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)

Fat emulsions can cause changes in blood-clotting and fibrinolysis. The aim of this study was to examine the relation between the use of the short-acting hypnotic propofol and alteration of the blood clotting system. In a double-blind randomized study, 36 patients with an aortocoronary bypass operation were given either midazolam/fentanyl or propofol/alfentanil. Eleven blood samples were taken at fixed times pre-, intra- and postoperatively to determine changes caused by the anesthetic agents on the hemostaseologic parameters during the whole operation. Perioperative blood pressures of both groups were measured at seven fixed points. From the beginning of the extracorporeal circulation (ECC) to the end of the operation, the measured values of the factor XIIa- and kallikrein-like activity in the propofol group were significantly higher than those of the midazolam group. Also the values of the kallikrein inhibition capacity and the indicators of fibrinolysis (t-PA and D-dimers) suggest a stronger activation of the contact phase at the start of the recirculation and as a result of it a stronger fibrinolysis within the propofol group. Besides, the hypotensive side-effect in the propofol group was evident in contrast to the midazolam group. With this investigation, a correlation between the application of propofol/alfentanil, contact phase activation with activation of the kallikrein-kinin-bradykinin system and the observed hypotension can be set up.
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PMID:Effects of the propofol combination anesthesia on the intrinsic blood-clotting system. 1059 45

Abnormalities in fibrinolysis have been reported in hypertension. Angiotensin converting enzyme (ACE) inhibitors have been shown to improve altered fibrinolytic balance in hypertensive patients. It has not been documented, however, whether this is due to a decrease in angiotensin II (Ang-II) generation or is a consequence of elevated local levels of bradykinin. Accordingly, the aim of this study was to determine the effects of an ACE inhibitor (perindopril) and an Ang-II receptor antagonist (losartan) on fibrinolytic kinetics. We have examined the serum levels of the plasminogen activator inhibitor type-1 (PAI-1) antigen and activity, tissue plasminogen activator (t-PA) antigen and activity, soluble thrombomodulin (sTM), and tissue factor pathway inhibitor (TFPI) before and after reaching the target blood pressure (<140/90 mm Hg) in 13 hypertensive patients receiving perindopril (mean age 40+/-11 years, 6 women, 7 men) and in 12 patients receiving losartan (mean age 38+/-9 years, 6 women, 6 men). We also compared the baseline fibrinolytic activity of hypertensive patients with that of 12 normotensive control persons (mean age 40+/-9 years, 6 women, 6 men). The mean basal plasma levels of PAI-1 antigen, PAI-1 activity, and sTM were significantly higher in the hypertensive patients than in normal controls (P<.005). The values of other analytes were similar in both groups. Increased plasma levels of PAI-1 antigen, PAI-1 activity, and sTM were reduced in patients after they were given perindopril and losartan (P<.005); the reductions in losartan-receiving group were more pronounced (P<.05). There were no significant effects on the plasma levels of t-PA antigen, t-PA activity, and TFPI in patients receiving the two therapeutic regimens (P>.05). In conclusion, chronic hypertension is associated with hypofibrinolysis. The beneficial effect of ACE inhibitors on fibrinolysis seems to be related to the blockade of Ang-II, and increased kinin activity does not appear to play a major role.
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PMID:Effects of angiotensin converting enzyme and angiotensin II receptor inhibition on impaired fibrinolysis in systemic hypertension. 1060 82

Substantial evidence documents the potential importance of P2Y receptor subtypes in the regulation of cellular responses, but few selective antagonists exist for these receptors. In the current study, we assessed the use of pyridoxal-phosphate-6-azophenyl-2', 4'-disulfonate (PPADS) as a putative P2Y(1) receptor-selective blocker in Madin-Darby canine kidney (MDCK-D(1)) cells. We found that the key action of PPADS in MDCK-D(1) cells was blockade of signaling at a postreceptor site. PPADS blocked UTP (P2Y(2))-stimulated accumulation of cAMP [which is dependent on arachidonic acid (AA) metabolism by cyclooxygenase] but not that by 2-methyl thio-adenosine triphosphate (2MeSATP; which is independent of cyclooxygenase and has been attributed to P2Y(1) and P2Y(11) receptors). By contrast, PPADS inhibited AA release mediated by both 2MeSATP and UTP. PPADS displayed uncompetitive antagonism in blockade of AA release in response to 2MeSATP. PPADS also inhibited AA release stimulated by various nucleotides, phenylephrine, and bradykinin, implying that the effect does not involve the inhibition of a specific receptor. Because PPADS also inhibited ionomycin-, thapsigargin-, and phorbol-12-myristate-13-acetate-promoted AA release, it appears to act at a site distal to an increase in intracellular Ca(2+) transients or PKC activation. Inhibition of melittin-stimulated AA release by PPADS suggested that the target of PPADS action may either be a phospholipase A(2) (PLA(2)) or a site distal to PLA(2), but PPADS did not inhibit Ca(2+)-dependent PLA(2) activity in MDCK-D(1) cell homogenate. The data indicate that PPADS blocks AA release in response to multiple compounds and suggest caution in the use of this compound for distinguishing P2Y receptor subtypes.
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PMID:Pyridoxal-phosphate-6-azophenyl-2',4'-disulfonate (PPADS), a putative P2Y(1) receptor antagonist, blocks signaling at a site distal to the receptor in Madin-Darby canine kidney-D(1) cells. 1060 69

