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)

Thromboembolic complications such as ischemic stroke and myocardial infarction are significantly more frequent in patients with arterial hypertension. From the available intervention studies, it appears that pharmacologic treatment of hypertension-at least with diuretics and beta-blockers-may more effectively protect against cerebrovascular as compared to coronary thromboembolic events. Whether other antihypertensive substances provide a more effective protection with respect to cardiac morbidity and mortality is the subject of numerous studies presently underway. These studies will help to answer the question of whether the extent of protection from coronary events during antihypertensive treatment depends on factors beyond blood pressure control. The fibrinolytic system is crucially involved in the pathogenesis of thromboembolic events. One determinant of this system is the balance between plasminogen activators (tissue-type plasminogen activator [t-PA]) and inhibitors (plasminogen activator inhibitor 1 [PAI-1]). Experimental and clinical evidence suggests that at least some of the drugs used in the treatment of hypertension may alter the activity of the fibrinolytic system. Scarce and controversial data with respect to such an interaction exist with respect to diuretics, beta-blockers, and calcium antagonists. In addition, experimental evidence demonstrates that PAI-1 is stimulated by angiotensin II (A II), whereas t-PA is activated by bradykinin. Thus, antihypertensive drugs acting within the renin angiotensin system should exert effects also within the fibrinolytic system. However, results from clinical studies with angiotensin converting enzyme (ACE) inhibitors and A II receptor antagonists do not unequivocally support such a concept. The discrepancy in the results may, at least in part, be explained by studies performed in healthy volunteer subjects showing that ACE inhibition profoundly affected fibrinolysis only during stimulation of the renin angiotensin system by NaCL restriction.
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PMID:Antihypertensive drug treatment and fibrinolytic function. 979 46

Two families with type I plasminogen deficiency and APC resistance are reported. The proposita of family A suffered from ischemic stroke when taking estrogen-progesterone-containing oral contraceptive. Several hemostatic challenges in the past (ovariectomy, appendectomy, and two pregnancies) were without thrombosis. Plasminogen activity and antigen (60 and 58%, normal range 72-136 and 69-135%, respectively) were reduced, and an increased APC resistance (APC-SR= 1.55; normal range 1.8-3.00) associated with G --> A change at 1,691 nucleotide position in exon 10 of FV gene (FV Leiden) was observed. The asymptomatic son had isolated plasminogen deficiency (activity 57% and antigen 60%) whereas the asymptomatic daughter had isolated APC resistance (APC-SR = 1.61) and FV Leiden mutation. The proposita of family B, referred for superficial thrombophlebitis, had low plasminogen levels (activity 55% and antigen 53%) and APC resistance (APC-SR = 1.5) whereas the asymptomatic mother and the brother had isolated APC resistance (APC-SR = 1.62 and 1.8, respectively) and the asymptomatic father isolated plasminogen deficiency (activity 61% and antigen 62%). These data suggest that the combination of plasminogen deficiency and APC resistance probably does not significantly increase the risk of venous thrombosis. However, larger experience with additional cases is needed to definitely assess the magnitude of thrombotic risk in these families.
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PMID:Low risk of venous thrombosis in two families with combined type I plasminogen deficiency and factor V R506Q mutation. 954 82

Still an experimental approach, the direct intra-arterial infusion of plasminogen activators in the setting of acute thrombotic stroke has received impetus from successful clinical trials of intravenous infusion therapy. Direct therapy, employing catheter delivery, has successfully produced evidence of recanalization in carotid artery territory and vertebrobasilar artery territory thrombotic occlusions. One very recent prospective randomized study has demonstrated the success and limitations of this approach. Attention to safety concerns will be important to the future success of direct intra-arterial delivery of plasminogen activators in acute thrombotic stroke.
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PMID:Interventional use of plasminogen activators in central nervous system diseases. 964 79

