EC:3.4.21.5 - FACTA Search

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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)

The protease-activated family of G protein-coupled receptors includes PAR-1 and PAR-3, which are activated by thrombin, and PAR-2, which is activated by trypsin and tryptase. PAR-2 has recently been shown to be expressed in human endothelial cells. In the present studies, we have examined the expression of PAR-2 in other cells, particularly vascular smooth muscle, and tested whether the receptors are functional. The results show that PAR-2 is present in human aorta and coronary artery smooth muscle cells, as well as in arteries traversing the walls of the small intestine. It was also detected in human keratinocytes, sweat glands, intestinal smooth muscle, and intestinal epithelium, but not at all in myocardial smooth muscle and only inconsistently in intestinal veins and venules. Activation of aortic smooth muscle cells in culture with PAR-2 peptide agonists caused a transient increase in the cytosolic Ca2+ concentration. In contrast, PAR-2 mRNA could not be detected in saphenous vein smooth muscle cells, and the same cells placed in culture showed little, if any, response to the PAR-2 agonist peptides. These observations show that PAR-2 is widely distributed in human vascular smooth muscle, particularly in arteries. However, this is not a universal finding and at least some venous smooth muscle cells, including those in saphenous veins, apparently do not express the receptor in detectable amounts.
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PMID:Differential expression of functional protease-activated receptor-2 (PAR-2) in human vascular smooth muscle cells. 959 43

Proteolytically activated receptors (PARs) represent an emerging subset of seven transmembrane G protein-coupled receptors that mediate cell activation events by receptor cleavage at distinct scissile bonds located within receptor amino termini. Differential genomic blotting using a yeast artificial chromosome known to contain the PAR-1 and PAR-2 genes identified the PAR-3 gene within a PAR gene cluster spanning approximately 100 kilobases at 5q13. The PAR-3 gene is relatively small (approximately 12 kilobases); and, like the PAR-1 and PAR-2 genes, it displays a two-exon structure, with the majority of the coding sequence and the proteolytic cleavage site contained within the larger second exon. Sequence analysis of the 5'-flanking region demonstrates that the promoter is TATA-less, similar to that seen with PAR-1, with the identification of nucleic acid motifs potentially involved in transcriptional gene regulation, including AP-1, GATA, and octameric sequences. PAR-3 transcripts were apparent in human vascular endothelial cells, although at considerably lower levels than those of PAR-1 and not significantly modulated by the endothelial cell stimulus tumor necrosis factor-alpha. Likewise, although PAR-3 mRNA was evident in human platelets, receptor cell surface expression was modest (approximately 10%) compared with that of PAR-1. Thus, although PAR-3 is postulated to represent a second thrombin receptor, its modest endothelial cell and platelet expression suggest that PAR-3 activation by alpha-thrombin is less relevant for physiological responses in these mature cells. Rather, given its disparately greater expression in megakaryocytes (and megakaryocyte-like human erythroleukemia cells), a regulatory role in cellular development (by protease activation) could be postulated.
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PMID:The human proteinase-activated receptor-3 (PAR-3) gene. Identification within a Par gene cluster and characterization in vascular endothelial cells and platelets. 961 15

The serine protease, thrombin, is both a potent agonist for platelet aggregation and a mitogen inducing the proliferation of other cell types. Many cellular responses to thrombin are mediated by a G-protein-coupled thrombin receptor (protease-activated receptor-1, PAR-1). This represents the prototype of a new family of proteolytically cleaved receptors that includes PAR-2 and the recently identified PAR-3. Like PAR-1, PAR-3 is a potential thrombin receptor. Their similar gene structure, mechanism of activation, and colocalization to 5q13 raises the question of a common evolutionary origin and of their belonging to a clustered gene family. Construction of a physical map of the 5q13 region by pulsed-field gel electrophoresis (PFGE) has allowed us to identify six potential CpG islands and to establish a linkage of the PAR genes. Southern blot analysis showed that they were in a cluster on a 560-kb Asc I fragment, in the order PAR-2, PAR-1, and PAR-3. PAR-1 and PAR-2 genes were contained within the identical 240-kb Not I fragment, thus confirming a tight linkage between them. The localization of other CpG islands suggested that more PAR-family genes may be present.
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PMID:Protease-activated receptor genes are clustered on 5q13. 963 95

