Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

We report changes in cardiac troponin-T (TnT) and a new plasma stroke biomarker panel (D-dimer, B-natriuretic peptide [BNP], matrix metalloproteinase-9 [MMP-9], S-100 b, Biosite Diagnostics, San Diego, CA) in 30 nonprofessional marathon runners before and immediately after the 2005 Boston Marathon. Following competition, there was a statistically significant increase in MMP-9 (P < .001) and D dimer (P < .001). Nonsignificant changes in S-100 b and BNP were observed. Premarathon and postmarathon values for a multimarker stroke index increased from 0.97 (normal) to 3.5 (low risk or more; P < .001). Two subjects had index values more than the high-risk cutoff value. Mean TnT premarathon and postmarathon levels increased (from <0.01 to 0.03 ng/mL; P < .0001). After the marathon, with a cutoff value of 0.05 ng/mL, 7 runners (23%) had values above the manufacturer's recommended cutoff for myocardial damage. Although biochemical evidence of myocardial damage following strenuous exercise may reflect myocardial stunning or subclinical ischemia, the changes in the stroke index and values for individual stroke markers may reflect a systemic inflammatory response to exertional rhabdomyolysis which is common, but the possibility of subclinical central nervous system damage cannot be excluded.
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PMID:Measurement of a plasma stroke biomarker panel and cardiac troponin T in marathon runners before and after the 2005 Boston marathon. 1689 Nov 91

Brain hemorrhage is a serious complication of tissue plasminogen activator (tPA) therapy for ischemic stroke. Here we report that activated protein C (APC), a plasma serine protease with systemic anticoagulant, anti-inflammatory and antiapoptotic activities, and direct vasculoprotective and neuroprotective activities, blocks tPA-mediated brain hemorrhage after transient brain ischemia and embolic stroke in rodents. We show that APC inhibits a pro-hemorrhagic tPA-induced, NF-kappaB-dependent matrix metalloproteinase-9 pathway in ischemic brain endothelium in vivo and in vitro by acting through protease-activated receptor 1. The present findings suggest that APC may improve thrombolytic therapy for stroke, in part, by reducing tPA-mediated hemorrhage.
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PMID:Activated protein C inhibits tissue plasminogen activator-induced brain hemorrhage. 1707 11

Effective stroke therapies require recanalization of occluded cerebral blood vessels; however, early reperfusion can cause BBB (blood-brain barrier) injury, leading to cerebral oedema and/or devastating brain haemorrhage. These complications of early reperfusion, which result from excess production of ROS (reactive oxygen species), significantly limit the benefits of stroke therapies. Here, we summarize some of the findings that lead to the development of a novel animal model that facilitates identification of specific free radical-associated components of the reperfusion injury process and allows therapeutic interventions to be assessed. In this model, KO (knockout) mice containing 50% activity of the mitochondrial antioxidant manganese-SOD (superoxide dismutase) (SOD2-KO) undergo transient focal ischaemia followed by reperfusion. These animals have delayed (>24 h) BBB breakdown associated with activation of matrix metalloproteinase-9, inflammation and a high brain haemorrhage rate. These adverse consequences are absent from wild-type littermates, SOD2 overexpressors and minocycline-treated SOD2-KO animals. In addition, using microvessel isolations following in vivo ischaemia/reperfusion, we were able to show that the tight junction membrane protein, occludin, is an early and specific target in ROS-mediated microvascular injury. This new model is ideal for studying ischaemia/reperfusion-induced vascular injury and secondary brain damage and offers a unique opportunity to evaluate free radical-based neurovascular protective strategies.
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PMID:A new approach for the investigation of reperfusion-related brain injury. 1707 20

Although enhanced cardiac matrix metalloproteinase (MMP)-2 synthesis has been associated with ventricular remodeling and failure, whether MMP-2 expression is a direct mediator of this process is unknown. We generated transgenic mice expressing active MMP-2 driven by the alpha-myosin heavy chain promoter. At 4 mo MMP-2 transgenic hearts demonstrated expression of the MMP-2 transgene, myocyte hypertrophy, breakdown of Z-band registration, lysis of myofilaments, disruption of sarcomere and mitochondrial architecture, and cardiac fibroblast proliferation. Hearts from 8-mo-old transgenic mice displayed extensive myocyte disorganization and dropout with replacement fibrosis and perivascular fibrosis. Older transgenic mice also exhibited a massive increase in cardiac MMP-2 expression, representing recruitment of endogenous MMP-2 synthesis, with associated expression of MMP-9 and membrane type 1 MMP. Increases in diastolic [control (C) 33 +/- 3 vs. MMP 51 +/- 12 microl; P = 0.003] and systolic (C 7 +/- 2 vs. MMP 28 +/- 14 microl; P = 0.003) left ventricular (LV) volumes and relatively preserved stroke volume (C 26 +/- 4 vs. MMP 23 +/- 3 microl; P = 0.16) resulted in markedly decreased LV ejection fraction (C 78 +/- 7% vs. MMP 48 +/- 16%; P = 0.0006). Markedly impaired systolic function in the MMP transgenic mice was demonstrated in the reduced preload-adjusted maximal power (C 240 +/- 84 vs. MMP 78 +/- 49 mW/microl(2); P = 0.0003) and decreased end-systolic pressure-volume relation (C 7.5 +/- 1.5 vs. MMP 4.7 +/- 2.0; P = 0.016). Expression of active MMP-2 is sufficient to induce severe ventricular remodeling and systolic dysfunction in the absence of superimposed injury.
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PMID:Cardiac matrix metalloproteinase-2 expression independently induces marked ventricular remodeling and systolic dysfunction. 1715 53