Modeling of focal cerebral ischemia seeks to understand mechanisms of injury and to test agents as potential stroke therapies. However, modeling has been singularly unpredictable in ischemic cerebrovascular disease for a number of reasons related to the incompletely understood pathophysiology of ischemic stroke and to the characteristics of models prepared to mimic the clinical condition. The development of models of focal cerebral ischemia must take into account known species differences and idiosyncrasies, underlying vascular disease processes, the nature of thrombotic processes, cellular reactivities, the presence of co-stimulation (e.g., inflammation), the characteristics of immunologicals and reporter molecules, the coincident use of other pharmacologic modifiers (e.g., anesthesia), and stress. These elements are also potential contributors to cerebral tissue injury and its assessment but may affect other species differentially. On the other hand, study design issues have been shown to be particularly relevant to limiting development of some agents for clinical stroke treatment. Experience from experimental and clinical work on vascular active approaches (e.g., plasminogen activators) suggests that active dialogue regarding the relationships between clinical outcomes and outcomes in appropriate animal models is necessary. Success appears more likely when the model more closely matches the known human pathophysiology and the interventions applied in the models are definitely characterized in that species. Rather than moving directly to interventional studies in humans, the use of several appropriate animal models is encouraged where those models exist. Where not, careful consideration of study design and the biology of the disorder is a prerequisite.
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PMID:Clinical trials in acute stroke: why have they not been successful? 974 38

Tissue plasminogen activator (tPA) is used to treat acute stroke, but tPA- and plasminogen-gene-deficient mice exhibit resistance to neurodegeneration. Thus, it is unclear whether the tPA-plasminogen system, an extracellular proteolytic cascade plays a helpful or harmful role, and whether plasminogen is induced by neurodegeneration. In the CA3, kainic acid (KA)-injection caused neuronal damage after 6 h, and almost all of the neurons were lost after 7 days. Plasminogen mRNA was strongly induced 6 h after injection, then gradually decreased, and was very weak at 2 days after injection. Plasminogen protein was expressed after 6 h and localized in abnormally shaped neurons. The in vivo expression of plasminogen was synchronous with morphological changes in neurons. These results suggest that the expression of plasminogen induced by KA-injection may disrupt of neuron-extracellular matrix interaction and thereby contribute to cell death in neurons in the hippocampus.
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PMID:Induction of plasminogen in rat hippocampal pyramidal neurons by kainic acid. 975 36

Circadian patterns of risk for cardiac events and their implications for prevention and treatment of cardiovascular conditions are discussed. Sympathovagal tone, a major biological determinant of circadian variation in cardiovascular function, is modulated through circadian patterns of sleep-wake activity. The influence of neurohumoral activity on cardiovascular function is manifested by 24-hour variability in heart rate, blood pressure, and vasomotor tone. Platelet aggregation and plasminogen-activator inhibitor-1 activity peak around the time of awakening. Conversely, endogenous plasminogen activator exhibits a nadir around the time of awakening. Studies of patterns of occurrence of cardiac disorders such as acute myocardial infarction, sudden cardiac death, stroke, and ventricular arrhythmia show an increased occurrence during the period surrounding awakening. These patterns are consistent with observed circadian patterns in cardiovascular function. Diabetes, left ventricular dysfunction, and congestive heart failure may contribute to alterations in patterns of occurrence of cardiac events. Factors such as race, sex, and age may lead to alterations in circadian variation in cardiovascular function. Unusual physical exertion, stress, and anger may act as triggers of an event at any time of day. The circadian patterns of cardiac events follow the natural fluctuations in endogenous physiological processes, with a vulnerable period consistently observed in the early morning; dynamic assessment of markers of cardiovascular function may assist in determining the extent of disease progression and in selecting cardiovascular therapies.
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PMID:Circadian variations in cardiovascular function and their relation to the occurrence and timing of cardiac events. 982 43

