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)

Microglia cells are present in the central nervous system and respond quickly to pathogenic stimuli in order to protect the brain. When these immunological responses activate inappropriately or are prolonged, they can contribute to the neuronal damage observed in many neurodegenerative diseases. A variety of immune system modulators including complement proteins, inflammatory cytokines such IL-1 alpha, IL-1 beta, IL-3, IL-6, TNF-alpha, and S100 beta, colony-stimulating factor-1, coagulation proteins and matrix metalloproteases are made by both microglia and astrocytes. Additionally astrocytes, the predominant glial component of the brain, express cell-adhesion molecules, cytokine receptors and induce nitric oxide synthease. The pathophysiology of Alzheimer's disease, stroke, traumatic brain injury, and multiple sclerosis suggest that a large portion of the irreversible damage observed can be attributed to a neuroinflammatory mechanism. The immunomodulators of these diseases are reviewed and new agents within specific molecular mechanisms are presented and discussed.
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PMID:Therapeutic approaches to the treatment of neuroinflammatory diseases. 1019 47

No biological marker is currently available for the routine diagnosis of stroke. The aim of this pilot study was to determine whether heart-fatty acid binding protein (H-FABP) could be used as a valid diagnostic biomarker for stroke, as compared with neuron-specific enolase (NSE) and S100B proteins. Using two-dimensional gel electrophoresis separation of cerebrospinal fluid proteins and mass spectrometry techniques, FABP was found elevated in the cerebrospinal fluid of deceased patients, used as a model of massive brain damage. Because H-FABP, a FABP form present in many organs, is also localized in the brain, an enzyme-linked immunosorbant assay was developed to detect H-FABP in stroke versus control plasma samples. However, H-FABP being also a marker of acute myocardial infarction (AMI), troponin-I and creatine kinase-MB levels were assayed at the same time in order to exclude any concomitant heart damage. NSE and S100B levels were assayed simultaneously. These assays were assessed in serial plasma samples from 22 control patients with no AMI or stroke, 20 patients with AMI but no stroke, and 22 patients with an acute stroke but no AMI. Twenty-two out of the 22 control patients and 15 out of the 22 stroke patients were correctly classified, figures much better than those obtained with NSE or S100B, in the same study's population. H-FABP appears to be a valid serum biomarker for the early diagnosis of stroke. Further studies on large cohorts of patients are warranted.
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PMID:Fatty acid binding protein as a serum marker for the early diagnosis of stroke: a pilot study. 1458 22

Although several clinical studies have shown that increased serum concentrations of protein S100B predict ischaemic brain damage after cardiac surgery, S100B may also be released from the heart or other injured tissue. We therefore investigated the correlation between serum S100B levels and those of the specific cardiac marker troponin I in order to assess the cerebral vs. extracerebral origin of S100B. In 64 cardiac surgical patients, serial blood samples were drawn for the measurement of S100B and troponin I before surgery and for seven days after surgery. Neurological function was assessed before with the National Institutes of Health Stroke Scale and the Folstein Mini Mental Test. The data show that a sustained increase in serum S100B levels is associated with neurological dysfunction, as witnessed by a positive correlation between S100B values and the results of the neuropsychological tests. In contrast, the early postoperative increased levels of protein S100B derive from cardiac tissue, as shown by the positive correlation between S100B and cardiac troponin I levels.
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PMID:Cerebral and extracerebral release of protein S100B in cardiac surgical patients. 1547 42

The S100 protein family constitutes the largest subgroup of the Ca binding proteins. To date 20 members of the family were discovered. S100 proteins regulate intracellular processes such as cell growth and motility, cell cycle regulation, transcription and differentiation. S100B protein is expressed constitutively by brain astrocytes. Serum S100B protein concentration in Stage II-III-IV melanoma is a reliable prognostic marker. The serum level of S100B protein is significant independent prognostic marker in respect to disease specific survival, it is a relevant marker for therapy monitoring and patient follow-up. It is recommended to determine the S100B expression pattern and intensity of the primary tumour of melanoma before therapy monitoring. Elevated S100B levels were published after head trauma, subarachnoidal haemorrhage and stroke. Furthermore, it indicates blood-brain barrier dysfunction. S100B protein was used to determine the cerebral damage after cardiovascular surgery as well.
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PMID:[Role of S100B protein in neoplasms and other diseases]. 1510 99

