UNIPROT:P00750 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Up to 2000 Australians each year rupture a cerebral aneurysm. This is immediately fatal in some, and others remain disabled. The main risks after a first haemorrhage are recurrent bleeding, prevented by early surgery, and delayed cerebral ischaemia due to vasospasm. This is minimised by keeping a good fluid balance, calcium antagonists, and possibly newer treatments such as aminosteroids or plasminogen activator. An important problem is that of the missed haemorrhage, which often leads to delay in treatment and a fatal or disabling recurrence.
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PMID:Cerebral aneurysms and subarachnoid haemorrhage. 145 Jun 43

Thrombolytic agents may be useful in the treatment of cerebral ischemia caused by arterial thrombosis or embolic occlusion. A trial of intravenous human tissue-type plasminogen activator (rt-PA) was carried out in seven male Sprague-Dawley rats subjected to embolic cerebral ischemia, with eight control animals. One-hour-old autogenous blood clot was injected into the internal carotid artery. A 30-minute infusion of 10 micrograms/kg/minute of rt-PA or saline followed. Areas of ischemia at two hours post-embolization were assessed by digital image processing of serial iodo-14C-antipyrine autoradiographic images. The volumes of "no-flow" (NF) and "low-flow" (LF) regions were calculated. One animal in each group suffered no detectable ischemia; the remainder had well-defined regions of middle and posterior cerebral artery ischemia. No animal sustained a hemorrhagic lesion. Treatment produced no noticeable effect on the patency of cervical vessels. Total NF and LF volumes were less for the treated group but did not reach statistical significance by t-test. In middle cerebral distribution sections, however, LF volume was significantly less (p less than 0.05) for treated animals (150 vs. 191 mm3), primarily due to a more significant decrease in LF volume in the anterior-middle cerebral overlap zone (47 vs. 90 mm3; p less than 0.025). Fibrinogen levels were not altered by drug treatment (p greater than 0.30).
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PMID:The effect of intravenous tissue-type plasminogen activator in a rat model of embolic cerebral ischemia. 311 Nov 8

Two randomised controlled clinical trials in patients with recently ruptured intracranial aneurysms were undertaken using tranexamic acid (AMCA) to prevent early recurrent bleeding. In our accumulated series of 105 patients 53 were given AMCA and 52 were controls. 13% of the AMCA-treated patients and 31% of the controls rebled. In patients treated with AMCA the recurrent bleeding took place later than the rebleeding in the control patients. Vasospasm and delayed cerebral ischaemic deficits were seen more frequently in patients treated with AMCA. Total mortality from rebleeding and cerebral ischaemia was 25% in AMCA-treated patients and 19% in the controls during the six weeks' observation time. Coagulation factors remained unaffected by the drug. Local fibrinolysis in the cerebrospinal fluid decreased after one week in patients treated with AMCA. After two weeks the fibrinolytic activity was similar in AMCA-treated patients and in the controls. After experimental subarachnoid haemorrhage in 90 rabbits, AMCA was found to suppress plasminogen activator activity, mainly in the leptomeninges. This occurred however only during the first few postbleeding days. Antifibrinolytic agents only appear to reduce the risk of recurrent bleeding during the first ten day period after the primary aneurysm rupture. However they also seem to produce delayed cerebral ischaemia in patients with subarachnoid haemorrhage. Synthetic antifibrinolytics evidently shift the incidence of rebleeding curve to the right but these drugs are probably of diminished value in the subsequent weeks of risk.
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PMID:Antifibrinolytic treatment in subarachnoid haemorrhage: present state. 704 63

In this study a new model of cerebral ischemia, based on a middle cerebral artery (MCA) thrombosis in rats is described. Furthermore, the effect of the novel plasminogen activator (SUN9216), a plasminogen-plasminogen activator chimera, comprising the fibrin kringle 1 domain of a plasminogen, and the two kringles, and the serine protease domains of wild-type tissue plasminogen activator (t-PA), including a modification of the mannose glycosylation site on the kringle 1 of t-PA (PK1de1FE1X), was studied in this model. In the newly described model of thrombotic cerebral ischemia, an occlusive thrombus occurred usually within 8 min in the MCA as a consequence of an endothelial injury subsequent to a photochemical reaction between a systemically administered photosensitive dye (rose bengal) and a transillumination of the MCA with a high-intensity green light with a wavelength of 540 nm. The study was quantitated by means of pathological examination of the MCA and the brain. A platelet-rich thrombus was observed in the MCA using electron microscopical analysis based on ion beam bombardment. At 24 hr after induction of the thrombus, the brain was removed from 13 control animals, nine coronal sections were stained from each brain with triphenyltetrazoliumchloride (TTC), and the ischemic area was quantitated. A constant area of infarction was observed in the cortex and the lateral part of the basal ganglia. In a second group (n = 8), at 1 or 8 weeks after induction of the thrombosis in the MCA, the coronal sections were stained with hematoxylin and eosin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A simple and reproducible cerebral thrombosis model in rats induced by a photochemical reaction and the effect of a plasminogen-plasminogen activator chimera in this model. 836 30

