Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0007222 (cardiovascular disease)
 65,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The blood protein fibrinogen is one of the main independent cardiovascular risk factors and it is very likely that an increased fibrinogen level is not the consequence of cardiovascular disease but its direct cause. Fibrinogen participates actively in many processes in the organism and undergoes various changes of the molecule but it is not known what is the molecular background, why even a slight increase of the fibrinogen level is so dangerous as regards increased risk of cardiovascular attacks. In the present work the authors compared, using monoclonal antibodies, the rate of release of fibrinopeptides A and B (FpA, FpB) by the action of thrombin from fibrinogen in solution and from fibrinogen adsorbed to a solid surface. The authors revealed that the rate of FpB breakdown from sorbed fibrinogen, contrary to fibrinogen in solution is comparable to the release rate of FpA and does not depend on the release of FpA (except for competitive inhibition). The release of FpB from sorbed fibrinogen thus takes place, contrary to fibrinogen in solution, at a significant recordable rate from the very onset of thrombin action. Fibrinogen adsorption to a solid surface is associated with conformation changes which cause this effect and which lead to the formation of a two-dimensional formation formed by fibrinogen after its interaction with the surface of activated platelets.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Fibrinogen seen as an independent cardiovascular factor from the molecular aspect]. 128 74

Lipoprotein(a) (Lp(a)) has been established as an important independent risk factor for the development of cardiovascular disease. Apolipoprotein(a), together with apo B-100 the apolipoprotein of Lp(a), is homologeous to plasminogen but lacks fibrinolytic capacity and appeared to interfere with fibrinolysis in in vitro and ex vivo experiments. We determined the correlations between Lp(a) and other blood lipids (serum cholesterol, LDL-cholesterol, HDL-cholesterol, triglycerides), coagulation parameters (fibrinogen, factor VII, factor VIII:C fibrin monomers, thrombin-antithrombin III) and fibrinolysis parameters (tissue plasminogen activator antigen, plasminogen activator inhibitor-1 and D-dimer) in 54 patients with essential hypertension, in 65 non-insulin-dependent diabetic patients and in 116 insulin-regulated diabetic patients. Signs of activated coagulation and increased reactive fibrinolysis were found in all three patient groups. In the hypertensive patients, Lp(a) was significantly correlated with LDL-cholesterol (r = 0.25, P = 0.04) and triglycerides (r = -0.30, P = 0.03), while in insulin-regulated diabetics, Lp(a) was also correlated with LDL-cholesterol (r = 0.20, P = 0.03). In the hypertensive patients and both diabetic groups there was no correlation of Lp(a) with coagulation or fibrinolysis parameters. These data show that Lp(a) concentrations are not related to coagulation or fibrinolysis parameters in hypertensive or diabetic patients and confirm the presence of an activated coagulation system in these patient groups.
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PMID:Low order correlations of lipoprotein(a) with other blood lipids and with coagulation and fibrinolysis parameters in hypertensive and diabetic patients. 138 33

A high plasma fibrin(ogen) concentration is a known risk for thrombosis and cardiovascular disease. Because fibrin(ogen) binds alpha-thrombin with high affinity, it has potential to modulate the interactions of the enzyme with its inhibitors and other substrates in plasma. In particular, fibrin moderates the inhibition of thrombin by antithrombin III and antithrombin III/heparin. Recently, we have demonstrated a novel regulatory role for fibrin(ogen) on plasma coagulation. A push-pull hypothesis is proposed for bioregulation of coagulation by fibrin(ogen). The experimental work which led to the formulation of this hypothesis is outlined.
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PMID:Bioregulatory roles for fibrin(ogen) on blood coagulation. 146 Nov 78

As a source of several vasoactive factors, the endothelium takes part in the regulation of vascular tone. The most important endothelium-derived vasoactive substances are nitric oxide, prostacyclin, endothelin-1 and contracting factors requiring the activity of cyclooxygenase. The endothelium is an obvious target organ of cardiovascular risk factors. Accordingly, functional alterations do occur with aging, hypertension and hypercholesterolaemia. All three conditions are associated with a decreased basal and simulated release of endothelium-derived nitric oxide. On the other hand, the release of endothelin-1 appears to increase with age, while the sensitivity to the peptide markedly decreases under the same conditions. In the spontaneously hypertensive rat, acetylcholine and stretch evoke the release of a cyclooxygenase-dependent endothelium-derived contracting factor, most likely prostaglandin H2. The circulating levels of endothelin-1 on the other hand are not increased in experimental and human hypertension. In the porcine coronary circulation, oxidized low-density lipoproteins selectively reduced endothelium-dependent relaxations to aggregating platelets, serotonin and thrombin which are mediated by nitric oxide. The alterations of endothelial function occurring with aging, hypertension and hypercholesterolaemia may have important clinical implications for the pathogenesis of cardiovascular disease.
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PMID:Age, hypertension and hypercholesterolaemia alter endothelium-dependent vascular regulation. 150 46