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

Nitric oxide (NO) is a multifunctional effector molecule that plays a central role in the regulation of vascular homeostasis. NO is synthesized from L-arginine by a family of enzymes called NO synthases. The principal source of NO in the vascular system of healthy mammals is the constitutively expressed NO synthase in endothelial cells. The basal endothelial formation of NO can be increased by receptor-dependent agonists (i.e., bradykinin) in a calcium-calmodulin-dependent manner, and also by physical forces (i.e., shear stress), predominantly without changes in the intracellular concentration of free calcium. Nitric oxide can diffuse toward the blood vessel wall where the major target is the smooth muscle cell. NO regulates vascular tone, and the free radical is also a potent inhibitor of smooth muscle cell proliferation, migration and synthesis of extracellular matrix proteins. NO can also diffuse toward the lumen of the blood vessel where it helps maintain blood fluidity. NO inhibits platelets' and leucocytes' adhesion to endothelial cells. In addition, NO inhibits platelet aggregation and facilitates the dissolution of small platelet aggregates. However, the regulatory action of NO on blood cells is most likely limited to the luminal surface of endothelial cells since NO is rapidly scavenged by hemoglobin in erythrocytes and inactivated by oxygen-derived radicals such as superoxide anions. NO can also affect the fibrinolytic activity by regulating the release of tissue-type plasminogen activator and plasminogen activator inhibitor-1. The crucial role of vascular NO in the control of blood fluidity has been demonstrated by the regulation of the bleeding time in humans.
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PMID:Vascular biosynthesis of nitric oxide: effect on hemostasis and fibrinolysis. 1066 93

Piratoxin-I (PrTX-I) is a Lys-49 phospholipase (PLA(2)) homologue, isolated from Bothrops pirajai snake venom, that has no phospholipase activity. In this study, we investigated the in vivo oedematogenic activity of PrTX-I in both the rat and the rabbit as well as the ability of PrTX-I to activate rat mast cells in vitro. In the rat paw and skin, PrTX-I (3-100 microg/paw) induced a dose-dependent oedema that was associated with extensive mast cell degranulation. The involvement of mast cells in PrTX-I-mediated oedema formation in the rat was further confirmed by the findings that this protein significantly activated rat peritoneal mast cells in vitro, causing the release of [(14)C]5-hydroxytryptamine ([(14)C]5-HT; 51 +/- 1%). In the rabbit, PrTX-I (10-100 microg/site) also induced dose-dependent skin oedema formation that was not affected by either mepyramine (a histamine H(1) receptor antagonist) or cyproheptadine (1.0 microg/site), indicating that mast cells do not play a role in this animal species. The bradykinin B(2) receptor antagonist Hoe 140 (0.5 microg/site) and the platelet-activating factor (PAF) receptor antagonist WEB 2086 (200 microg/site) also failed to affect the PrTX-I-induced rabbit skin oedema, ruling out the involvement of kinins and PAF. The PLA(2) inhibitor p-bromophenacyl bromide greatly reduced the PrTX-I-induced oedema in both the rat and the rabbit, and also inhibited the rat in vitro mast cell activation induced by this PLA(2) homologue. The polyanions heparin and dermatan sulphate efficiently prevented oedema formation in both species, and heparin inhibited PrTX-I-induced rat mast cell degranulation. Our results are consistent with the suggestion that the cationic charge of PrTX-I plays a major role in the inflammatory responses induced by this PLA(2) homologue.
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PMID:Inflammatory oedema induced by the lys-49 phospholipase A(2) homologue piratoxin-i in the rat and rabbit. Effect of polyanions and p-bromophenacyl bromide. 1073 29

Angiotensin-converting enzyme (ACE) inhibitors and angiotensin II type 1 (AT1) receptor blockers share a number of common properties, including their ability to lower blood pressure. However, they can be differentiated based on their individual effects on the renin-angiotensin system, the fibrinolytic system and the actions of bradykinin. They act at different points in the cascade of events that constitute the renin-angiotensin system. In animal models of atherosclerosis, ACE inhibition was associated with a significant reduction in the percentage surface area of lesions, while no similar effect was evident with AT1 receptor blockade. In the fibrinolytic system, both ACE inhibition and AT1 receptor blockade were associated with reduced aldosterone levels, although the effect was greater with ACE inhibition; only ACE inhibition was associated with a significant reduction in plasminogen activation inhibitor-1. By blocking the degradation of bradykinin, ACE inhibitors potentiate the ability of bradykinin to reduce blood pressure and stimulate the release of tissue-type plasminogen activator from the vasculature, an effect not seen with AT1 receptor blockers.
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PMID:Pharmacology of ACE inhibitors versus AT1 blockers. 1090 25