Increased serum levels of S100B are positively correlated with multiple forms of CNS damage, such as stroke, CNS trauma and neurodegenerative diseases, but also in psychiatric disorders. However, it is currently not known whether increased serum levels of S100B reflect a neuroregenerative or neurodegenerative response. Since glutamate receptor overactivation (excitotoxicity) may contribute to neuronal pathology in psychiatric disorders, we investigated the effect of S100B on N-methyl-d-aspartate (NMDA)-induced neuronal cell death. Here we demonstrate that very low concentrations of S100B significantly protect primary rat hippocampal neurons against NMDA toxicity by activation of transcription factors of the Rel/nuclear factor kappaB (NF-kappaB) family. Further experiments suggest that i) S100B activated expression of the receptor of advanced glycation products (RAGE) gene in neurons and ii) S100B induced a unique composition of the active NF-kappaB complex consisting of the p65 and c-Rel subunits suggesting a novel mechanism for NF-kappaB activation involved in S100B-mediated neuroprotection. Our data suggest that S100B secreted during the glial response to brain injury potently activates p65/c-Rel in a RAGE-dependent manner and may exert neuroprotective and neuroregenerative effects in psychiatric disorders.
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PMID:S100B potently activates p65/c-Rel transcriptional complexes in hippocampal neurons: Clinical implications for the role of S100B in excitotoxic brain injury. 1531 3

The S100B is a Ca2+ binding proteins of EF-hand type and is produced primarily by astrocytes in the central nervous system. This protein has been implicated in the Ca2+-dependent regulation of a variety of intracellular functions such as protein phosphorylation, enzyme activities, cell proliferation and differentiation, dynamics of cytoskeleton constituents, structural organization of membranes, intracellular Ca2+ homeostasis, inflammation, and protection from oxidative cell damage. Recent studies suggest that released S100B exerts paracrine and autocrine effects on neurons and glia. On the other hand, elevations of S100B levels in blood or cerebrospinal fluid have been observed in patients with Alzheimer's disease, Down's syndrome, amyotrophic lateral sclerosis, multiple sclerosis, schizophrenia, depression, cerebral stroke and traumatic brain injury, and the levels have reached micromol/L-order at focal regions. It has been documented that the excessive S100B promotes the expression of inducible nitric oxide synthase or pro-inflammatory cytokines and exhibits detrimental effects on neurons. On studies using some animal models of the cerebral stroke or Alzheimer's disease, it is suggested that the excessive S100B produced by activated astrocytes precedes neurodegenerations. Authors discussed the relationship between neurological disorders and the S100B.
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PMID:[S100B: astrocyte specific protein]. 1663 91

Arundic acid (ONO-2506) is believed to be neuroprotective because of its actions on glia cells; i.e., its inhibitory effects on the synthesis of a calcium-binding protein S100B. ONO-2506 is undergoing clinical trials for the treatment of patients with stroke and Alzheimer's disease. Recent clinical studies point to a pervasive comorbidity of depression with stroke and Alzheimer's disease. Previously, S100B has been implicated in the pathobiological mechanisms of depression. Preclinical studies have shown that antidepressant treatment significantly increases brain S100B. Here we hypothesize that available data that link S100B with depression, along with the proposed inhibitory action of ONO-2506 on S100B synthesis, indicate that this compound could increase vulnerability for depression in patients at risk for this disorder, and we propose that evaluation of patients with stroke and Alzheimer's disease for the presence of depression should be routine in clinical trials employing ONO-2506. Although it may be open for discussion whether the neuroprotective effects of ONO-2506 are exclusively due to its inhibition of S100B synthesis, the latter action of ONO-2506 warrants studies of the effects of this drug in the pathobiology of depression.
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PMID:Could treatment with arundic acid (ONO-2506) increase vulnerability for depression? 1679 59

