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: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the effects of the thrombin inhibitor, argatroban ((2R,4R)-4-methyl-1-[N2-(3-methyl-1,2,3,4-tetrahydro-8- quinolinesulfonyl)-L-arginyl]-2-piperidinecarboxylic acid) on the endothelium-derived relaxing factor-nitric oxide (EDRF-NO)-dependent relaxant, and the endothelial cell-independent constrictor actions of thrombin. Experiments were performed in isolated rings of canine coronary arteries. Argatroban inhibited thrombin-induced relaxation (range of thrombin activity 0.003-0.3 U/ml), with an ED50 of 0.3 microM. The ED50 value was not different from inhibition of thrombin amidolytic cleavage of the chromogenic substrate N-p-tosylgly-pro-arg-p-nitroanilide acetate (TOGSPAN 0.28 microM), but inhibition was highly selective. Argatroban did not block EDRF-NO-dependent relaxations to trypsin (0.003-0.3 U/ml; Emax -88.7 + 2.0% without vs. -88.1 +/- 2.7% with argatroban), acetylcholine (ACh 1 nM to 1 microM; Emax -90.5 +/- 4.7% and -88.6 +/- 3.1%, with and without argatroban, respectively), or the calcium ionophore A23187 (1 nM to 1 microM; Emax -98.5 +/- 1.2 vs. -99.4 +/- 0.6%). The inhibitory effects of argatroban on thrombin-induced constriction were then compared with those of the irreversible thrombin inhibitor D-phenylalanyl-L-prolyl L-arginine chloromethyl ketone (PPACK). The highest concentration of argatroban (10 microM) inhibited the vasoconstrictor effects of thrombin but did not completely block the effects (Emax 21.4 +/- 8.1% of KCl constriction without argatroban and Emax 14.0 +/- 5.2% of KCl-induced constriction with argatroban). In contrast, both a 10- and a 100-fold lower concentration of PPACK (0.1-1 microM) prevented the thrombin-induced increase in tension. Thrombin-induced constriction therefore appeared to disclose mechanistic differences between the two thrombin inhibitors. Thrombin vasomotor actions were inhibited by argatroban, however, and this may contribute significantly to the therapeutic effect of argatroban.
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PMID:Argatroban and inhibition of the vasomotor actions of thrombin. 750 29

We investigated the responses of canine coronary rings to endothelium-derived relaxing factor-nitric oxide- (EDRF-NO) dependent agonists and NO synthase (NOS) inhibitors 3 h after endotoxic shock was induced in dogs by lipopolysaccharide infusion (LPS; 2 mg/kg). EDRF-NO-dependent relaxation to thrombin [control maximum response produced after administration of thrombin (Emax) was -85.2 +/- 7.0% of the constrictor response produced by the thromboxane analogue U-46619], acetylcholine (control Emax -88.4 +/- 3.4%), or bradykinin (control Emax -80.5 +/- 2.2%) was not inhibited by LPS (Emax thrombin -75.9 +/- 9.5%; Emax acetylcholine -90.2 +/- 2.4%; Emax bradykinin -91.6 +/- 3.4%). The NOS inhibitor NG-monomethyl-L-arginine (L-NMMA) (10(-6)-3 x 10(-4) M) caused constriction of rings with endothelium (Emax 36.3 +/- 5.6%), an effect that was greater after LPS (Emax 59.2 +/- 4.1%; P < 0.05). D-NMMA had no effect in control, but it increased tension after LPS (Emax 20.8 +/- 9.7%). Contrary to expectations, L- and D-NMMA relaxed endothelium-denuded rings (-30.4 +/- 8.7% L-NMMA; -45.1 +/- 11.7% D-NMMA; P < 0.05). However, neither agent caused relaxation after in vivo LPS (10.2 +/- 3.4% L-NMMA; 8.9 +/- 5.2% D-NMMA). N omega-nitro-L-arginine-methylester (L-NAME) and nitro-L-arginine (10(-6)-3 x 10(-4) M) increased tension (Emax 82.3 +/- 23.9 and 73.1 +/- 8.8%, respectively) but only when endothelium was present, and the increases were no greater in LPS-treated groups than in controls (with LPS: Emax L-NAME 87.3 +/- 16.5%; Emax nitro-L-arginine 65.7 +/- 3.3%).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of NG-substituted arginines on coronary vascular function after endotoxin. 769 Jul 46

