UMLS:C0038454 - FACTA Search

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During the onset of heat stroke, rabbits displayed hyperthermia (42.8 degrees C), decreased arterial blood pressure, increased intracranial pressure, decreased cerebral perfusion pressure and increased interleukin-1 beta production (in both the hypothalamus and plasma), compared to those of normothermic, control rabbits. In addition, the heat-stroke animals which received an i.v. injection of interleukin 1-receptor antagonist (200 micrograms/kg) had a survival time (interval between onset of heat stroke and death) longer than that of the heat-stroke animals which received control-vehicle solution. The data indicate that interleukin-1 production plays a role in pathogenesis of heat stroke in rabbits.
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PMID:Interleukin-1 beta production during the onset of heat stroke in rabbits. 797 Jan 47

Interleukin (IL)-1 beta-converting enzyme (ICE) cleaves the biologically inactive precursor form of IL-1 beta into mature, bioactive IL-1 beta. Because of the potent effects of IL-1 in blood vessels, we conducted an in situ hybridization study to determine whether ICE mRNA is constitutively expressed in adult rat brain vasculature. Using in situ hybridization histochemistry, we were able to demonstrate that mRNA in blood vessels scattered throughout the brain. In a second set experiments, we found that the genes encoding not only ICE, but also IL-1 alpha, IL-1 beta, IL-1 receptor antagonist (IL-1ra), and the IL-1 type I receptor are expressed in brain vasculature. To our knowledge this is the first report documenting the expression of the genes encoding all of the functional elements of the IL-1 system in the same tissue. Our findings have three pathophysiological implications. First, they indicate a possible site where peripheral IL-1 may act in the brain. The vascular IL-1 system stimulates the production of nitric oxide and prostanoids, which could act as mediators of the effects of peripheral IL-1 in the central nervous system. Additionally, vascular IL-1 is known to activate adhesion molecules; our data that the genes encoding the IL-1 system are expressed in brain vasculature further support the concept that IL-1 is implicated in the pathophysiology of atherosclerosis and stroke. Finally, in the context of previous studies documenting that IL-1ra inhibits the effects of IL-1 on endothelial cells, our findings of endogenous IL-1ra mRNA in brain vasculature indicate that IL-1ra might be an endogenous vascular protective agent.
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PMID:Localization of interleukin-1 beta converting enzyme mRNA in rat brain vasculature: evidence that the genes encoding the interleukin-1 system are constitutively expressed in brain blood vessels. Pathophysiological implications. 864 63

It has been reported that middle cerebral artery occlusion in rats causes overexpression of interleukin-1, and that administration of the interleukin-1 receptor antagonist protein (IL-1ra) reduces ischemic brain injury. The aim of the present study is to determine whether a recombinant adenovirus vector carrying human interleukin-1 receptor antagonist cDNA (Ad.RSVIL-1ra) could be used to overexpress IL-1ra in mouse brain and to evaluate its effect on brain edema formation and infarction after permanent focal ischemia in mice. Ad.RSVIL-1ra, control adenovirus containing the lacZ gene (Ad.RSVlacZ), or saline was injected into the right cerebral ventricle in mice. Brain IL-1ra concentrations were measured 1 to 13 days later. On the fifth day after virus injection, the middle cerebral artery was occluded for 24 h. Brain water content was determined and a histological technique was used to measure the infarction size. Overexpression of human IL-1ra protein in whole brain was confirmed by immunoassay in the Ad.RSVIL-1ra injected mice. It began on the first day, peaked at 5-7 days, and was sustained for 13 days. Brain edema and cerebral infarct volume were significantly reduced following 24 h of permanent middle cerebral artery occlusion in mice transfected with Ad.RSVIL-1ra compared to Ad.RSVlacZ or saline 5 days earlier. These studies demonstrate that adenoviral vectors can be used to deliver genes to small animals such as mice and also suggest the feasibility of gene therapy for stroke and other neurological diseases. Overexpression of human IL-1ra attenuated ischemic brain injury, suggesting that IL-1 may play an important role in cerebral ischemia.
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PMID:Overexpression of interleukin-1 receptor antagonist in the mouse brain reduces ischemic brain injury. 909 4

A rapidly expanding body of data provides support for the hypothesis that pro-inflammatory cytokines including interleukin-1 beta (IL-1 beta), and tumor necrosis factor-alpha (TNF-alpha) are expressed acutely in injured brain and contribute to progressive neuronal damage. Little is known about the pathogenetic role of these cytokines in perinatal brain injury. Recent experimental studies have incorporated two closely related in vivo perinatal rodent brain injury models to evaluate the role(s) of pro-inflammatory cytokines in the progression of neuronal injury: a perinatal stroke model, elicited by unilateral carotid artery ligation and subsequent timed exposure to 8% oxygen in 7-day-old rats, and a model of excitotoxic injury, elicited by stereotactic intra-cerebral injection of the selective excitatory amino acid agonist NMDA. Each of these lesioning methods results in reproducible, quantifiable focal forebrain injury at this developmental stage. Acute brain injury, evoked by cerebral hypoxia-ischemia or excitotoxin lesioning, results in transient marked increases in expression of IL-1 beta, and TNF-alpha mRNA in brain regions susceptible to irreversible injury, and there is evidence that pharmacological antagonism of IL-1 receptors can attenuate injury in both models. Recent studies also suggest that complementary strategies, based on pharmacological antagonism of platelet activating factor and on neutrophil depletion can also limit the extent of irreversible injury. In summary, current data suggest that pro-inflammatory cytokines contribute to the progression of perinatal brain injury, and that these mediators are important targets for neuroprotective interventions in the acute post-injury period.
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PMID:Cytokines and perinatal brain injury. 910 51