Reaction of antithrombin III (AT) with thrombin results in the formation of stable antithrombin III-thrombin (AT-T) complex with a Mr of 92.5-kDa, accompanied by the appearance of a proteolytically modified form of the inhibitor (ATM). Under these conditions AT-T is also transformed to a smaller complex (AT-TS). This smaller complex (81-kDa), a product of a conformational change at the AT moiety of the AT-T complex, is further transformed to a very small complex (AT-TVS) with a Mr of 71-kDa. Along with this process, AT-TS slowly dissociates to a free enzyme and a small, presumably two-chain product of AT (ATMS) with a Mr of 49-kDa. The newly described component, ATMS, naturally occurs in plasma and serum and accumulates significantly in plasma of patients suffering from cardiovascular disease.
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PMID:Release of a small two-chain form of antithrombin III from a conformationally changed antithrombin III-thrombin complex. 177 26

An increased risk of cardiovascular disease has been found in postmenopausal women in comparison to premenopausal women. The aim of this study was to investigate platelet function, blood clotting and plasma lipid levels in 12 women with a condition of hypoestrogenism, similar to the postmenopausal status induced by treatment with the GnRH analogue buserelin for uterine leiomyoma. Platelet aggregation in whole blood and platelet-rich plasma (PRP), serum thromboxane (TX) B2 production, fibrinopeptide A (FPA) plasma levels and plasma lipid pattern were measured before and after 13 weeks of buserelin treatment. No changes of platelet aggregability were found either in whole blood or PRP. Serum TXB2 generation increased significantly after 13 weeks of therapy (p less than 0.001). No signs of increased thrombin generation were found, as indicated by unchanged FPA plasma levels. Total cholesterol plasma levels were found increased after 13 weeks, LDL cholesterol levels showed a tendency to increase although not significantly. HDL cholesterol and triglyceride concentrations were unaffected. The changes of arachidonic acid metabolism and lipid pattern suggest that buserelin treatment may induce a condition of increased thrombotic risk even if the lack of enhanced thrombin generation and increased platelet aggregability indicates that no blood clotting activation occurs.
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PMID:Changes in thromboxane A2 generation and plasma lipid pattern in pseudomenopause induced by gonadotropin releasing hormone (GnRH) analogue buserelin. 190 2

As a source of several vasoactive factors, the endothelium takes part in the regulation of vascular tone. The most important endothelium-derived vasoactive substances are nitric oxide, prostacyclin, endothelin-1 and contracting factors requiring the activity of cyclooxygenase. The endothelium is an obvious target organ of cardiovascular risk factors. Accordingly, functional alterations do occur with aging, hypertension, and lipids. All three conditions are associated with a decreased basal and stimulated release of endothelium-derived nitric oxide. On the other hand, the release of endothelin-1 appears to increase with age, while the sensitivity to the peptide markedly decreases under the same conditions. In the spontaneously hypertensive rat, acetylcholine and stretch evoke the release of cyclooxygenase-dependent endothelium-derived contracting factor, most likely prostaglandin H2. The sensitivity and circulating levels of endothelin-1, on the other hand, are reduced in this experimental model of hypertension. In the porcine coronary circulation, oxidized low-density lipoproteins selectively reduce endothelium-dependent relaxations to aggregating platelets, serotonin, and thrombin which are mediated by nitric oxide. The alterations of endothelial function occurring with aging, hypertension, and hyperlipidemia may have important clinical implications for the pathogenesis of cardiovascular disease.
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PMID:Endothelium-dependent control of vascular tone: effects of age, hypertension and lipids. 195 6