The use of blood biomarkers is getting increasingly popular in the field of cerebrovascular diseases, since biomarkers might aid physicians in several steps of stroke evaluation. We will discuss whether stroke diagnosis might be possible using some specific brain biomarkers and if this approach will permit rapid referral of stroke patients to hospitals with acute treatments such as tissue plasminogen activator (t-PA) available. Although thrombolytic therapy in acute stroke is effective since it accelerates clot lyses and earlier restoration of blood flow, up to 40-50% of treated patients do not recanalize or do it too late, and between 6 and 15% suffer hemorrhagic transformations with high death rates. In the context of the neurovascular unit, t-PA may degrade extracellular matrix integrity and increase risks of neurovascular cell death, blood-brain barrier leakage, edema and hemorrhage. In humans, biomarkers such as matrix metalloproteinase-9 (MMP-9) or fibronectin, which might be used to select patients at higher risk of hemorrhagic transformation, and high plasminogen activator inhibitor-1 (PAI-1) interfering with tPA-induced recanalization, thus predicting clot-lyses resistance and poor outcome, have been recently identified. Moreover, high levels of MMP-9 and MMP-13 are involved in DWI lesion growth in spite of thrombolytic therapy suggesting its ultra-early role in brain injury. Other biomarkers such as C-reactive protein may accurately predict stroke mortality following reperfusion therapies. Finally, we will also show that genetic background of stroke patients may condition plasma levels of some of these biomarkers and influence therapeutic response in t-PA-treated patients.
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PMID:Stroke biomarkers: Can they help us to guide stroke thrombolysis? 1747 98

Local environmental conditions contribute to the activation state of cells. Extracellular matrix glycoproteins participate in cell-cell boundaries within the microvascular and extravascular tissues of the central nervous system and provide a scaffold for the local environment. These conditions are altered during focal cerebral ischemia (and other central nervous system disorders) when extracellular matrix boundaries are degraded or when matrix proteins in the vascular circulation enter the neuropil as the microvascular permeability barrier is degraded. Microglia in the resting state become activated after the onset of ischemia. During activation these cells can express a number of factors and proteases, including latent matrix metalloproteinase-9 (pro-MMP-9). Whereas MMP-9 and MMP-2 are generated early during focal ischemia in select models, their cellular sources in vivo are still under study. In vitro microglia cells activate and respond to exposure to specific matrix proteins (eg, vitronectin, fibronectin) that circulate. Certain MMP inhibitors, specifically tetracycline derivatives, can modulate microglial activation and reduce injury volume in limited studies. But, the injury reduction relies on preinjury exposure to the tetracycline. Other studies underway suggest the hypothesis that microglial cell activation and pro-MMP-9 generation during focal cerebral ischemia is promoted in part by matrix proteins in the circulation that extravasate into the neuropil when the blood-brain barrier is compromised. These matrix proteins are known to activate microglia through their specific cell surface matrix receptors.
Stroke 2007 Feb
PMID:Microglial activation and matrix protease generation during focal cerebral ischemia. 1726 8

The membrane-anchored metalloproteinase tumor necrosis factor-alpha-converting enzyme (TACE/a disintegrin and metalloproteinase [ADAM] 17) is key in proteolytic ectodomain shedding of several membrane-bound growth factors, cytokines and receptors. The expression and activity of ADAM17 increases under some pathological conditions including stroke, and promotes neural progenitor cell migration and contributes to stroke-induced neurogenesis. Hypoxia initiates cellular invasive processes that occur under both physiological and pathological conditions such as invasion and metastasis of some tumors. In the present study, we sought to elucidate whether ADAM17 contributes to brain tumor invasion. To this end, we examined the role of ADAM17 in the invasiveness of two different brain tumor cell lines, 9L rat gliosarcoma and U87 human glioma, under normoxic and hypoxic conditions. Additionally, we tested the effects of ADAM17 suppression on in vitro tumor cell invasion by means of ADAM17 proteolytic inhibitors and specific small interfering RNA. We found that tumor cells upregulated ADAM17 expression under hypoxia, and that ADAM17 activity correlated with increased tumor cell invasion. Conversely, suppression of ADAM17 proteolysis decreased invasiveness induced by hypoxia in 9L and U87 cells. Furthermore, the contribution of ADAM17 to tumor invasion was independent of matrix metalloproteinase (MMP)-2 and MMP-9 activity. ADAM17 was also found to activate the epidermal growth factor/phosphoinositide-3 kinase/serine/threonine kinase signal transduction pathway. Our data suggest that hypoxia-induced ADAM17 contributes to glioma cell invasiveness through activation of the EGFR signal pathway.
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PMID:Inhibition of ADAM17 reduces hypoxia-induced brain tumor cell invasiveness. 1735 61