Protease-activated receptors (PARs) are a family of G protein-coupled receptors activated by a tethered ligand sequence within the amino terminal that are revealed by site-specific proteolysis. The thrombin-sensitive PAR-1 and trypsin-activated PAR-2 mediate endothelium-dependent vascular relaxation in a number of species. Because both thrombin and trypsin-like enzymes have been implicated in coronary artery disease, the purpose of this study was to investigate whether similar receptors are present in human coronary arteries. Thrombin (0.001 to 0.1 U/mL) and trypsin (0.001 to 1 U/mL) caused concentration- and endothelium-dependent relaxations of human coronary artery ring segments suspended in organ chambers for isometric tension recording and contracted with the thromboxane A2 mimetic U46619. These relaxations were dependent on the catalytic activity of each enzyme and were inhibited by the NO synthase inhibitor NG-nitro-L-arginine (100 micromol/L) and the NO scavenger oxyhemoglobin (20 micromol/L). The synthetic PAR-1 tethered ligand sequence SFLLRN-NH2 (0.01 to 10 micromol/L) also caused endothelium-dependent relaxation of U46619-contracted human coronary arteries; however, the equivalent PAR-2 ligand SLIGKV-NH2 caused almost no relaxation. In addition, desensitization to either thrombin or trypsin resulted in cross-desensitization to the other enzyme but had only a minimal affect on the response to SFLLRN-NH2. Therefore, we conclude that human coronary artery endothelial cells possess a PAR-1-like receptor that is potently activated by thrombin, trypsin, and SFLLRN-NH2 to cause NO-mediated vascular relaxation. Once cleaved, this receptor is recycled in a truncated form, able to respond to exogenous application of only its tethered ligand sequence, suggesting the presence of another endogenous activator possibly acting independently of receptor cleavage.
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PMID:Atypical protease-activated receptor mediates endothelium-dependent relaxation of human coronary arteries. 964 27

Protease activated receptors (PARs) compose a family of G protein signal transduction receptors activated by proteolysis. In this study, the susceptibility of PARs expressed on human keratinocytes and dermal fibroblasts to the human mast cell proteases tryptase and chymase was evaluated. PAR activation was measured by monitoring cytosolic [Ca2+] in cells loaded with the fluorescent Ca2+ probe Fura-2. Tryptase produced transient cytosolic Ca2+ mobilization in keratinocytes, but not in fibroblasts. Ca2+ mobilization in keratinocytes required enzymatically active tryptase, demonstrated desensitization, and was blocked by pretreatment of cells with the PAR-2 peptide agonist SLIGKV, trypsin, or the phospholipase inhibitor U73122. Heparin, a GAG that binds to tryptase, stabilizing its functional form, also inhibited tryptase-induced Ca2+ mobilization. The maximal response elicited by tryptase was smaller than that observed upon treatment of keratinocytes with trypsin, a known activator of PAR-2, and keratinocytes made refractory to tryptase by pretreatment with the protease remained responsive to trypsin. Pretreatment of keratinocytes with thrombin, an activator of PAR-1 and -3 (thrombin receptors), had no detectable effect on the tryptase or trypsin responses. These data suggest that in keratinocytes tryptase may be activating a subpopulation of PAR-2 receptors. Treatment of keratinocytes or fibroblasts with human chymase did not produce Ca2+ mobilization, nor did it affect Ca2+ mobilization produced by trypsin. However, chymase pretreatment of fibroblasts rapidly inhibited the ability of these cells to respond to thrombin. Inhibition was dependent on chymase enzymatic activity and was not significantly affected by the presence of heparin. This finding is consistent with studies indicating that PAR-1 may be susceptible to proteases with chymotrypsin-like specificity. These results suggest that the proteases tryptase and chymase secreted from mast cells in skin may affect the behavior of surrounding cells by the hydrolysis of PARs expressed by these cells.
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PMID:Reaction of mast cell proteases tryptase and chymase with protease activated receptors (PARs) on keratinocytes and fibroblasts. 964 24