The human plasma lipoprotein Lp(a) has gained considerable clinical interest as a genetically determined risk factor for atherosclerotic vascular diseases. Numerous (including prospective) studies have described a correlation between elevated Lp(a) plasma levels and coronary heart disease, stroke and peripheral atherosclerosis. Lp(a) consists of a large LDL-like particle to which the specific glycoprotein apo(a) is covalently linked. The apo(a) gene is located on chromosome 6 and belongs to a gene family including the highly homologous plasminogen. Lp(a) plasma concentrations are controlled to a large extent by the extremely polymorphic apo(a) gene. More than 30 alleles at this locus determine a size polymorphism. The size of the apo(a) isoform is inversely correlated with Lp(a) plasma concentrations, which are non-normally distributed in most populations. To a minor extent, apo(a) gene-independent effects also influence Lp(a) concentrations. These include diet, hormonal status and diseases like renal disease and familial hypercholesterolemia. The standardisation of Lp(a) quantification is still an unresolved problem due to the enormous particle heterogeneity of Lp(a) and homologies of other members of the gene family. Stability problems of Lp(a) as well as statistical pitfalls in studies with small group sizes have created conflicting results. The apo(a)/Lp(a) secretion from hepatocytes is regulated at various levels including postranslationally by apo(a) isoform-dependent prolonged retention in the endoplasmic reticulum. This mechanism can partly explain the inverse correlation between apo(a) size and plasma concentrations. According to numerous investigations, Lp(a) is assembled extracellularly from separately secreted apo(a) and LDL. The sites and mechanisms of Lp(a) removal from plasma are only poorly understood. The human kidney seems to represent a major catabolic organ for Lp(a) uptake. The underlying mechanism is rather unclear; several candidate receptors from the LDL-receptor gene family do not or poorly bind Lp(a) in vitro. Lp(a) plasma levels are elevated over controls in patients with renal diseases like nephrotic syndrome and end-stage renal disease. Following renal transplantation, Lp(a) concentrations decrease to values observed in controls matched for apo(a) type. Controversial data on Lp(a) in diabetes mellitus mainly result from insufficient sample sizes in numerous studies. Large studies and those including apo(a) phenotype analysis have come to the conclusion that Lp(a) levels are not or only moderately elevated in insulin-dependent patients. In non-insulin-dependent diabetics Lp(a) is not elevated. Several rare disorders, such as LCAT and LPL deficiency, as well as liver diseases and abetalipoproteinemia are associated with low plasma levels or lack of Lp(a).
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PMID:Genetics and metabolism of lipoprotein(a) and their clinical implications (Part 1). 1006 65

Urokinase-type plasminogen activator (u-PA) and tissue-type plasminogen activator (t-PA) play important roles in fibrinolysis, cell migration, tissue destruction, angiogenesis and tissue remodeling. u-PA and t-PA activity in tissue are tightly regulated by plasminogen activator inhibitor-1 (PAI-1). However, little is known of the activity of endogenous plasminogen activators (PAs) and PAI-1 in ischemic brain. To evaluate whether cerebral ischemic injury induces endogenous PAs and PAI-1, we measured PA activity from brain homogenates, and examined the expression of t-PA mRNA, u-PA mRNA and PAI-1 mRNA from brain homogenates in C57BL/6J mice (n=45) weighing 29-35 g in which the middle cerebral artery (MCA) was occluded by a fibrin-rich clot. Brain homogenates were prepared for direct casein zymography from control non-ischemic mice (n=4) and mice at 2 h (n=5), 4 h (n=5), and 24 h (n=4) after MCA occlusion (MCAO). Also, u-PA and t-PA knockout mice at 4 h (n=2, each) after MCAO were used as a negative control for direct casein zymography. Frozen sections for in situ zymography were obtained from control mice (n=2) and mice at 2 h, 4 h, and 24 h (n=2, per time point) after clot occlusion. Brain homogenates were prepared for reverse transcriptase-polymerase chain reaction (RT-PCR) to examine t-PA mRNA, u-PA mRNA and PAI-1 mRNA expression from control non-ischemic mice (n=4) and mice at 2 h (n=5), 4 h (n=5), and 24 h (n=5) after MCAO. By direct casein zymography, u-PA activity increased at 4 h (P<0.05), and 24 h (P<0.05) after stroke in the ischemic hemisphere compared with the non-ischemic mice. Activity of t-PA in ischemic brain was not significantly different from the control group. As measured by in situ zymography, PA activity, most likely u-PA, was present in the ischemic hemisphere. By RT-PCR, expression of PAI-1 mRNA, but not u-PA mRNA and t-PA mRNA, increased 3-, 15- and 25-folds in the ischemic hemisphere at 2 h, 4 h and 24 h after stroke, respectively, compared with control mice. This study demonstrates that PAI-1 mRNA and u-PA activity increase in mouse brain after stroke.
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PMID:Endogenous plasminogen activator expression after embolic focal cerebral ischemia in mice. 1043 99

