Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042373 (vascular disease)
 17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lipoprotein(a) [Lp(a)] represents an LDL-like particle to which the Lp(a)-specific apolipoprotein(a) is linked via a disulfide bridge. It has gained considerable interest as a genetically determined risk factor for atherosclerotic vascular disease. Several studies have described a correlation between elevated Lp(a) plasma levels and coronary heart disease, stroke, and peripheral atherosclerosis. In healthy individuals, Lp(a) plasma concentrations are almost exclusively controlled by the apo(a) gene locus on chromosome 6q2.6-q2.7. More than 30 alleles at this highly polymorphic gene locus determine a size polymorphism of apo(a). There exists an inverse correlation between the size (molecular weight) of apo(a) isoforms and Lp(a) plasma concentrations. The standardization of Lp(a) quantification is still an unresolved task due to the large particle size of Lp(a), the presence of two different apoproteins [apoB and apo(a)], and the large size polymorphism of apo(a) and its homology with plasminogen. A working group sponsored by the IFCC is currently establishing a stable reference standard for Lp(a) as well as a reference method for quantitative analysis. Aside from genetic reasons, abnormal Lp(a) plasma concentrations are observed as secondary to various diseases. Lp(a) plasma levels are elevated over controls in patients with nephrotic syndrome and patients with 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 result mainly from insufficient sample sizes of numerous studies. Large studies and those including apo(a) phenotype analysis came to the conclusion that Lp(a) levels are not or only moderately elevated in insulin-dependent patients. In noninsulin-dependent diabetics, Lp(a) is not elevated. Conflicting data also exist from studies in patients with familial hypercholesterolemia. Several case-control studies reported elevated Lp(a) levels in those patients, suggesting a role of the LDL-receptor pathway for degradation of Lp(a). However, recent turnover studies rejected that concept. Moreover, family studies also revealed data arguing against an influence of the LDL receptor for Lp(a) concentrations. Several rare diseases or disorders, such as LCAT- and LPL-deficiency as well as liver diseases, are associated with low plasma levels or lack of Lp(a).
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PMID:Lipoprotein(a) in health and disease. 898 7

We identified a group of 24 young (less than 50 years of age) women with isolated, premature atherosclerotic aortoiliac occlusive disease and attempted to identify distinguishing hemostatic characteristics. Most of these patients (62%) presented with acute thromboembolic events (blue toe syndrome, n = 6; macroemboli, n = 6; or aortoiliac thrombosis, n = 3). Aortoiliac reconstruction (aortoiliac endarterectomy, n = 10, aortobifurcation bypass grafts, n = 6; and percutaneous angioplasty, n = 4) was complicated by early thrombosis in 6 of 20 cases (30%), (1 of 10 endarterectomies, 4 of 6 bypass grafts, and 1 of 4 angioplasties). Fresh thrombus overlying an atherosclerotic plaque was a common finding at surgery. This observation and the relatively high incidence of thromboembolic events led us to hypothesize that a characteristic hemostatic profile might underlie the remarkably similar clinical presentations of these women. Levels of antiphospholipid antibodies (anticardiolipin antibodies and lupus anticoagulant), plasminogen activator inhibitor-1, fibrinogen, antithrombin III, protein C, protein S, plasminogen, prothrombin fragment F1 + 2, and D-dimer were determined for these young women and for 21 age-matched white female control subjects without vascular disease and nine white male patients with aortoiliac occlusive disease (mean 61 years, range 43 to 74 years). The incidence of anticardiolipin antibodies was 42% (8 of 19) in the female patients, which was significantly elevated (p = 0.028). The female (62.5%) and male (100%) patients had significantly elevated D-dimer levels (p < 0.001). Deficiencies of antithrombin III, protein C, and protein S were rare. A unique pattern of premature aortoiliac atherosclerosis exists in some young women. Intra-arterial thromboembolic events are common at presentation and complicate surgical management. The role of antiphospholipid antibodies remains uncertain.
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PMID:Young women with advanced aortoiliac occlusive disease: new insights. 898 71

