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)

Although rapid growth of the heart during early postnatal development ceases with maturation of the organism, the potential for cardiomyocyte growth is not lost and may be observed even in senescent hearts. Rapid developmental heart growth is accompanied by a proportional growth of capillaries but not always of larger vessels, and thus coronary vascular resistance gradually increases. Growth of adult hearts can be enhanced by thyroid hormones, catecholamines and the renin-angiotensin system hormones, but these do not always stimulate growth of coronary vessels. Likewise, chronic exposure to hypoxia leads to growth, mainly of the right ventricle and its vessels but without vascular growth elsewhere in the heart. On the other hand, ischaemia is a potent stimulus for the release of various growth factors involved in the development of collateral circulation. Heart hypertrophy develops in response to training, pressure or volume overload. Training usually leads to growth of larger coronary vessels but little growth of capillaries, except in young animals. However, growth of the capillary bed, but not the resistance vasculature capacity, can be induced by either increased coronary blood flow, bradycardia (electrically or pharmacologically induced) or increased inotropism, all of which are involved in the training stimulus. Thus, what actually promotes growth of larger vessels as opposed to capillaries in training is unclear. Pressure overload hypertrophy is mediated by both the renin-angiotensin system and the response of cardiomyocytes to stretch; both lead to activation of early oncogenes (c-fos, c-jun, c-myc) and angiotensin II activates several protein kinases involved in cell growth. In this condition, growth of larger vessels is inadequate, although some capillary growth may occur. Volume overload leads to cardiomyocyte hypertrophy and hyperplasia and some increase in vascular supply. Deficits in capillary supply in pressure or volume overload hypertrophy can be reversed by chronic administration of ACE inhibitors, dipyridamole, the bradycardic drug alinidine or pacing-induced bradycardia respectively, but in neither case is training effective. Mechanical and humoral factors are involved in growth of cardiomyocytes and vessels. For cardiomyocytes, stretch is most important, activating oncogenes, protein kinases and possibly the inositol phosphate pathway, but not ion channels, with regulation by the balance of angiotensin II, TGF-beta 1 and IGF-1, but not FGFs. For vessels, growth is stimulated by stretch and shear stress, possibly with involvement of VEGF. Increased shear stress disrupts the glycocalyx on the luminal side of vessels and releases plasminogen activator and metalloproteinases which disrupt the basement membrane and enable endothelial cell migration and proliferation. It also causes rearrangement of the endothelial cytoskeleton and transmission of mechanical signals to the abluminal side disturbing extracellular matrix and causing distortion of capillary basement membrane. Stretch acting from the abluminal side has a similar effect resulting also in basement membrane disruption and endothelial cell proliferation.
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PMID:Postnatal growth of the heart and its blood vessels. 869 52

Besides the thrombolytic therapy several adjuvant therapeutic measures were identified which significantly improve the prognosis of patients with acute myocardial infarction (AMI). These measures include the treatment by means of acetylsalicylic acid (ASA), beta-blockers and ACE inhibitors. Early administration of ASA and beta-blockers are indicated in all patients with AMI who have no contraindications for this therapy. They are especially the patients with manifest heart failure or asymptomatic left ventricular dysfunction who benefit from ACE inhibitors. The effectivity of routine administration of other medicaments such as anticoagulants, nitrates, calcium channel blockers and magnesium, have not been convincingly proved. However, some selected patients with AMI can benefit from these medicaments. Intravenous administration of heparin is unambiguously justified only in thrombolysis with t-PA. Thrombolyses with streptokinase, urokinase, and anistreplase are justified only at high risk of thromboembolic complications. Their prevention and therapy include also the necessity to restrict the administration of pelentan. The use of nitrates is indicated in patients with AMI in case of sustaining stenocardia, arterial hypertension and manifest heart left ventricular failure. Until the definitive standpoint is gained regarding the effect of magnesium in patients with AIM, its administration remains especially indicated in cases of arterial hypertension, tachycardiac disturbances of the heart rhythm and states of assumed or proved hypomagnesiemia. In AMI cases when magnesium is used in order to protect the patient from reperfusion lesion, it must be administered prior to the reperfusion therapy. An intensive research in the field of therapeutical measures in patients with AMI still continues. It is certain that it will soon bring further knowledge which will in turn improve the prognosis and quality of life of patients with AMI. (Tab. 4, Ref. 133.)
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PMID:[Adjuvant therapy in patients with acute myocardial infarct]. 892 11