We evaluated the genotypes of the angiotensin-converting enzyme (ACE) gene in 101 subjects with and 109 subjects without a history of ischemic stroke. All were attending a metabolic ward. The two groups were compared for major risk factors for ischemic events. Genotypes were determined by polymerase chain reaction with oligonucleotide primers flanking the polymorphic region in intron 16 of the ACE gene. Deletion polymorphism of the ACE gene (DD genotype) was shown to be more common in subjects with a history of stroke than in those without (relative risk, 1.76; confidence intervals, 1.02 to 3.05). A positive family history for ischemic complications of atherosclerosis was also more common in subjects with documented events (relative risk, 1.99; confidence intervals, 1.10 to 3.59). DD genotype and a positive family history were strong independent discriminators of cerebral ischemia. Plasma levels of tissue-type plasminogen activator (TPA) and plasminogen activator inhibitor-1 help identify subjects with a history of cerebral ischemic episodes. When such fibrinolytic variables were included in the analysis, the DD genotype still strongly and independently discriminated subjects with a stroke history and significantly interacted with TPA levels > 10 ng/mL in such identification. We conclude that in subjects attending a metabolic ward, homozygosity for a deletion polymorphism of the ACE gene consistently discriminates subjects with a stroke history. Interaction with TPA improves such identification.
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PMID:Deletion polymorphism in the angiotensin-converting enzyme gene in patients with a history of ischemic stroke. 862 Mar 47

Cerebral ischemia is caused by reduced blood supply at the microcirculatory level. In the microvessels, the main elements of the reperfusion injury following brain ischemia are the transformation of endothelial cell-surface from anticoagulant to procoagulant property, leukocyte adhesion, sludge or clot formation. There is a paucity of information on how hemostatic factors, cytokines, lipoprotein(a) (Lp(a)) and endothelin-1 (ET-1), being responsible for ischemic/reperfusion injury, interact with human brain microvessel endothelium (HBEC). There are no data furthermore about the expression of complement proteins of HBEC influenced by cytokines or fibrinolytic factors. Previously we established optimal conditions for culturing HBEC. Cell contraction induced by thrombin, plasmin, miniplasmin was recorded. The reassembly of F-actin was observed after thrombin treatment. ICAM-1 upregulation was measured following TNF-alpha, IL-1-alpha and thrombin incubation. Plasmin and miniplasmin downregulated the ICAM-1 in our cell culture system. Lp(a) modulated the thromboresistant cell-surface by reduction of t-PA and u-PA, but PAI-1 remained unchanged. Lp(a) modulated the ET-1 production by early increasing and late decreasing, in a bimodal manner. The increased secretion of ET-1 by cytokines (TNF-alpha, IL-1-alpha) was reduced in the presence of Lp(a). Gradual increase of complement proteins (factor H, factor B, C4) was induced by cytokines. Plasmin and miniplasmin augmented a rapid increase of C4. Some factors of complex relationship between regulators and modulators of endothelial adhesion molecules have been demonstrated in a human cell culture system prepared from brain microvessel endothelium. A unified concept of sequential events of ischemia/reperfusion in the brain has not yet developed.
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PMID:Human brain microvessel endothelial cell culture as a model system to study vascular factors of ischemic brain. 889 62

We used an adaptation of a well-established rat model of middle cerebral artery occlusion (MCAO) that is both minimally invasive and reproducible to determine the effects of time to reperfusion and administration of tissue plasminogen activator (t-PA) on the development of hemorrhagic transformation (HT) in a rat model of acute stroke. Animals were randomized to receive either t-PA 10 mg/kg (29 rats) or an equal volume of saline (29 rats) over 20 minutes, beginning 5 minutes before reperfusion. Time to artery reopening varied between 1 and 24 hours after MCAO in both groups. At 18-24 hours after ischemia, the animals were sacrificed and their brains were preserved for analysis of HT. Logistic regression was used to determine the influence of time on HT risk and calculate the time at which 50% of animals developed HT (HT50%). At 24 hours, HT was present in 17 of 29 animals in each group and was significantly influenced by the time of artery reopening: 3 (15%) of 20 animals reperfused less than 3 hours after onset of ischemia and 32 (84%) of 38 reperfused 3 or more hours after the onset of ischemia (p<0.001). There was no difference in HT50% between groups. Time to artery reopening is an important determinant of HT risk in this model of cerebral ischemia. This model may have utility in developing strategies to reduce HT formation after thrombolytic therapy in patients with acute stroke.
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PMID:Hemorrhagic transformation in focal cerebral ischemia: influence of time to artery reopening and tissue plasminogen activator. 1003 Jul 60