We investigated the effects of the phospholipase A(2) (PLA(2)) activators calcium ionophore A 23187, hydrogen peroxide (H(2)O(2)), bradykinin (BK), histamine and noradrenaline (NA) on the 8-iso-prostaglandin (PG)F(2alpha) formation in the isolated human umbilical vein and the isolated rabbit ear. For comparison, the influence of these substances on the thromboxane A(2) (TXA(2)) release was also investigated. The release of total (esterified as well as free) 8-iso-PGF(2alpha), free 8-iso-PGF(2alpha) and TXB(2), the stable metabolite of TXA(2), was determined by specific enzyme immunoassays. The results show that bolus injections of 5.4 mmol H(2)O(2), 30 nmol A 23187, 10 nmol BK, 50 nmol histamine and 20 nmol NA caused an increased release of total 8-iso-PGF(2alpha) in the umbilical vein and the rabbit ear. A perfusion with H(2)O(2) at a final concentration of 0.3 mM also increased the release of this isoprostane. Increased formation of free 8-iso-PGF(2alpha) was induced by A 23187 injection and by both modes of H(2)O(2) administration, but not by the other treatments. Bolus injections of A 23187, BK and histamine induced an increased release of TXB(2) in both organs. Both modes of H(2)O(2) administration and NA showed no releasing effects. In conclusion, our results show that the substances used are able to stimulate the formation of 8-iso-PGF(2alpha) concurrently with the release of PGs. This effect might be of pathophysiological relevance in inflammatory and cardiovascular diseases in which an enhanced release of free radicals, BK, histamine or NA play an important role.
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PMID:Formation of 8-iso-PGF(2alpha) and thromboxane A(2) by stimulation with several activators of phospholipase A(2) in the isolated human umbilical vein. 1096 81

Concentrations of kininogens, prekallikrein, fibrinogen and antigens of protease inhibitors as well as kininase, fibrinolytic and antipapain activities were estimated in blood plasma (or serum) of patients with coronary artery disease (CAD) before and after the exercise test. The study was conducted on 44 subjects with chronic, stable CAD and 54 myocardial infarction patients (15 treated with streptokinase and 39 subjected to primary percutaneous transluminal coronary angioplasty, PTCA). The patients were divided into two subgroups: treated and untreated with angiotensin I-converting enzyme inhibitor (ACE-I), enalapril. Activation of the fibrinolytic system and the prekallikrein during the exercise test was demonstrated. No significant kininogen consumption was observed. A decrease in kininase activity was found. The results suggest the possibilities of endothelial cells contribution to plasminogen activation in CAD patients. Kininogen and kallikrein directly, or through the released kinins, may participate in regulation of endothelial cell hemostatic functions. Conversion of plasminogen to plasmin may undergo under the influence of kallikrein. The bradykinin induces the tissue plasminogen activator (t-PA) secretion, which depends also on the increased blood flow during the exercise test.
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PMID:Kallikrein-kinin system activation and its interactions with other plasma haemostatic components in the coronary artery disease. 1178 May 65

This review considers the data of recent years concerning the contact system initiating the activation of blood plasma proteolytic systems, such as hemocoagulation, fibrinolysis, kininogenesis, and also complement and angiotensinogenesis. The main proteins of the contact system are the factors XII and XI, prekallikrein, and high-molecular-weight kininogen. The data on the structure, functions, and biosynthesis of these proteins and on their genes are presented. Studies in detail on the protein-protein interactions during formation of the ensemble of the contact system components on the anionic surface resulted in the postulation of the mechanism of activation of this system associated with generation of the XIIa factor and of kallikrein. This mechanism is traditionally considered a trigger of processes for the internal pathway of the hemocoagulating cascade. However, the absence of direct confirmation of such activation in vivo and the absence of hemorrhagia in the deficiency of these components stimulated the studies designed to find another mechanism of their activation and physiological role outside of the hemostasis system. As a result, a new concept on the contact system activation on the endothelial cell membrane was proposed. This concept is based on the isolation of a complex of proteins, which in addition to the above-mentioned proteins includes cytokeratin 1 and the receptors of the urokinase-like plasminogen activator and of the complement q-component. The ideas on the role of this system in the biology of vessels are developed. Some of our findings on the effect of leukocytic elastase on the key components of the contact system are also presented.
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PMID:Contact system. New concepts on activation mechanisms and bioregulatory functions. 1184 36

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