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:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

AIMS: Nitric oxide (NO) has protective effects against ischemia-reperfusion (I/R) injury and plays an important role in ischemic preconditioning. Type 1 plasminogen activator inhibitor (PAI-1) regulates plasminogen activators, which may have cytotoxic effects in I/R injury. I/R injury is reduced by the inhibition of fibrinolytic enzymes. To clarify the mechanism of ischemic preconditioning, PAI-1 induction and NO generation were studied in hepatic ischemic preconditioning. METHODS: Total hepatic ischemia was achieved by Pringle's maneuver. FK409 was used as an NO donor. Plasma alanine aminotransferase (ALT) and hyaluronic acid (HA) were measured to estimate hepatic damage and serum nitrite (NO(2)(-)) and nitrate (NO(3)(-)) were also determined to assess NO generation. Reserve transcription-polymerase chain reaction (RT-PCR) and in situ hybridization were carried out to determine the quantitative changes in the expression of PAI-1 mRNA. Plasma PAI-1 concentration was determined using an enzyme-linked immunosorbent assay (ELISA) system. RESULTS: No increase in ALT or HA was found with 5 min I/R. NO and PAI-1 in plasma and PAI-1 mRNA in liver were not increased in the ischemic period, but were increased during the reperfusion period. Infusion of FK409 stimulated induction of PAI-1 mRNA dose dependently. In situ hybridization studies indicated that hepatocytes expressed PAI-1 mRNA after I/R treatment. CONCLUSIONS: I/R increased the concentration of plasma PAI-1. Reperfusion following ischemia was needed for the induction of PAI-1 mRNA and increase of plasma NO concentration. FK409 stimulated PAI-1 mRNA induction in the liver. These results indicate that PAI-1 is a component of the ischemic preconditioning mechanisms, which is stimulated by NO generation.
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PMID:Expression of type 1 plasminogen activator inhibitor and nitric oxide generation in ischemic preconditioning of rat liver. 1269 56

Cerebral oedema is a potentially lethal complication of brain infarction. Ischemia, by altering membrane ionic pump function, induces cell swelling and cytotoxic oedema. It also initiates early oxidative and inflammatory cascades leading to blood-brain barrier disruption, vasogenic oedema and haemorrhagic transformation. The mechanisms of blood-brain barrier disruption involve endothelial cell activation and endothelial basal membrane degradation by matrix metalloproteinases. Reperfusion by tissue plasminogen activators is the only treatment improving stroke prognosis. This treatment also increases vasogenic oedema and the risk of symptomatic haemorrhagic transformation, reducing the benefit of reperfusion. Experimental studies suggest that the inhibition of blood-brain barrier proteolysis reduces vasogenic oedema and the risk of haemorrhage. This recent progress in the understanding of blood-brain barrier disruption during ischaemia brings forward new therapeutic strategies using agents capable of interfering with the ischaemic cascade in order to increase the therapeutic window between the onset of ischaemia and thrombolytic reperfusion.
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PMID:[Blood-brain barrier pathophysiology and ischaemic brain oedema]. 1281 23

The regulation of cerebrovascular permeability is critical for normal brain homeostasis, and the "breakdown" of the blood-brain barrier (BBB) is associated with the development of vasogenic edema and intracranial hypertension in a number of neurological disorders. In this study we demonstrate that an increase in endogenous tissue-type plasminogen activator (tPA) activity in the perivascular tissue following cerebral ischemia induces opening of the BBB via a mechanism that is independent of both plasminogen (Plg) and MMP-9. We also show that injection of tPA into the cerebrospinal fluid in the absence of ischemia results in a rapid dose-dependent increase in vascular permeability. This activity is not seen with urokinase-type Plg activator (uPA) but is induced in Plg-/- mice, confirming that the effect is Plg-independent. However, the activity is blocked by antibodies to the LDL receptor-related protein (LRP) and by the LRP antagonist, receptor-associated protein (RAP), suggesting a receptor-mediated process. Together these studies demonstrate that tPA is both necessary and sufficient to directly increase vascular permeability in the early stages of BBB opening, and suggest that this occurs through a receptor-mediated cell signaling event and not through generalized degradation of the vascular basement membrane.
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PMID:Tissue-type plasminogen activator induces opening of the blood-brain barrier via the LDL receptor-related protein. 1461 49