The contribution of the complement system to cerebral ischemic and ischemia/reperfusion injury was examined in a rabbit model of thromboembolic stroke by delivery of an autologous clot embolus to the intracranial circulation via the internal carotid artery. A two-by-two factorial design was employed to study the impact of complement depletion via pretreatment with cobra venom factor (CVF, 100 U/kg i.v.) in the setting of permanent (without tissue plasminogen activator; t-PA) and transient (with t-PA) cerebral ischemia. Thirty-two New Zealand white rabbits were assigned to one of four groups (n=8, each group): control without t-PA, control with t-PA, CVF without t-PA and CVF with t-PA. In the complement intact animals, t-PA administration resulted in an approximate 30% reduction in infarct size when compared to the group not receiving t-PA (20.4+/-6.6% of hemisphere area vs. 30.1+/-7.2%; mean+/-SEM). However, infarct sizes in the complement depleted rabbits, with (30.7+/-8.2%) or without (30.2+/-7.9%) t-PA, were no different from the control group receiving no therapy. Similarly, no difference in regional cerebral blood flow or final intracranial pressure values was noted between any of the four groups. Complement activation does not appear to be a primary contributor to brain injury in acute thromboembolic stroke.
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PMID:Complement depletion does not reduce brain injury in a rabbit model of thromboembolic stroke. 1022 42

The tissue type plasminogen activator (t-PA) is a serine protease that is involved in neuronal plasticity and cell death induced by excitotoxins and ischemia in the brain. t-PA activity in the central nervous system is regulated through the activation of serine protease inhibitors (serpins) such as the plasminogen activator inhibitor (PAI-1), the protease nexin-1 (PN-1), and neuroserpin (NSP). Recently we demonstrated in vitro that PAI-1 produced by astrocytes mediates the neuroprotective effect of the transforming growth factor-beta1 (TGF-beta1) in NMDA-induced neuronal cell death. To investigate whether serpins may be involved in neuronal cell death after cerebral ischemia, we determined, by using semiquantitative RT-PCR and in situ hybridization, that focal cerebral ischemia in mice induced a dramatic overexpression of PAI-1 without any effect on PN-1, NSP, or t-PA. Then we showed that although the expression of PAI-1 is restricted to astrocytes, PN-1, NSP, and t-PA are expressed in both neurons and astrocytes. Moreover, by using semiquantitative RT-PCR and Western blotting, we observed that only the expression of PAI-1 was modulated by TGF-beta1 treatment via a TGF-beta-inducible element contained in the PAI-1 promoter (CAGA box). Finally, we compared the specificity of TGF-beta1 action with other members of the TGF-beta family by using luciferase reporter genes. These data show that TGF-beta and activin were able to induce the overexpression of PAI-1 in astrocytes, but that bone morphogenetic proteins, glial cell line-derived neutrophic factor, and neurturin did not. These results provide new insights into the regulation of the serpins/t-PA axis and the mechanism by which TGF-beta may be neuroprotective.
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PMID:Transforming growth factor-beta1 as a regulator of the serpins/t-PA axis in cerebral ischemia. 1042 56

Tissue type plasminogen activator (tPA) can be effective therapy for embolic stroke by restoring cerebral perfusion. However, a recent experimental study showed that tPA increased infarct size in a mouse model of transient focal ischemia, suggesting a possible adverse effect of tPA on ischemic tissue per se. In this report, the effects of tPA in two rat models of cerebral ischemia were compared. In experiment 1, rats were subjected to focal ischemia via injection of autologous clots into the middle cerebral artery territory. Two hours after clot injection, rats were treated with 10 mg/kg tPA or normal saline. Perfusion-sensitive computed tomography scanning showed that tPA restored cerebral perfusion in this thromboembolic model. Treatment with tPA significantly reduced ischemic lesion volumes measured at 24 hours by >60%. In experiment 2, three groups of rats were subjected to focal ischemia via a mechanical approach in which a silicon-coated filament was used intraluminally to occlude the origin of the middle cerebral artery. In two groups, the filament was withdrawn after 2 hours to allow for reperfusion, and then rats were randomly treated with 10 mg/kg tPA or normal saline. In the third group, rats were not treated and the filament was not withdrawn so that permanent focal ischemia was present. In this experiment, tPA did not significantly alter lesion volumes after 2 hours of transient focal ischemia. In contrast, permanent ischemia significantly increased lesion volumes by 55% compared with transient ischemia. These results indicate that in these rat models of focal cerebral ischemia, tPA did not have detectable negative effects. Other potentially negative effects of tPA may be dependent on choice of animal species and model systems.
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PMID:Effects of tissue type plasminogen activator in embolic versus mechanical models of focal cerebral ischemia in rats. 1059 35

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