The present study describes 403 patients with thrombosis, from a uniform ethnic and geographical background. Two-hundred-and-seven individuals had suffered mild or moderate stroke and 196 individuals suffered venous thromboembolism. We recorded levels of antithrombin, protein C and protein S, plasminogen and plasma homocysteine, and the presence of the factor V Leiden mutation, the prothrombin 20210G-->A variant, and the methylenetetrahydrofolate reductase (MTHFR) 677C-->T polymorphism. Controls for the mutation frequencies consisted of Guthrie card blood spots from a cohort of new-born babies. The cumulative prevalence of deficiencies in antithrombin, protein C, protein S or plasminogen was 2.4% in patients with stroke and 11.2% in patients with venous thrombosis. The factor V Leiden mutation was present in 11.1% of patients with stroke and 26.5% of patients with venous thrombosis, compared with 6.6% of controls (n = 4188; P < 0.05 and P < 0.0001, respectively). The prevalence of the prothrombin 20210A variant was 3.1% in patients with venous thrombosis, 1.9% in patients with stroke and 2.0% in controls (n = 500; P > 0.05). Hyperhomocysteinemia was present in 16.0% of patients with stroke and 17.6% of patients with venous thrombosis. The prevalence of the MTHFR 677T/T genotype was no different in patients with stroke (10.6%) and venous thrombosis (8.7%) than in controls (8.3%; n = 1084; P > 0.05); thus, it apparently contributed to thrombosis only via its influence on total plasma homocysteine, which was significantly increased in patients with the T/T genotype (P < 0.001). The MTHFR T/T genotype did not further increase the risk for thrombosis in carriers of the factor V Leiden mutation. Overall, thrombotic events were associated with a known risk factor in 27% of patients with stroke and 55% of patients with venous thrombosis.
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PMID:Thrombophilic predisposition in stroke and venous thromboembolism in Danish patients. 1045 16

Data from recent prospective studies of hemostasis and thrombosis indicate that the plasma concentration of endogenous tissue-type plasminogen activator (tPA) is often elevated years in advance of a first arterial occlusion. Specifically, among healthy subjects with no prior cardiovasacular disease, the risk of future myocardial infarction and stroke appears to be three to four times higher among subjects with high baseline levels of tPA antigen as compared to subjects with lower levels. Whether this relationship represents activation of the endogenous fibrinolytic system in response to the presence of preclinical atherosclerosis or is a reflection of elevated concentrations of local plasminogen activator inhibitors is currently unresolved. However, cross-sectional data indicate that the plasma concentration of IPA antigen is related to several traditional atherosclerotic risk factors, including HDL cholesterol, findings that further support a direct relationship between endogenous IPA and vascular risk. In concert with data concerning the primary inhibitors of plasminogen activation, it has been hypothesizd that the endogenous fibrinolytic system varies within the general population such that certain individuals are prone to thrombosis, whereas others may be prone to hemorrhage. Thus, observations regarding fibrinolytic activation and inhibition raise the possibility that assessment of the intrinsic fibrinolytic system may prove useful in identifying individuals at increased risk for vascular thrombosis. In addition, available findings suggest that therapeutic agents capable of favorably shifting the net filerinolytic balance may provide a new strategy for cardiovascular disease prevention.
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PMID:Plasma Concentration of Endogenous Tissue Plasminogen Activator and the Occurrence of Future Cardiovascular Events. 1060 9


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