Angiotensin converting enzyme inhibitors (ACE-I) have been reported to prevent the recurrence of cardiovascular events. The mechanism of this decrease, however, can not be completely explained by anti-hypertensive and anti-hypertrophic effects of ACE-I. To investigate the mechanism of this decrease, we studied the regulation of plasminogen activator inhibitor-1 (PAI-1), tissue type plasminogen activator (TPA), tissue factor (TF), and tissue factor pathway inhibitor (TFPI) by angiotensin II (Ang II) in cultured rat aortic endothelial cells. Ang II increased PAI-1 and TF mRNA expression without affecting that of TPA or TFPI. These inductions were accompanied by increases in PAI-1 and TF activities and were inhibited by a type I Ang II receptor antagonist. The results suggest that Ang II decreases the antithrombotic properties of endothelial cells which increases the chance of thrombosis. Thus, inhibition of the renin-angiotensin system may be beneficial to prevent thrombus formation in treatment of ischemic heart disease.
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PMID:Angiotensin II increases plasminogen activator inhibitor-1 and tissue factor mRNA expression without changing that of tissue type plasminogen activator or tissue factor pathway inhibitor in cultured rat aortic endothelial cells. 924 56

The prevention of coronary artery disease is based on the control of several factors associated with a disease or clinical condition and suspected to play a pathogenetic role, defined as 'risk factors'. Smoking is a powerful risk factor for coronary artery disease, with risk of events increasing in relation to the number of cigarettes smoked daily. Smoking cessation is associated within 3-4 years, with a significant reduction in cardiovascular risk. Hyperlipidaemia is a powerful predictor of coronary disease with a strong, independent, continuous and graded positive association between cholesterol levels and risk of coronary events. Several large studies have shown the benefit of cholesterol reduction, and there is clear evidence of the efficacy of statins in the reduction of events in primary and secondary prevention. Hypertension is a significant, strong and independent risk factor for coronary artery disease morbidity and mortality and the reduction of events and mortality by antihypertensive treatment is well documented. Obesity is associated with an increase in all-cause mortality and cardiovascular mortality, with a particularly high risk for subjects with central obesity. Central obesity is also part of the so-called 'metabolic X syndrome' including insulin resistance, which appears to be associated with a particularly high risk of coronary artery disease. Type 1 and type 2 diabetes mellitus are associated with an increased risk of cardiovascular disease, especially in women. Several studies have shown that good metabolic control and multifactorial risk factor reduction significantly lower the coronary risk in these patients. Recent evidence is accumulating that some clotting factors (fibrinogen, factor VII, von Willebrand factor) and fibrinolytic factors (t-PA and PAI-1) are associated with an increased risk of coronary artery disease. The European Concerted Action on Thrombosis (ECAT) showed that the levels of fibrinogen, von Willebrand factor antigen, and t-PA antigen are independent predictors of subsequent coronary syndromes in patients with angina pectoris, and that low fibrinogen is associated with a low risk of events despite high cholesterol levels. Post-menopausal status is associated with increased risk of coronary artery disease, particularly when menopause is premature (before the age of 45) or abrupt (surgical). There is strong, thought not yet completely definite evidence that post-menopausal hormone replacement therapy may significantly reduce the risk of events and improve survival. Hyperhomocysteinaemia is an emerging risk factor independently associated with an increased risk of coronary artery disease, cerebral vascular disease, and peripheral vascular disease. The administration of vitamin B6, B12 or folate seems to be useful and is currently under further evaluation. Recently, attention has been focused on the correlation between coronary artery disease and genetic factors, such as ACE gene polymorphism or the gene polymorphism for the IIIa-moiety of the platelet fibrinogen receptor IIb-IIIa. In primary prevention, control of the major risk factors mainly in patients with clustered factors will substantially reduce the risk of ischaemic events. Secondary prevention of CHD is based on: aggressive behavioural advice, blood pressure reduction in hypertensives, good metabolic control of diabetes, and cholesterol reduction. Aspirin, beta-blockers, ACE inhibitors, and oral anticoagulants, may be useful in selected patients.
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PMID:Classical risk factors and emerging elements in the risk profile for coronary artery disease. 951 44