This study investigated the effects of the selective peroxisome proliferator-activated receptor-alpha (PPAR-alpha) agonist WY14643 on ischemia/reperfusion (I/R) injury in the rat hippocampus. Transient cerebral ischemia (30 min), followed by 1-24 h reperfusion, significantly increased the generation of reactive oxygen species, nitric oxide (NO), and lipid peroxidation end-products, as well as markedly reducing levels of the endogenous antioxidant glutathione. Reperfusion for 3-6 h led to increased expression of the proteins heme oxygenase-1 (HO-1), cyclooxygenase-2 (COX-2), inducible NO synthase (iNOS), and intercellular adhesion molecule-1 (ICAM-1). Pretreatment with WY14643 suppressed oxidative stress and expression of HO-1, iNOS, and ICAM-1, but had no effect on COX-2. These effects are due to suppression of the activation of p38 mitogen-activated protein kinase and nuclear factor-kappaB. The PPAR-alpha antagonist MK886 abolished the beneficial effects of WY14643. The levels of S100B protein, a marker of cerebral injury used in stroke trials to monitor injury, were high in the hippocampus of rats exposed to I/R, but markedly reduced by WY14643. We propose that WY14643 protects the brain against excessive oxidative stress and inflammation and may thus be useful in treating stroke.
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PMID:Oxidative stress and inflammatory response evoked by transient cerebral ischemia/reperfusion: effects of the PPAR-alpha agonist WY14643. 1686 91

In recent years, serum S100B has been used as a secondary endpoint in some clinical trials in which serum S100B has successfully indicated the benefits or harm done by tested agents. However, few reports describe serum S100B as an indicator of the efficiency of neuroprotective treatment in experimental stroke models, although serum S100B may be as useful for histological and functional evaluations of neuroprotective treatments as in clinical trials. The present study seeks to investigate the possibility that serum S100B reflects successful combined treatment with rt-PA and MK-801 in an embolic stroke rat model. An embolic stroke model of rats was produced via intra-arterial autologous clot injection, after which serum S100B levels were measured 24 h after embolism and the association of serum S100B levels with brain edema volume and infarct volume investigated. Combination treatment with rt-PA and MK-801 significantly attenuated the elevation of serum S100B, which correlated significantly with reductions in brain edema resulting from combination treatment. These findings suggest that serum S100B is a simple and objective indicator for successful neuroprotective therapy and would help seeking partners for combination treatments with rt-PA in an embolic stroke rat model. Assessments of the efficacy of combination treatments with rt-PA and neuroprotectants using serum S100B would facilitate translational research bridging laboratory and bedsides because serum S100B functions as a common marker in both rats and human patients suffering from ischemic stroke.
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PMID:Serum S100B indicates successful combination treatment with recombinant tissue plasminogen activator and MK-801 in a rat model of embolic stroke. 1747 27

In recent years, serum S100B has been used as a secondary endpoint in some clinical trials, in which serum S100B has successfully indicated the benefits or harm done by the tested agents. Compared to clinical stroke studies, few experimental stroke studies report using serum S100B as a surrogate marker for estimating the long-term effects of neuroprotectants. This study sought to observe serum S100B kinetics in PIT stroke models and to clarify the association between serum S100B and both final infarct volumes and long-term neurological outcomes. Furthermore, to demonstrate that early elevations in serum S100B reflect successful neuroprotective treatment, a pharmacological study was performed with a non-competitive NMDA glutamate receptor antagonist, MK-801. Serum S100B levels were significantly elevated after PIT stroke, reaching peak values 48 h after the onset and declining thereafter. Single measurements of serum S100B as early as 48 h after PIT stroke correlated significantly with final infarct volumes and long-term neurological outcomes. Elevated serum S100B was significantly attenuated by MK-801, correlating significantly with long-term beneficial effects of MK-801 on infarct volumes and neurological outcomes. Our results showed that single measurements of serum S100B 48 h after PIT stroke would serve as an early and simple surrogate marker for long-term evaluation of histological and neurological outcomes in PIT stroke rat models.
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PMID:Serum S100B is a useful surrogate marker for long-term outcomes in photochemically-induced thrombotic stroke rat models. 1770 50

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