Recently, we showed that levels of circulating free fatty acids are increased in women who later develop pre-eclampsia long before the clinical onset of the disease. Among the serum free fatty acids, oleic-, linoleic-, and palmitic acid were found to be increased by 37, 25 and 25%, respectively. In the present study we asked if these free fatty acids can interfere with endothelial cell functions. Cultured endothelial cells were exposed to linoleic-, oleic- and palmitic acid in concentrations ranging from 0.016 to 0.133 mumol ml-1, resulting in molar ratios of free fatty acids to albumin of 0.2-1.6. We found that among these fatty acids, linoleic acid reduced the thrombin-stimulated prostacyclin release by 30-60%, oleic acid by 10-30%, whereas palmitic acid had no effect. Endothelial cells incubated in presence of linoleic acid showed a concentration-dependent reduction in prostacyclin release in response to thrombin, and cells incubated with linoleic acid for up to 28 h, showed a reduced thrombin-induced prostacyclin release at every time point. Endothelial level of cGMP mainly reflected the synthesis of endothelium-derived relaxing factor/nitrogen monoxide (EDRF/NO), since blocking of the endogenous production of EDRF/NO with N-omega-nitro-L-arginine, resulted in about 90% reduction in cGMP-content of the endothelial cells. Incubation with linoleic acid reduced the endothelial cGMP level by 70%. Linoleic acid reduced the endothelial cells ability to inhibit platelet aggregation by 10-45%, (p = 0.0019). It was concluded that linoleic acid impedes the ability of the endothelial cells to produce prostacyclin and cGMP, and to inhibit platelet aggregation.
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PMID:Effects of free fatty acids found increased in women who develop pre-eclampsia on the ability of endothelial cells to produce prostacyclin, cGMP and inhibit platelet aggregation. 786 32

Platelet-dependent thrombosis and subsequent embolization are major causes of cerebral ischaemia. Beside aspirin which irreversibly blocks platelet cyclo-oxygenase, several other substances interfere in different platelet metabolic pathways and block platelet adhesion and aggregation. We found in an experimental model using non-human primates that a specific peptide inhibitor blocking GP IIb/IIIa platelet receptor which binds fibrinogen completely, prevents the retention of embolized platelet aggregates in the cerebral circulation. As thrombin may play a key role for platelet activation in vivo leech-derived hirudin, a direct thrombin inhibitor as well as activated protein C which limits thrombin production and also prevents platelet dependent thrombus formation very effective. We demonstrated in the same non-human primate model of platelet embolization that the amount of retention of platelet emboli in the vascular bed depends on the nature of the vasculature. For example, platelet emboli were cleared very quickly from brain microcirculation, whereas platelet embolization into the lower limb via the femoral artery caused a significantly longer retention of the embolized material. Such specific mechanisms may be caused by different levels of local vasodilators as PGI2 or EDRF.
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PMID:Platelet thromboembolism. 801 31

Thrombin catalyzes not only the conversion of fibrinogen to fibrin but also activates several receptor-mediated cell responses. In ring segments of porcine pulmonary arteries the contractile effect of thrombin was studied in the presence and absence of endothelium. The integrity of endothelium was assessed by the bradykinin-induced relaxation of PGF2 alpha (3 mumol/l)-precontracted vessels which was absent after mechanical removal of endothelium. Thrombin at 0.1 to 10 U/ml (i.e. about 1-100 nmol/l) caused a sustained contraction in endothelium-denuded arteries with a maximum at 20-30 min. In vessels with intact endothelium a significant increase in tension up to 1 U/ml was observed preceded by a transient relaxant response. The contractile effect in vessels with intact endothelium was comparatively weaker. This is probably due to the release of EDRF from endothelial cells since blockade of EDRF synthesis by NG-nitro-L-arginine augmented the thrombin-induced contractions in arteries with intact endothelium. Indomethacin did not alter the contractile effect. However, in vessels with endothelium and in endothelium-denuded vessels the contractions were reduced when extracellular calcium was omitted. Verapamil (10 mumol/l) significantly diminished the contractile effect only in endothelium-denuded vessels. On preincubation of endothelium-denuded arterial ring segments with myo-[2-3H]inositol the addition of thrombin (10 U/ml) caused an accumulation of [3H]inositol-1,4,5-triphosphate (IP3). A maximum was observed after 2 min preceding the maximum increase in contraction. Measurement of thrombin-induced endogenous IP3 generation by radioreceptor assay yielded the same results. The thrombin-induced contractile effect requires the proteolytic activity of the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contractile effects of thrombin in porcine pulmonary arteries and the influence of thrombin inhibitors. 813 97