Among cardiovascular diseases, hypertension, angina pectoris, acute myocardial infarction and ischemic stroke present a circadian pattern with a greater incidence of unfavourable events between awakening and noon. Chronotherapy aims to use drugs that release their active principles at different times during the day, according to biological needs. In chronotherapy of cardiovascular diseases, a particular attention has been paid to slow-release drugs that assure a 24 hours therapeutic effect with once a day administration. In primary hypertension well controlled by monotherapy (dipper hypertensives), the morning administration of long-acting beta-blockers and calcium antagonists has shown to control blood pressure over 24 hours, whereas ACE-inhibitors have proved more effective when administered at evening. In secondary hypertension (non dipper hypertensives) the administration of calcium antagonists is more effective at evening. Patients with severe hypertension need polytherapy. In that case, at least one of the antihypertensive drugs should be given at evening to lower night blood pressure values, which are particularly elevated also during sleep, and so to prevent an excessive blood pressure rise on awakening. In chronic monotherapy of ischemic heart disease, long-acting beta-blockers and calcium antagonists have shown to be equally effective when they are administered at morning, whereas slow-release nitrates, which need a nitrate-free interval, are to be administered either at morning or at evening, according to the expected time of onset of anginal pain. ASA seems to reduce the morning incidence of acute myocardial infarction, while tissue-type plasminogen activator presents a circadian variation of its thrombolytic activity with a higher efficacy between noon and midnight.
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PMID:[Application of chronotherapy to cardiovascular diseases]. 979 79

Several lines of evidence point to an interrelation of the renin angiotensin system (RAS) with the endogenous fibrinolytic system. In the present study, we have therefore investigated the effect of the ACE-inhibitor captopril on various parameters of the fibrinolytic system in healthy volunteer subjects. 10 male subjects aged 28-38 years were given captopril 25 mg b.i.d. over 2 weeks. Venous blood was drawn before and at the end of the treatment period at 09.00 AM, after the volunteers had received their last dose of captopril by 07. 30 AM. Blood samples were processed for the determination of tissue plasminogen activator (t-PA) and plasminogen activator inhibitor-1 (PAI-1). Both parameters were determined with respect to their abundance (as antigen concentrations) and function (activity). In addition, the concentration and activity of the von Willebrand factor were also determined. Two weeks of captopril treatment had no significant effect on any of the above mentioned parameters. Our results thus show that short-term treatment with the ACE-inhibitor captopril, at least in healthy subjects on an unrestricted NaCl intake, does not affect the fibrinolytic balance between t-PA and PAI-1 or the von Willebrand factor.
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PMID:Effects of captopril on fibrinolytic function in healthy humans. 989 73

Do extremely old persons have a genetically favourable profile which has protected them from cardiovascular death? We have tried to answer this question by measuring DNA polymorphisms of selected cardiovascular risk indicators [factor VII, FVII (R/Q353, intron 7 (37bp)n, and -323ins10), beta fibrinogen (-455G/A), plasminogen activator inhibitor type 1, PAI-1 (-675(4G/5G)), tissue plasminogen activator, t-PA (intron 8 ins311), platelet receptor glycoprotein IIb/IIIa, GPIIb/IIIa (L/P33), prothrombin (20210G/A), methylene tetrahydrofolate reductase, MTHFR (A/V114), angiotensin converting enzyme, ACE (intron 16 ins287), and angiotensinogen (M/T235)]. Blood was collected from 187 unselected Danish centenarians, and 201 healthy Danish blood donors, aged 20-64 years (mean age 42 years). Genomic DNA was amplified using PCR and the genotype was determined by RFLP methods or allele-specific amplification followed by agarose gel electrophoresis. The frequencies of the high-risk alleles in centenarians were: for FVII R/Q353 0.91; for FVII intron 7 (37bp)n 0.67; for FVII-323 ins10 0.90; for fibrinogen 0.16; for PAI-1 0.52; for t-PA 0.59; for GPIIb/IIIa 0.16; for prothrombin 0.008; for MTHFR 0.33; for ACE 0.52; and for angiotensinogen 0.36. Comparable frequencies were observed in the blood donors. Subgroup analysis of men and women separately gave similar results. The genotype frequencies in the centenarians and the blood donors were similar for all polymorphisms, and this study suggests that common variations in genes associated with cardiovascular risk do not contribute significantly to longevity.
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PMID:Longevity is independent of common variations in genes associated with cardiovascular risk. 1049 71

