequential biopsy specimens. The expression of major histocompatibility complex class I antigens on myocardial cells was weak and remained unchanged. Myocardial cells did not express major histocompatibility complex class II antigens, ICAM-1, VCAM-1, or ELAM-1 on serial examinations. During cold storage of cardiac allografts in University of Wisconsin solution, the expression of major histocompatibility complex antigens and vascular adhesion molecules on endothelial cells and myocardial cells remains unchanged.
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PMID:Expression of major histocompatibility antigens and vascular adhesion molecules on human cardiac allografts preserved in University of Wisconsin solution. 750 49

Reperfusion after ischemia results in endothelial cell injury and Kupffer cell activation. Inflammatory cytokines thus released can induce major histocompatibility complex antigens and increase the immunogenecity of the graft. An orthotopic rat liver allotransplant model was used to test the hypothesis that prevention of reperfusion injury by infusion of polyethylene glycol superoxide dismutase (PEG-SOD) would result in long-term allograft survival in the presence of subthreshold immunosuppressive dosages. ACI rats were used as donors, and Lewis strain rats as recipients. Orthotopic liver transplantation was initially performed to identify a subthreshold dose of the immunosuppressant FK-506, which would be unable to extend survival longer than control untreated rats with this strain combination. After testing three intramuscular FK-506 doses of 0.04, 0.08, and 0.16 mg/kg, it was observed that an FK-506 dose of 0.04 mg/kg/day for 14 days was unable to extend survival longer than in untreated recipients. This dose of FK-506 was used in combination with PEG-SOD at doses of 1000, 3000, 10,000, or 30,000 units. Recipient animals were treated intravenously with PEG-SOD as a loading dose to facilitate tissue penetration on day 1, and beginning on the day of transplantation, every 2 days for the duration of the study. Results of histologic studies and mean survival time were compared in untreated recipients and in rats treated with PEG-SOD plus 0.04 mg/kg/day FK-506.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduction of FK-506 requirements by combination with polyethylene glycol superoxide dismutase in orthotopic rat liver transplantation. 754 Oct 60

The inflammatory response following hypoxic-ischemia (HI) in the neonate is largely unknown. Presently, the expression of microglial antigens and the beta-amyloid precursor protein (APP) were studied in relation to a dendrosomatic marker of neuronal injury (microtubule associated protein II; MAP II). HI was induced in 7-day-old rats by the combined unilateral carotid ligation and hypoxia. The pups (n = 23) were perfusion fixed 2-3 h, 24 h, 2-4 days and 14 days after HI and compared to sham-operated controls (n = 6). Antibodies were used for detection of the major histocompatibility complex II (OX-6), major histocompatibility complex I (OX-18) and complement receptor type 3 (OX-42), APP (APP 676-695) and MAP II (monoclonal MAP II) antigens. There was a transient APP expression 2-3 h after HI. A slight increase of microglial antigens (OX-18) was seen in the white matter 2 h after HI followed by a marked increase of OX-18, OX-6, OX-42 antigens 24 h-3-4 days in most injured regions with exception of the thalamus where a delayed (14 days) microglial response was seen. The latter event was parallelled by a delayed loss of MAP II. In conclusion, intense microglial expression occurs after neonatal HI either with an acute or delayed time-course depending on brain region.
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PMID:Microglia activation after neonatal hypoxic-ischemia. 774 44

By taking advantage of the specific neuronal and connective organization of the hippocampus and the different susceptibility of hippocampal neurons to transient cerebral ischemia or intraventricular injections of kainic acid (KA), we examined the microglial reactions to different types of neuronal injury. In all areas with neuronal or axonal degeneration, the microglial cells reacted by specific degeneration-related morphological transformations and expression of class I major histocompatibility complex (MHC) antigen. Subpopulations of microglial cells also expressed class II MHC antigen and leukocyte common antigen (LCA) in relation to (1) degenerating nerve cell bodies in the dentate hilus and the CA1 and CA3 pyramidal cell layers, (2) postischemic degeneration of dendrites in the stratum radiatum of CA1, and (3) combined dendritic and axonal degeneration in the stratum radiatum of the KA-lesioned CA3. MHC II and LCA expression was not observed in relation to degeneration of the CA3-derived Schaffer collaterals in CA1 after KA-induced CA3 lesions. In the case of ischemia the degeneration-related reactions were preceded by an early, generalized microglial reaction, which also included areas without subsequent signs of neural degeneration. This reaction, which was transient and characterized by subtle morphological changes and induction of class I MHC antigen only, was presumably triggered by a general postischemic perturbation of the cerebral microenvironment, and not by actual neural degeneration. In conclusion, we found that microglial expression of class I MHC antigen was a sensitive marker of both the general perturbation after ischemia and axonal degeneration distant from the areas of actual nerve cell death.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Microglial MHC antigen expression after ischemic and kainic acid lesions of the adult rat hippocampus. 842 61

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