Absence of urokinase from the United States market for the past 4 years has resulted in increasing experience with other plasminogen activators in catheter-directed thrombolytic therapy. The differences in the pharmacologic properties and biologic behavior of these agents may translate into clinical outcomes that are distinct. Some of these manifestations can be predicted based on the existing large clinical trials in the acute myocardial infarction literature. However, because of the fundamental differences in techniques and thrombolytic regimens, extrapolation of the coronary data may not always predict the performance of these agents in peripheral catheter-directed fibrinolysis. In this article, the current status of the available lytic agents in the treatment of limb ischemia is reviewed.
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PMID:Catheter-directed thrombolytic therapy for limb ischemia: current status and controversies. 1512 66

Absence of urokinase from the United States market for the past 4 years has resulted in increasing experience with other plasminogen activators in catheter-directed thrombolytic therapy. The differences in the pharmacologic properties and biologic behavior of these agents may translate into clinical outcomes that are distinct. Some of these manifestations can be predicted based on the existing large clinical trials in the acute myocardial infarction literature. However, because of the fundamental differences in techniques and thrombolytic regimens, extrapolation of the coronary data may not always predict the performance of these agents in peripheral catheter-directed fibrinolysis. In this article, the current status of the available lytic agents in the treatment of limb ischemia is reviewed.
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PMID:Catheter-directed thrombolytic therapy for limb ischemia: current status and controversies. 1512 66

Ischemic injury to the kidney results in blood vessel loss and predisposition to chronic renal disease. Angiostatin is a proteolytic cleavage product of plasminogen that inhibits angiogenesis, promotes apoptosis of endothelial cells, and disrupts capillary integrity. A combination of lysine-Sepharose enrichment followed by Western blotting was used to study the expression of angiostatin in response to the induction of ischemic renal injury. No angiostatin products were readily detectable in kidneys of sham-operated control rats. In contrast, both 38- and 50-kDa forms of angiostatin were dramatically enhanced in the first 3 days following 45-min ischemia-reperfusion injury. Renal angiostatin levels declined but remained detectable at late time points postrecovery (8-35 days postischemia). Angiostatin-like immunoreactivity was also elevated in the plasma and in urine for up to 35 days following injury. Lysine-Sepharose extracts of either kidney or urine inhibited vascular endothelial cell growth factor-induced proliferation of human aortic endothelial cells in vitro; an effect that was blocked by coincubation with an angiostatin antibody. RT-PCR verified that mRNA of the parent protein plasminogen was produced in the liver, but it was not present in either sham-operated or postischemic kidney. Matrix metalloproteinase (MMP)-2 and MMP-9, which may mediate angiostatin generation, were enhanced in postischemic kidney tissue and were localized to the renal tubules, interstitial cells, and the tubulo-interstitial space. These data indicate the possible local synthesis of angiostatin following acute renal failure (ARF) and suggest a possible role for MMPs in this activity. Renal angiostatin generation following ARF may modulate renal capillary density postischemia and thereby influence chronic renal function.
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PMID:Angiostatin and matrix metalloprotease expression following ischemic acute renal failure. 1507 85

Studies in rats have demonstrated that modest underlying inflammation can precipitate idiosyncratic-like liver injury from the histamine 2-receptor antagonist, ranitidine (RAN). Coadministration to rats of nonhepatotoxic doses of RAN and the inflammagen, bacterial lipopolysaccharide (LPS), results in hepatocellular injury. We tested the hypothesis that hepatic gene expression changes could be distinguished among vehicle-, LPS-, RAN- and LPS/RAN-treated rats before the onset of significant liver injury in the LPS/RAN-treated rats (i.e., 3 h post-treatment). Rats were treated with LPS (44 x 10(6) EU/kg, i.v.) or its vehicle, then two hours later with RAN (30 mg/kg, i.v.) or its vehicle. They were killed 3 h after RAN treatment, and liver samples were taken for evaluation of liver injury and RNA isolation. Hepatic parenchymal cell injury, as estimated by increases in serum alanine aminotransferase (ALT) activity, was not significant at this time. Hierarchal clustering of gene expression data from Affymetrix U34A rat genome array grouped animals according to treatment. Relative to treatment with vehicle alone, treatment with RAN and/or LPS altered hepatic expression of numerous genes, including ones encoding products involved in inflammation, hypoxia, and cell death. Some were enhanced synergistically by LPS/RAN cotreatment. Real-time PCR confirmed robust changes in expression of B-cell translocation gene 2, early growth response-1, and plasminogen-activator inhibitor-1 (PAI-1) in cotreated rats. The increase in PAI-1 mRNA was reflected in an increase in serum PAI-1 protein concentration in LPS/RAN-treated rats. Consistent with the antifibrinolytic activity of PAI-1, significant fibrin deposition occurred only in livers of LPS/RAN-treated rats. The results suggest the possibility that expression of PAI-1 promotes fibrin deposition in liver sinusoids of LPS/RAN-treated rats and are consistent with the development of local ischemia and consequent tissue hypoxia.
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PMID:Gene expression analysis points to hemostasis in livers of rats cotreated with lipopolysaccharide and ranitidine. 1508 57