Rats, under urethan anesthesia, were exposed to a high ambient temperature (42 degrees C) to induce heatstroke and to assess the hemodynamic changes associated with heatstroke. Compared with normothermic controls, rats with heatstroke showed higher values of colonic temperature, heart rate, and plasma levels of interleukin (IL)-1 but lower values of R wave amplitude, P-R and Q-T intervals, systolic wave amplitude, diastolic and dicrotic wave duration, mean arterial pressure, stroke volume, and cardiac output. Animals injected intravenously with an IL-1-receptor antagonist at the time of heatstroke induction were protected from some of the cardiovascular effects of heatstroke, such as depressed ventricular depolarization, decreased stroke volume, decreased cardiac output, and arterial hypotension. The hemodynamic changes associated with heatstroke could be mimicked by IL-1beta administration. Other cardiovascular parameters such as total peripheral vascular resistance were unaffected by heatstroke induction or IL-1beta treatment. The results indicate that a selective decline in stroke volume or ventricular depolarization resulting from increased plasma levels of IL-1 may be an important mechanism signaling arterial hypotension or circulatory failure in rat heatstroke.
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PMID:Involvement of interleukin-1 receptor mechanisms in development of arterial hypotension in rat heatstroke. 936 78

Less well established alternative neuromodulatory pathways are neuropeptide-mediated axon reflexes of sensory neurons, gut immunotrafficing, gut transmucosal transport of endogenous bacterial toxin, and the direct secretion of immunoregulatory cytokines by the brain. TNF-alpha and IL-1ra enter peripheral blood after their intracerebroventricular (i.c.v.) injection. Closed head injury or stroke increases blood IL-6 and the acute phase response; neuroblastomas immunosuppress by secreting TGF-beta. The IL-6 that appears in the blood after i.c.v. IL-1 in the rat is partly derived by secretion from the brain into the superior sagital sinus (Romero et al.; 1996. Am. J. Physiol. 270: R518) and is not dependent on peripheral sympathetic activation. Central endothelium and choroid plexus are potential sources of sagital sinus IL-6. TNF-alpha, which appears in blood after i.c.v. LPS, but not IL-1 beta, is due largely to toxin leaving the brain compartment and activating peripheral immunoreactive tissues. Antigens and cytokine immunoregulators drain into cervical lymph. Changes in glial milieu induced by intrinsic neuronal activity could by secretion from brain to blood modulate peripheral immunoreactivity.
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PMID:Alternative pathways of neural control of the immune process. 962 58

Myocardial dysfunction due to sepsis is common in patients with multiple organ dysfunction syndrome and is believed to be produced by inflammatory mediators. Some of these mediators may be eliminated by continuous hemofiltration, which is a standard procedure in an ICU for renal replacement therapy. This study was designed to directly compare the effects of ultrafiltrates from patients with sepsis (UFs) with ultrafiltrates from healthy volunteers (UFh) in well-characterized cardiomyocyte culture systems. Isovolemic hemofiltration (filtration rate: 2 L/h, polyamide membrane) was performed during 12 hours in 5 patients with severe sepsis (Elebute Score >20) and simultaneously reduced left ventricular contractility (left ventricular stroke work index [LVSWI] <30 g m/m2) and in 5 healthy volunteers. Inflammatory mediator concentrations (interleukin [IL]-1beta, IL-6, IL-8, tumor necrosis factor [TNF] alpha, C3a, and C5a) were measured in plasma and ultrafiltrate samples taken shortly after the beginning of the hemofiltration procedure. Cell culture experiments were done comparing UFs with UFh by using spontaneously beating or electrically driven neonatal rat cardiomyocyte cultures. UFs contained significantly higher amounts of IL-1, IL-8, and C3a when compared to UFh. Simultaneously, UFs induced a decrease in the contraction frequency of electrically-stimulated cardiomyocytes, whereas UFh had no effect. The cardiotoxic effect could be reversed by the addition of a high concentration (2.4 mM) of Ca++. Hemofiltration did not alter parameters of cardiac performance during 12 hours in patients with sepsis. UFs induced significant cardiotoxic effects in rat cardiomyocytes, whereas UFh showed no cardiotoxicity. Contact of blood with the hemofiltration membrane did not induce activation of cardiotoxic mediators. Significantly higher filtration rates may be required to improve left ventricular contractility in patients with sepsis by hemofiltration.
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PMID:Hemofiltrate from patients with severe sepsis and depressed left ventricular contractility contains cardiotoxic compounds. 1048 94