Despite advances in imaging, understanding the underlying pathways, and clinical translation of animal models of disease there remains an urgent need for therapies that reduce brain damage after stroke and promote functional recovery in patients. Blocking oxidant radicals, reducing matrix metalloproteinase-induced neuronal damage, and use of stem cell therapy have been proposed and tested individually in prior studies. Here we provide a comprehensive integrative management approach to reducing damage and promoting recovery by combining biological therapies targeting these areas. In a rat model of transient cerebral ischemia (middle cerebral artery occlusion) gene delivery vectors were used to overexpress tissue inhibitor of matrix metalloproteinase 1 and 2 (TIMP1 and TIMP2) 3 days before ischemia. After occlusion, autologous bone marrow cells alone or in combination with agents to improve NO bioavailability were administered intraarterially. When infarct size, BrdU incorporation, and motor function recovery were determined in the treatment groups the largest beneficial effect was seen in rats receiving the triple combined therapy, surpassing effects of single or double therapies. Our study highlights the utility of combined drug, gene, and cell therapy in the treatment of stroke.
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PMID:Brain protection using autologous bone marrow cell, metalloproteinase inhibitors, and metabolic treatment in cerebral ischemia. 1736 Jun 88

Salt-loaded, spontaneously hypertensive stroke-prone rats show progressive increases in blood pressure and proteinuria and accumulate acute-phase proteins in body fluids, modeling events during renal damage. The aim of this study was to assess the pathological events occurring in the kidney of spontaneously hypertensive stroke-prone rats over time and evaluate the effects of statin treatment, which is known to improve renal and cardiovascular outcomes. Kidneys of male spontaneously hypertensive stroke-prone rats euthanized at different stages of proteinuria showed progressive inflammatory cell infiltration, the accumulation of alpha-smooth muscle actin-positive cells, degenerative changes in podocytes, and severe fibrosis. These were accompanied by an imbalance in the plasminogen/plasmin and metalloprotease systems characterized by the increased renal expression of plasminogen activator inhibitor-1, tissue plasminogen activator, and urokinase plasminogen activator; the net result was an increase in plasmin and matrix metalloproteinase (MMP)-2 and a reduction in MMP-9 activity. Chronic treatment with the hydrophilic rosuvastatin had renoprotective effects in terms of morphology and inflammation and prevented the changes in plasmin, MMP-2, and MMP-9 activity. These effects were independent of the changes in blood pressure and plasma lipid levels. Treatment with the lipophilic simvastatin was not renoprotective. These data suggest that rosuvastatin may have potential utility as a therapeutic option in renal diseases that are characterized by inflammation and fibrosis.
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PMID:Rosuvastatin treatment prevents progressive kidney inflammation and fibrosis in stroke-prone rats. 1739 57

The use of blood biomarkers is getting increasingly popular in the field of cerebrovascular diseases, since biomarkers might aid physicians in several steps of stroke evaluation. We will discuss whether stroke diagnosis might be possible using some specific brain biomarkers and if this approach will permit rapid referral of stroke patients to hospitals with acute treatments such as tissue plasminogen activator (t-PA) available. Although thrombolytic therapy in acute stroke is effective since it accelerates clot lyses and earlier restoration of blood flow, up to 40-50% of treated patients do not recanalize or do it too late, and between 6 and 15% suffer hemorrhagic transformations with high death rates. In the context of the neurovascular unit, t-PA may degrade extracellular matrix integrity and increase risks of neurovascular cell death, blood-brain barrier leakage, edema and hemorrhage. In humans, biomarkers such as matrix metalloproteinase-9 (MMP-9) or fibronectin, which might be used to select patients at higher risk of hemorrhagic transformation, and high plasminogen activator inhibitor-1 (PAI-1) interfering with tPA-induced recanalization, thus predicting clot-lyses resistance and poor outcome, have been recently identified. Moreover, high levels of MMP-9 and MMP-13 are involved in DWI lesion growth in spite of thrombolytic therapy suggesting its ultra-early role in brain injury. Other biomarkers such as C-reactive protein may accurately predict stroke mortality following reperfusion therapies. Finally, we will also show that genetic background of stroke patients may condition plasma levels of some of these biomarkers and influence therapeutic response in t-PA-treated patients.
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PMID:Stroke biomarkers: can they help us to guide stroke thrombolysis? 1722 Sep 57


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