Tissue plasminogen activator (tPA), a fibrin specific activator for the conversion of plasminogen to plasmin, stimulates thrombolysis and rescues ischemic brain by restoring blood flow. However, emerging data suggests that under some conditions, both tPA and plasmin, which are broad spectrum protease enzymes, are potentially neurotoxic if they reach the extracellular space. Animal models suggest that in severe ischemia with injury to the blood brain barrier (BBB) there is injury attributed to the protease effects of this exogenous tPA. Besides clot lysis per se, tPA may have pleiotropic actions in the brain, including direct vasoactivity, cleaveage of the N-methyl-D-aspartate (NMDA) NR1 subunit, amplification of intracellular Ca++ conductance, and activation of other extracellular proteases from the matrix metalloproteinase (MMP) family, e.g. MMP-9. These effects may increase excitotoxicity, further damage the BBB, and worsen edema and cerebral hemorrhage. If tPA is effective and reverses ischemia promptly, the BBB remains intact and exogenous tPA remains within the vascular space. If tPA is ineffective and ischemia is prolonged, there is the risk that exogenous tPA will injure both the neurovascular unit and the brain. Methods of neuroprotection, which prevent tPA toxicity or additional mechanical means to open cerebral vessels, are now needed.
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PMID:The neurotoxicity of tissue plasminogen activator? 1535 16

The two main causes of peripheral arterial occlusion (PAO) are embolism and thrombosis. Surgical treatment of acute limb ischemia, because of related complications, has a 30-day mortality rate of 15% to 25%. Intra-arterial thrombolysis for lower extremity ischemia is a well-accepted and frequently used technique. It may offer definitive treatment without the need for major surgery in a significant series of patients with acute occlusion of a native leg artery or a by-pass graft. Thrombolysis can offer several potential advantages when compared with surgical therapy. Thrombolytic agents include streptokinase (SK), urokinase (UK), pro-UK and recombinant tissue plasminogen activators (rt-PA-Alteplase and r-PA-Reteplase). All these agents induce a systemic fibrinolytic state. Three prospective randomized trials, ROCHESTER, STILE, and TOPAS, which compared thrombolytic therapy with traditional surgical revascularization for lower limb ischemia, have recently been published. They suggest that thrombolysis, as an initial therapy, reduces the risk of subsequent surgery and improves limb salvage for patients with PAO. Using this approach, the underlying lesions can be identified and treated by transluminal balloon angioplasty or stenting, or by elective surgical revascularization. However, severe bleeding is still a non rare complication of intra-arterial thrombolysis and the risk of intracranial hemorrhage is 1-2%.
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PMID:Thrombolytic therapy in peripheral arterial disease. 1537 17

The aim of this study was to investigate the effects of different doses of exogenous recombinant human tissue plasminogen activator (rt-PA) on the endogenous cerebral plasminogen-plasmin system in focal ischemia in rats. Ischemia was induced using the suture model. Each group of rats (n = 6) received either treatment (0.9, 9 or 18 mg rt-PA/kg body weight) or saline (control group) at the end of ischemia; a sham-operated group was added. The activity of the plasminogen activators was measured by casein-dependent plasminogen zymography. In the cortex urokinase (u-PA) rose from sham (no ischemia), 91 +/- 7% to ischemia, 176 +/- 10% (P < 0.005). Increasing rt-PA doses led to further significant (P < 0.001) cortical u-PA activation which was maximal at 18 mg: 249 +/- 13%. An extreme increase in the u-PA activity was observed in the basal ganglia to 1019 +/- 22% (P < 0.001). This increase was further aggravated by higher rt-PA doses (18 mg, 1236 +/- 15%; P < 0.001). The t-PA level did not change I3R24 during (3 h ischemia followed by reperfusion for 24 h); however, during low and moderate doses of rt-PA, endogenous t-PA was reduced. In conclusion, while ischemia leads to a significant increase in u-PA, mainly in the basal ganglia, t-PA is not altered. Increasing doses of rt-PA lead to a further elevation of u-PA. Thus, u-PA seems to play a major role in the endogenous plasminogen activator system following focal cerebral ischemia.
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PMID:Rt-PA causes a significant increase in endogenous u-PA during experimental focal cerebral ischemia. 1557 44


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