The serine protease thrombin is formed at sites of coagulation and inflammation and has been shown to have important proinflammatory cellular effects relevant to the pathogenesis of periodontal disease. Thrombin acts via specific cell surface receptors termed protease-activated receptor-1 (PAR-1) and PAR-3, which have a distinctive method of activation. Proteolytic cleavage of the extracellular domain by thrombin reveals a hidden amino terminus which then acts as a "tethered ligand". A short synthetic peptide (SFLLRN) can also mimic the tethered ligand and activate PAR-1 but not PAR-3. Also, a trypsin-sensitive receptor termed PAR-2 has been described which is activated by the PAR-1 activating peptide SFLLRN. Here we show conclusively by flow cytometric and Northern blot analysis that human gingival fibroblasts (HGF) express PAR-1 but not PAR-2. In functional studies we also show that thrombin and SFLLRN stimulated increased expression of mRNA encoding nuclear transcription factor NF-IL-6 and IL-6 in vitro. At optimal concentrations, thrombin (10(-7) M) induced 7.6 +/- 0.01 ng/ml immunoactive IL-6 and PAR-1 activating peptide (5 x 10(-5) M) induced 2.2 +/- 0.2 ng/ml (mean +/- standard error of mean). A proteolytically inactive recombinant thrombin (serine 195 to alanine) was without activity. These data show that HGF express PAR-1 and suggest that PAR-1 activation stimulates increased NF-IL-6 and IL-6 gene expression and IL-6 secretion by HGF in vitro. Whether HGF express PAR-3 is unknown, but the fact that SFLLRN was not a complete replacement for thrombin raises the possibility that HGF may express additional thrombin receptors. These findings add weight to the importance of the cytokine-like role played by thrombin and raise the possibility that protease-activated receptors may play a role in the pathogenesis of inflammatory periodontal disease.
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PMID:Protease-activated receptors and their role in IL-6 and NF-IL-6 expression in human gingival fibroblasts. 968 16

Although serine proteases are usually considered to act principally as degradative enzymes, certain proteases are signaling molecules that specifically regulate cells by cleaving and triggering members of a new family of proteinase-activated receptors (PARs). There are three members of this family, PAR-1 and PAR-3, which are receptors for thrombin, and PAR-2, a receptor for trypsin and mast cell tryptase. Proteases cleave within the extracellular NH2-terminus of their receptors to expose a new NH2-terminus. Specific residues within this tethered ligand domain interact with extracellular domains of the cleaved receptor, resulting in activation. In common with many G protein-coupled receptors, PARs couple to multiple G proteins and thereby activate many parallel mechanisms of signal transduction. PARs are expressed in multiple tissues by a wide variety of cells, where they are involved in several pathophysiological processes, including growth and development, mitogenesis, and inflammation. Because the cleaved receptor is physically coupled to its agonist, efficient mechanisms exist to terminate signaling and prevent uncontrolled stimulation. These include cleavage of the tethered ligand, receptor phosphorylation and uncoupling from G proteins, and endocytosis and lysosomal degradation of activated receptors.
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PMID:Proteinase-activated receptors: novel mechanisms of signaling by serine proteases. 969 85

While there is evidence that thrombin receptor activation leads to contractile dysfunction and induces arrhythmias in ischemic/reperfused cardiac tissue, thrombin is variably reported to modulate intracellular calcium in cardiomyocytes. The present study demonstrates that thrombin receptor activation leads to a rise in intracellular calcium in adult ventricular myocytes and serves to reconcile previous discrepant findings. The thrombin receptor-derived agonist peptide (SFLLRN, a portion of the tethered ligand created by thrombin's proteolytic actions) increases cytosolic calcium and twitch amplitude in cardiomyocytes isolated from adult ventricles. The truncated control peptide FLLRN has no effect, establishing that the response to SFLLRN results from a specific agonist peptide-receptor interaction. However, the response to SFLLRN occurs only at high agonist peptide concentrations and thrombin itself is inactive. This result is not compatible with an action of SFLLRN at a distinct protease-activated receptor (PAR-2; which is activated by SFLLRN, but not by thrombin), since SLIGRL (a ligand which is selective for PAR-2, but not the thrombin receptor) has no effect. Rather, the enzyme-based cell isolation procedure may partially cleave the thrombin receptor and influence cell responses, since concentrations of SFLLRN which are sub-threshold in enzymatically disaggregated myocytes significantly increase the force of isometric contraction of intact rat papillary muscles. These studies provide the first evidence that thrombin receptor activation leads to a change in intracellular calcium and a positive inotropic response in adult ventricular myocardium.
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PMID:The thrombin receptor elevates intracellular calcium in adult rat ventricular myocytes. 992 57