There is evidence to suggest that elevated plasma levels of lipoprotein (a) [Lp(a)] represent a risk factor for the development of atherosclerotic vascular disease, but the mechanism by which this lipoprotein localizes to involved vessels is only partially understood. In view of studies suggesting a link between inflammation and atherosclerosis and our previous finding that leukocyte defensin modulates the interaction of plasminogen and tissue-type plasminogen activator with cultured human endothelial cells, we examined the effect of this peptide on the binding of Lp(a) to cultured vascular endothelium and vascular smooth muscle cells. Defensin increased the binding of Lp(a) to endothelial cells approximately fourfold and to smooth muscle cells approximately sixfold. Defensin caused a comparable increase in the amount of Lp(a) internalized by each cell type, but Lp(a) internalized as a consequence of defensin being present was not degraded, resulting in a marked increase in the total amount of cell-associated lipoprotein. Abundant defensin was found in endothelium and in intimal smooth muscle cells of atherosclerotic human cerebral arteries, regions also invested with Lp(a). These studies suggest that defensin released from activated or senescent neutrophils may contribute to the localization and persistence of Lp(a) in human vessels and thereby predispose to the development of atherosclerosis.
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PMID:Defensin stimulates the binding of lipoprotein (a) to human vascular endothelial and smooth muscle cells. 919 51

Lipoprotein (a) [Lp(a)] is a LDL-like particle linked to an apo-lipoprotein (a) which has high sequence homology with plasminogen that gives Lp(a) thrombogenic properties in addition to atherogenic capacity. Many epidemiological studies have shown that a high plasma level of Lp(a) is a risk factor for coronary, cerebral and peripheral atherosclerosis. Out of thirteen prospective studies, ten have confirmed this result. The negative results from the three remaining studies were probably due to either inadequate storage of the samples or preventive drug treatment given to the patients during the studies. This review of the literature clearly demonstrates the relationship between Lp(a) and atherosclerosis and the need to measure Lp(a) in order to better evaluate the risk of atherosclerotic vascular disease especially in patients with a hyper LDLemia, an early cardio- or cerebrovascular disease or a family history of atherosclerosis.
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PMID:[Lipoprotein (a), a cardiovascular risk factor: importance of its determination in current clinical practice]. 966 19

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

Recent evidence indicates a potential role for the plasmin/plasminogen activator system in the prevention of atherosclerotic vascular disease. Fibrin deposition is a common histologic feature of the tissues of mice that are genetically deficient in one or more key components of the fibrinolytic system. Cell surface receptors may support fibrinolytic surveillance in both intravascular and extravascular locations by stimulating the efficiency plasmin generation and by protecting plasmin from its inhibitors. In vitro studies suggest that the endothelial cell receptor, annexin II, which independently binds both plasminogen and t-PA, could play a key role in the process. Binding of plasminogen to annexin II is specifically inhibited in the presence of excess concentrations of the atherogenic LDL-like particle Lp(a). Similarly, t-PA binding to annexin II is blocked by homocysteine, a sulfhydryl-containing amino acid that is associated with atherogenesis and that directly derivatizes the t-PA binding domain of annexin II. Elucidation of the precise role of annexin II in fibrinolytic surveillance, however, will await in vivo study.
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PMID:Modulation of annexin II by homocysteine: implications for atherothrombosis. 980 20

Angioplasty is a principal treatment for occlusive vascular disease but 30-50% of patients show a restenosis of the vessel. There is no clinical effective therapy for this disease. It has been demonstrated, in animal models, that various drugs such as NO-donor, plasminogen inhibitor tranexamic acid and MMP (matrix metalloproteinases) reduce the rate of restenosis. Other therapeutic approaches are cytotoxic therapy, and strategies to inhibit cell cycle progression. Systemic administration of conventional pharmacologic agents inhibit cell cycle kinases and vascular lesion formation in animal models. As cell cycle progression is accompanied by fluctuations in the concentration of adenosine 3',5-monophospate (cAMP) and in the activity of the cAMP dependent protein kinase (PKA), local administration of cAMP and phospodiesterase-inhibitor drugs (aminophylline or amrinone) markedly inhibit neointima formation. The successful use of local radiation therapy to inhibit neointima formation after vascular injury may reflect a similar combination of cell-cycle arrest and vascular cell apoptosis. The most effective therapy for occlusive vascular disease will likely combine intravascular stenting with an antiproliferative therapy.
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PMID:Mechanisms of restenosis after angioplasty and approach to therapy (Review). 985 80