In vitro and in vivo data provide compelling evidence for an interaction between the RAS and thrombosis. Furthermore, angiotensin and AT1 receptor blockers may influence platelet function. ACE is strategically poised to regulate these interactions. ACE catalyzes the conversion of Ang I to Ang II, which in turn stimulates the production of PAI-1, sensitizes platelets, promotes the production of superoxide radicals that scavenge free NO, and induces the expression of tissue factor. Conversely, ACE catalyzes the breakdown of bradykinin, a potent stimulus to t-PA secretion. These data suggest that clinical, genetic, or environmental factors (such as salt intake and medications) that alter ACE activity and Ang II production would be expected to impact on clotting and fibrinolytic mechanisms.
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PMID:Prothrombotic effects of angiotensin. 1063 57

Experimental, genetic and clinical evidence suggests that the renin-angiotensin-aldosterone system (RAAS) may participate in the pathogenesis of thromboembolic cardiovascular disorders such as coronary heart disease. This interrelationship may involve mechanisms other than changes in arterial blood pressure. In addition to various possible interactions, accumulating evidence suggests that the RAAS is involved in the regulation of the fibrinolytic system. Several recent studies have shown that stimulation of the RAAS may be associated with an activation of plasminogen activator inhibitor 1 (PAI-1). Since profibrinolytic factors (especially tissue plasminogen activator [t-PA]) remain unchanged, increased activity of the RAAS may thus alter the fibrinolytic balance towards a decreased fibrinolytic activity. These findings may be of special importance for a variety of clinical problems such as the long-term effect of a low NaCl-intake on cardiovascular morbidity and mortality and the possible value of drugs indirectly or directly interfering with the RAAS such as diuretics, ACE-inhibitors and angiotensin II Type 1 (AT1) receptor antagonists.
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PMID:[Renin-angiotensin-aldosterone system and fibrinolysis]. 1119 56

Plasminogen activator inhibitor type-1 (PAI-1) is known to contribute to thrombus formation and to the development and the clinical course of acute and chronic cardiovascular disease, as well as of other arterial and venous thromboembolic diseases. Recently, an important role of elevated pretreatment levels of PAI-1 for failure of thrombolytic therapy of acute myocardial infarction has been discussed. PAI-1 plasma levels depend on the one hand on gene regulation but are related on the other hand to known risk factors of atherosclerosis like insulin resistance, diabetes or hypertriglyceridemia, respectively. Furthermore, an activated renin-angiotensin-aldosterone system (RAAS) significantly contributes to the upregulation of PAI-1 concentration via a receptor-mediated mechanism. In accordance to the known mechanisms of regulation of PAI-1 plasma levels, the use of specific agents like antidiabetic drugs, fibrates, statins, ACE inhibitors and angiotensin II type-1 receptor-blockers may contribute to the downregulation of circulating PAI-1 and, therefore, increase the fibrinolytic capacity and consecutively counteract the thrombotic tendency. To further improve the efficacy of thrombolytic therapy, a PAI-1 resistant variant of t-PA, TNK-t-PA, has been developed and is now available for acute myocardial infarction.
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PMID:Plasminogen activator inhibitor type-1 in cardiovascular disease. Status report 2001. 1156 64


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