A second protease-activated receptor (PAR-2) that could be activated by trypsin or more physiologically by mast cell tryptase has been recently cloned. Both the structure and activation mechanism of PAR-2 was similar to the functional thrombin receptor (PAR-1). Although many effects of the coagulation protease thrombin on the vascular endothelium could be attributed to PAR-1 activation, very little is known about the physiological and pathophysiological role of PAR-2. We investigated whether stimulation of PAR-2 on endothelial cells induced two cellular responses that play a central role in primary and secondary haemostasis: the release of high molecular weight von Willebrand factor (hmw-VWF) from Weibel-Palade bodies and the de novo synthesis of tissue factor (TF) mRNA and protein. Human umbilical vein endothelial cells (HUVEC) were incubated with agonists for PAR-2 at 37 degrees C. Both trypsin and SLIGKV increased TF mRNA and activity and induced the release of hmw-VWF due to elevated levels of cytosolic Ca2+. Trypsin (10 nm) induced a 6-fold increase of TF mRNA and reduced time until fibrin clot formation to 37%, indicating trebling of the cell surface located TF activity. Stimulation of HUVEC with the PAR-2 agonist peptide SLIGKV induced a dose-dependent increase of TF mRNA up to 6 times and TF activity up to 3 times. Release of hmw-VWF was achieved both after incubation of HUVEC with trypsin and SLIGKV and was directly depending on intracellular Ca2+ mobilization. To make results comparable to the functional thrombin receptor, homologous experiments were carried out using the PAR-1 agonists thrombin and SFLLRN.
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PMID:Endothelial protease-activated receptor-2 induces tissue factor expression and von Willebrand factor release. 1023 35

1. Proteases regulate cells by cleaving proteinase-activated receptors (PARs). Thrombin and trypsin cleave PAR-1 and PAR-2 on neurons and astrocytes of the brain to regulate morphology, growth and survival. We hypothesized that thrombin and mast cell tryptase, which are generated and released during trauma and inflammation, regulate enteric neurons by cleaving PAR-1 and PAR-2. 2. We detected immunoreactive PAR-1 and PAR-2 in > 60 % of neurons from the myenteric plexus of guinea-pig small intestine in primary culture. A large proportion of neurons that expressed substance P, vasoactive intestinal peptide or nitric oxide synthase also expressed PAR-1 and PAR-2. We confirmed expression of PAR-1 and PAR-2 in the myenteric plexus by RT-PCR using primers based on sequences of cloned guinea-pig receptors. 3. Thrombin, trypsin, tryptase, a filtrate from degranulated mast cells, and peptides corresponding to the tethered ligand domains of PAR-1 and PAR-2 increased [Ca2+]i in > 50 % of cultured myenteric neurons. Approximately 60 % of neurons that responded to PAR-1 agonists responded to PAR-2 agonists, and > 90 % of PAR-1 and PAR-2 responsive neurons responded to ATP. 4. These results indicate that a large proportion of myenteric neurons that express excitatory and inhibitory neurotransmitters and purinoceptors also express PAR-1 and PAR-2. Thrombin and tryptase may excite myenteric neurons during trauma and inflammation when prothrombin is activated and mast cells degranulate. This novel action of serine proteases probably contributes to abnormal neurotransmission and motility in the inflamed intestine.
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PMID:Thrombin and mast cell tryptase regulate guinea-pig myenteric neurons through proteinase-activated receptors-1 and -2. 1035 15

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