The coagulation enzyme thrombin, a serine protease like all other coagulation factors, plays a central role in the hemostatic processes engaged after injurious events. It induces, with particular efficacy, the aggregation of blood platelets (primary hemostasis) and accounts, via splitting of fibrinogen to fibrin, for the event actually responsible for the coagulation of blood (secondary hemostasis). As is well-known, thrombin itself is generated by a cascade of activation events involving various coagulation factors (F). In this respect the "tissue factor" (TF, formerly known as thromboplastin), in combination with F VIIa, attains decisive significance, not only in the extrinsic pathway of coagulation (activation of F X-->Xa), but also in the intrinsic pathway (activation of F IX-->IXa). Under physiological circumstances, platelet aggregation and coagulation are restricted to the area of the vascular lesion, since the surrounding intact endothelium inhibits an intraluminal spreading of both processes. These "antithrombotic" features of the endothelium encompass antiaggregatory mechanisms (formation and release of prostacyclin [PGI2], adenosine, EDRF [NO], degradation of ADP and other nucleotides mediated by ecto-nucleotidases) as well as anti-coagulatory properties (formation and release of "tissue factor pathway inhibitor" [TFPI], which blocks the coagulation cascade by joining F Xa, TF and F VIIa into an inactive complex, thrombomodulin--thrombin induced activation of protein C, which, together with protein S, inactivates F Va and F VIIIa, thereby attenuating further generation of thrombin, and the heparan sulfate-enhanced activation of antithrombin III and heparin-cofactor II).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Interaction of blood and the vascular wall: hemostatic aspects]. 815 53

The purpose of this study was to assess the anti-platelet properties of endocardial endothelial cells (EECs) by measuring platelet aggregation after a brief incubation with cultured EECs. EECs were isolated from the right ventricles of porcine hearts and coronary artery endothelial cells (C-ECs) were also isolated from the same animals. After brief incubations (2-min) of platelet suspensions with cultured EEC and CEC monolayers, platelet aggregation in response to thrombin and 6-keto-PGF1 alpha (a stable metabolite of PGI2) content of platelet suspensions were measured. Platelet aggregation was significantly inhibited by a brief incubation of platelet suspensions with EEC and C-ECs monolayers. Pretreatment of EECs and C-ECs with indomethacin (5 x 10(-5) M) restored platelet activity, but pretreatment with N omega-nitro-L-arginine methyl ester (L-NAME, 5 x 10(-5) M) or hemoglobin (1 x 10(-6) M) did not. Platelet/EEC interactions multiplicatively increased the 6-keto-PGF1 alpha content of platelet suspensions and the 6-keto-PGF1 alpha content of platelet suspensions after incubations with EECs correlated significantly with the inhibition of platelet aggregation. Both the anti-aggregation properties and 6-keto-PGF1 alpha production were significantly greater in EECs than in C-ECs. A brief incubation (2-min) with PDGF (10 ng/ml) or TGF-beta (1 and 10 ng/ml) stimulated 6-keto-PGF1 alpha production in EECs but not in C-ECs, although these growth factors stimulated 6-keto-PGF1 alpha production in C-ECs after a longer incubation time (30 or 60 min). In this study, after a brief incubation (2-min) with platelet suspensions, EECs inhibited platelet aggregation mainly through the release of PGI2 but not EDRF. As this anti-aggregation property was significantly greater in EECs than in C-ECs, it is suggested that endocardial endothelial PGI2 may inhibit both intracardiac and intracoronary artery thrombus formation, contributing to the prevention of myocardial ischemia.
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PMID:Antithrombotic effects of endocardial endothelial cells-comparison with coronary artery endothelial cells. 924 71

Since the classical studies by Furchgott and Zawadski (Nature, 1980, 286, 373-376), the vascular endothelium is known to play a fundamental role in the regulation of haemostasis and vasomotor activity. This is primarily due to its strategic interface position between the circulating blood and smooth muscle cells of the media. Due to the presence of specific receptors to mediators released during platelet aggregation (thrombin, ATP, serotonin, PAF, etc.), and the presence of mechanoreceptors sensitive to shearing forces generated by blood flow along the vessel wall, the endothelium is able to release, at the two poles of the cell, vasodilator and antiaggregant substances called "endothelium derived relaxing factors" (EDRFs), the best known for which are nitric oxide (NO) ans prostacyclin (PGl2). In the absence of endothelium (angioplasty), or in the case of endothelium dysfunction related to cardiovascular diseases such as hypertension, heart failure, atherosclerosis or diabetes, EDRF synthesis is absent or defective and its oxidative catabolism in increased (particularity by superoxide anion), resulting in varying degrees of disorders of haemostasis (thrombosis) and/or arterial and venous vasomotor activity. The only known effective treatment to palliate these dysfunctions is exogenous NO, supplied in the form of nitrate (nitroglycerin, isosorbide dinitrate, 5-mononitrate) or "NO donors" (Sin1, nitroprussate). The advantage of these substances is that their vasodilator effects (and, in some cases, their antiaggregant effects) are strictly endothelium-independent and they remain effective regardless of the causes and severity of endothelial dysfunction.
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PMID:[Nitrates and coronary vascular endothelium dysfunction]. 945 72