The proinflammatory cytokines IL-1 alpha, IL-1 beta, IL-6, and TNF-alpha are produced within the CNS, and, similar to the periphery, they have pleotrophic and overlapping functions. We have shown previously that TNF-alpha increases neuronal survival to a toxic influx of calcium mediated through neuronal N-methyl-d -aspartic acid (NMDA) glutamate-gated ion channels. This process, termed excitotoxicity, is a major contributor to neuronal death following ischemia or stroke. Neuroprotection by this cytokine requires both activation of the p55/TNF receptor type I and the release of TNF-alpha from neurons, and it is inhibited by the plant alkaloid nicotine. Here, we report that other inflammatory cytokines (IL-1 alpha, IL-1 beta, and IL-6) are also neuroprotective to excessive NMDA challenge in our system. Neuroprotection provided by IL-1 is distinct from TNF-alpha because it is inhibited by IL-1 receptor antagonist; it is not antagonized by nicotine, but it is inhibited by a neutralizing Ab to nerve growth factor (NGF). Similar to IL-1, IL-6-mediated neuroprotection is also antagonized by pretreatment with IL-1 receptor antagonist and it is not affected by nicotine. However, neutralizing anti-NGF only partially blocks IL-6-mediated protection. These studies support an important role for distinct but overlapping neuroprotective cytokine effects in the CNS.
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PMID:Inflammatory cytokines IL-1 alpha, IL-1 beta, IL-6, and TNF-alpha impart neuroprotection to an excitotoxin through distinct pathways. 1049 Sep 98

The cytokine IL-1 mediates diverse forms of neurodegeneration, but its mechanism of action is unknown. We have demonstrated previously that exogenous and endogenous IL-1 acts specifically in the rat striatum to dramatically enhance ischemic and excitotoxic brain damage and cause extensive cortical injury. Here we tested the hypothesis that this distant effect of IL-1 is mediated through polysynaptic striatal outputs to the cortex via the hypothalamus. We show that IL-1beta injected into the rat striatum with the excitotoxin alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (S-AMPA) caused increased expression of IL-1beta (mRNA and protein) mainly in the cortex where maximum injury occurs. Marked increases in IL-1beta mRNA and protein were also observed in the hypothalamus. S-AMPA, injected alone into the striatum, caused only localized damage, but administration of IL-1beta into either the striatum or the lateral hypothalamus immediately after striatal S-AMPA resulted in widespread cell loss throughout the ipsilateral cortex. Finally we showed that the cortical cell death produced by striatal coinjection of S-AMPA and IL-1beta was significantly reduced by administration of the IL-1 receptor antagonist into the lateral hypothalamus. These data suggest that IL-1beta can act in the hypothalamus to modify cell viability in the cortex. We conclude that IL-1-dependent pathways project from the striatum to the cortex via the hypothalamus and lead to cortical injury, and that these may contribute to a number of human neurological conditions including stroke and head trauma.
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PMID:Cortical cell death induced by IL-1 is mediated via actions in the hypothalamus of the rat. 1077 59

Two relatively well characterised kinase signalling pathways are those involving MAPK/ERK and p38/SAPK2, that are known to be activated in vitro by various factors known to increase following stroke, such as glutamate, IL-1 and TNF. The present study was designed to investigate the activation and cellular distribution of phosphorylated-ERK1/2, -p38 and the transcription factor CREB following focal cerebral ischaemia using phosphospecific antibodies. Up to 24 h following transient MCAO (90 min) and 6 h following permanent MCAO, phospho-ERK1/2 staining was markedly increased within the cytoplasm of neuronal perikarya in 'penumbral-like' regions. In contrast, phospho-p38 immunostaining was markedly increased in cells with astrocyte-like morphology in both 'core' and 'penumbral-like' regions. Phospho-p38 staining was also detected in some neurones within 'penumbral-like' regions up to 24 h following transient MCAO. CREB activation was confined to neurones in 'penumbral-like' regions. Increased phospho-p38 immunoreactivity was detected in astrocyte-like cells present in the subcortical white matter ipsilateral to the occluded MCAO, while phospho-CREB and -ERK1/2 staining was localised to cells with the morphological appearance of oligodendrocytes. This study demonstrates phosphorylation, indicative of activation, of both the MAPK and p38 pathways following transient and permanent MCAO. However, each pathway shows a distinct cellular and spatial distribution within ischaemic tissue. Together these data indicate that neuroprotection offered by agents directed towards the ERK1/2 pathway may act directly through protection of neurones and oligodendrocytes, while those directed towards the p38 pathway kinase signalling pathways may be indirectly via inhibition of cytokines and other mediators involved in the brains response to injury.
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PMID:Differential activation of MAPK/ERK and p38/SAPK in neurones and glia following focal cerebral ischaemia in the rat. 1081 33

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