One of the most robust observations in the biology of aging is that caloric restriction (CR) extends life in a variety of species. Although CR results in a severalfold decrease in fat mass (FM), the role of fat on life extension was considered to be minimal. Two main reasons accounted for this belief. First, although increased FM is associated with changes in substrate oxidation and in glucose homeostasis, in part through the effects of free fatty acids (FFA) and glycerol, several studies have suggested that longevity is determined independent of FM. Second, CR has systemic effects on a range of functions including neurological, endocrine, reproductive, immunological and antineoplastic, none of which have been historically linked to fat. In the last few years, an explosion of evidence has demonstrated that fat tissue is a very active endocrine gland which secretes a variety of peptides (such as leptin and plasminogen activating inhibitor-1), cytokines (such as tumor necrosis factor), and complement factors (such as D, C3, and B). This is in addition to the presence of substrates, such as glycerol and FFA, which are stored and released by fat cells and are known to have a major role in hepatic and peripheral glucose metabolism. We propose that many of the systemic effects of CR can now be explained by the chronic effects related to decreased plasma levels of peptides, cytokines, complement factors, and substrates. In fact, all of the benefits of CR on the neuroendocrine system and those related to the improvement in glucose homeostasis can be attributed to decrease in adipose cells and their products. Other evidence from epidemiological data in human obesity supports the role of fat mass and its body distribution as a risk factor for morbidity and mortality in humans due to impaired glucose metabolism (similar to rodents), for cancer (similar to rodents), and for the development of atherosclerotic vascular disease (in humans). If all or most of the life-extending benefits of CR can be attributed to decreased fat stores, the expression of specific candidate proteins may be explored and manipulated in the search for the most powerful adipose-dependent signals that modulate life expectancy.
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PMID:Revisiting the role of fat mass in the life extension induced by caloric restriction. 1019 31

Coronary artery disease is a leading cause of death in France. Some of its risk factors are well identified such as age, smoking, high blood pressure and dyslipidemia, but some others such as lipoprotein (a) (Lp(a)) are still under investigation. Lp(a) is an LDL-like particle to which is linked an apolipoprotein (a). The latter shows a high sequence homology with plasminogen that gives Lp(a) thrombogenic properties in addition to its atherogenic capacity. Many epidemiological studies have shown that a high plasma level of Lp(a) is a risk factor for coronary, cerebral and peripheral atherosclerosis. Out of thirteen prospective studies, ten have confirmed this result. The negative results from the three remaining studies were probably due to either the inadequate storage of the samples or the preventive drug treatment given to the patients during the studies and to the lack of standardization of Lp(a) assays. More over it has been shown that beside high plasma Lp(a) level, the presence of a low molecular weight Apo(a) isoform is also related to a higher incidence of coronary artery disease. This review of the literature clearly demonstrates the relationship between Lp(a) and atherosclerosis, and the need to measure Lp(a) in order to better evaluate the risk of atherosclerotic vascular disease especially in patients with a hyper LDLemia an early cardio- or cerebrovascular disease or a family history of atherosclerosis. Management of patients with high Lp(a) concentrations should be directed at minimizing all other risk factors for atherosclerotic disease.
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PMID:[Lipoprotein(a): risk factor for atherosclerotic vascular disease important to take into account in practice]. 1021 Jul 42

Vascular disease is a multifactorial disease that involves atherosclerotic and thrombotic factors. Genetic polymorphisms have been associated with myocardial infarction and angina pectoris. The aim of the present study was to assess the relationship between some genetic polymorphisms and myocardial infarction (MI) or vasospastic angina pectoris in a population from southern France. Genetic polymorphisms of the renin angiotensin system (the D/I polymorphism of the ACE gene and the A1166C polymorphism of the angiotensin II type 1 receptor [AT1R]) and of haemostatic factors (the -675 4G/5G polymorphism of the plasminogen-activator inhibitor 1[PAI-1] gene, and the G to T common point mutation in exon 2, codon 34 of the Factor XIII A-subunit gene) were examined. We assessed the genotype distribution in consecutive coronary artery disease (CAD) patients with MI (n = 201) and vasospastic angina pectoris (n = 43) and in 244 healthy controls comparable in age, sex, body mass index and total cholesterol level. The genotype distribution of AT1R polymorphism was significantly different between controls and patients, the prevalence of the C allele carriers being higher in patients with MI after the age of 45 than in control individuals (61 vs 45%, p <0.01), leading to an odds ratio (OR) of 2 (CI: 1.2-3.4). When looking at the group of patients with vasospastic angina the difference was even higher (76 vs 45%, p <0.01) yielding an OR of 4.3 (CI: 1.4-17.4). Genotype distributions of ACE, PAI-1 and Factor XIII polymorphisms were similar in patients and in controls. This study is in favor of a role of ATIR gene polymorphism in myocardial infarction and vasospastic angina.
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PMID:Genetic polymorphisms and coronary artery disease in the south of France. 1073 75


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