The contractile actions of the proteinase-activated receptor-2-activating peptides (PAR2APs), SLIGRL-NH2 (SL-NH2), SLIGKV-NH2 (KV-NH2), trans-cinnamoyl-LIGRLO-NH2 (tc-NH2), and the PAR1-AP. TFLLR-NH2 (TF-NH2) as well as trypsin and thrombin were studied in endothelium-denuded and intact human umbilical vein (HUV) ring preparations. In HUV rings with, but not without an intact endothelium, PAR2APs caused a concentration-dependent contractile response, whereas LSIGRL-NH2 trypsin and PAR1APs were inactive. The contractile response was not affected by the endothelin ETA receptor antagonist, BQ123, the cyclooxygenase inhibitor, indomethacin, the leukotriene synthesis inhibitor, MK886, or the epoxygenase/P450 inhibitor, SKF-525A. Other pharmacological antagonists (prazosin, Losartan") were similarly inactive. The order of potencies of the PAR2APs to cause a contraction in the endothelium-intact preparation was: SL-NH2 > > KV-NH2 > or = tc-NH2. Using an endothelium-free rat aorta ring as a reporter tissue, surrounded with endothelium-intact HUV as a donor tissue in a 'sandwich assay,' we also monitored the ability of SL-NH2, TF-NH2, trypsin and thrombin to release either contractile (EDCF) or relaxant (EDRF) factors. In the 'sandwich assay' done in the presence of L-NAME (0.1 mM), the endothelium-intact HUV tissue (but not endothelium-denuded HUV) released a contractile factor (EDCF) in response to SL-NH2 (50 microM) but not to trypsin or LSIGRL-NH2. The SL-NH2-mediated release/action of the EDCF was not affected by BQ123, indomethacin, MK886 or SKF-525A. In the 'sandwich assay', trypsin (4-10 nM), SL-NH2, KV-NH2 and tc-NH2 caused the release of a relaxant activity (EDRF) from the endothelium-intact (but not the denuded) HUV preparation. The release of EDRF was blocked by 0.1 mM (omega)nitro-L-arginine-methylester (L-NAME). Neither thrombin (10 u ml(-1), 100 nM) nor TF-NH2 (50 microM) were active in this EDRF-release assay. The relative potencies of the PAR2 agonists for causing the release of EDRF in the HUV sandwich assay were: trypsin> >SL-NH2> >tc-NH2>KV-NH2. This order of potencies differed from the one observed for the same agonists in the HUV contraction assay (above) and in an intracellular calcium signalling assay, conducted with cloned human PAR2 that was expressed in cultured rat kidney KNRK cells: trypsin > > SL-NH2 = tc-NH2 > KV-NH2. We conclude that PAR2APs (but not PAR1APs) via a receptor distinct from PAR2, can cause a contractile response in endothelium-intact HUV tissue via the release of a diffusable EDCF, that is different from previously recognized smooth muscle agonists (e.g. prostanoid metabolites, endothelin, noradrenaline, angiotensin-II, acetylcholine).
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PMID:Endothelium-dependent contractile actions of proteinase-activated receptor-2-activating peptides in human umbilical vein: release of a contracting factor via a novel receptor. 988 72

The endothelium is the largest autocrine and endocrine organ of the human organism. It participates in the regulation of the blood flow and tonus of the vascular wall, activation of thrombocytes, adhesion of monocytes to the vascular wall, thrombogenesis, lipid metabolism and growth of vessels. Endothelial cells may produce some 25 different biologically active substances. The most important one among them is probably NO. Under physiological conditions endothelial cells release permanently a small amount of NO or EDRF (endothelium-derived relaxing factor) and participate thus in the regulation of the tonus of the vascular wall at rest. The presence of NO excreated by endothelial cells can be detected in all parts of the circulation, from large arteries to small capillaries. Increased NO excretion is caused by a number of physiological stimuli, e.g. a rise of the blood pressure, drop of the partial oxygen pressure or the action of acetylcholine, ADP, ATP, thrombin, bradykinin or histamine. NO is a chemical messenger which is formed during oxidation of L-arginine to L-citrullin by the action of the enzyme NO synthase (NOS). Endothelial NOS is described as eNOS (endothelial/Type III/NOS-3). There exist also two other different isoforms of this enzyme: nNOS (neuronal/Type I/NOS-1/bNOS) andiNOS (inducible/Type II/NOS-2. NO plays an important part on the regulation of vascular homeostasis. It has a number of potential antiatherogenic functions. It causes vascular vasodilatation.
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PMID:[NO (nitric oxide) and its significance in regulation of vascular homeostasis]. 1279 52


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