The endothelium modulates coronary vascular tone by the release of endothelium-derived relaxing or contracting substances. The endothelium-derived relaxing factor has been identified as nitric oxide synthesized in endothelial cells from L-arginine. The endothelium can release other relaxing substances such as prostacyclin and a hyperpolarizing factor. Endothelin-1 is a potent vasoconstrictor peptide formed by endothelial cells, and is likely to be the physiologic antagonist of endothelium-derived relaxing factor. Other putative contracting factors include superoxide anions and products of arachidonic acid metabolism. Endothelium-derived relaxing factor is released spontaneously and in response to flow, platelet-derived products (that is, serotonin, thrombin and adenosine diphosphate) and certain autacoids (that is, acetylcholine, bradykinin, histamine, substance P, vasopressin, alpha-adrenergic agonists). A considerable heterogeneity of responses exists among vessels of different size from different anatomic origin and different species. Hypercholesterolemia, atherosclerosis, hypertension and myocardial ischemia or reperfusion, or both, impair endothelium-dependent relaxation. Under normal conditions, endothelium-derived relaxing factor appears to dominate the control of vascular tone of large and small coronary vessels, whereas in disease states, endothelium-derived contracting factors are released. Impairments of endothelial function may be important in the development of various forms of cardiovascular disease.
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PMID:Endothelial control of vascular tone in large and small coronary arteries. 240 18

Epinephrine at concentrations varying between 3.3 and 12.5 nM had no effect on blood platelets when added alone, but augmented the in vitro platelet response to collagen and thrombin. Both aggregation and secretion responses were enhanced. Norepinephrine produced similar effects but was 50-60% less active than epinephrine. The minimum concentration of epinephrine or norepinephrine to achieve potentiation of platelet responses was even lower in the presence of 5-hydroxy- tryptamine. In contrast to the effects observed with higher concentrations of catecholamines, the synergistic interaction of these low concentrations of catecholamines with other agonists was not transient. The augmented response to catecholamines was mediated by platelet alpha 2-adrenoceptors. The response was inhibited by aspirin indicating that metabolism of arachidonic acid contributes to the synergy between low concentrations of catecholamines and other agonists. These studies show that the levels of the hormones epinephrine and norepinephrine obtained in circulating blood in humans, can be sufficient to enhance platelet responses. The action of catecholamines on platelets may be important in hemostasis and could provide an explanation for the association between certain risk factors and cardiovascular disease.
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PMID:Effect on human platelets of catecholamines at levels achieved in the circulation. 300 19

Platelets were obtained from patients with various hyperlipidemias [type II, type V, lecithin-cholesterol acyltransferase (LCAT) deficiency] and hypolipidemias (abetalipoproteinemia, Tangier disease) to ascertain relationships among plasma lipids, platelet lipids, thrombin binding and thrombin-induced platelet aggregation, and to compare these data with those previously obtained on stimulus-response coupling in platelets following in vitro modification of membrane microviscosity. Washed platelets were studied for their ability to bind 125I-thrombin in the range of 10(-10) to 10(-6) mol/L (10 mU/mL to 100 U/mL) and to aggregate with thrombin at concentrations less than 10(-9) mol/L (100 mU/mL). The values for binding and aggregation in eight patients from six kindred with familial hypercholesterolemia, taken as a group, fell in the low normal range. If divided into two groups, patients with overt cardiovascular disease bound normal amounts of thrombin but were more responsive to it, whereas patients without overt cardiovascular disease bound lower amounts of thrombin but gave an aggregation response in the normal range. These results suggest that platelet hyperresponsiveness in familial hypercholesterolemia arises from an alteration in the coupling mechanism between thrombin binding and response such that platelets from patients with familial hypercholesterolemia are able to respond with lower receptor occupancy than is the case with normal platelets. Thrombin binding and aggregation were within normal ranges for platelets from abetalipoproteinemia patients (N = 4) and type V hyperlipoproteinemia (N = 2), although in the latter case the response appeared to be less at very low thrombin concentrations (less than 30 mU/mL). Thrombin binding was elevated in Tangier disease (N = 3) but with lower responsiveness at lower thrombin concentrations. Thrombin binding was also elevated in LCAT deficiency (N = 2), and one patient showed increased and another showed decreased aggregation responses. In general, increased plasma cholesterol levels resulted in increased stimulus-response coupling (type II), whereas increased triglyceride levels resulted in decreased coupling (type V, Tangier), and there was no apparent alteration in the coupling mechanism with overall reduction in plasma lipid levels as in abetalipoproteinemia.
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PMID:Thrombin binding and response in platelets from patients with dyslipoproteinemias: increased stimulus-response coupling in type II hyperlipoproteinemia. 352 9


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