EC:3.4.21.5 - FACTA Search

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)

Trypsin and mast cell tryptase cleave proteinase-activated receptor 2 (PAR2) to induce alterations in contraction of airway smooth muscle that have been implicated in asthma in experimental animals. Although tryptase inhibitors are under development for treatment of asthma, little is known about the localization and function of PAR2 in human airways. We detected PAR2 expression in primary cultures of human airway smooth muscle cells using reverse transcriptase/polymerase chain reaction (RT-PCR) and immunofluorescence. The PAR2 agonists trypsin, tryptase, and an activating peptide (SLIGKV-NH2) stimulated calcium mobilization in these cells. PAR2 agonists strongly desensitized responses to a second challenge of trypsin and SLIGKV-NH2, but not to thrombin, indicating that they activate a receptor distinct from the thrombin receptors. Immunoreactive PAR2 was detected in smooth muscle, epithelium, glands, and endothelium of human bronchi. Trypsin, SLIGKV-NH2, and tryptase stimulated contraction of isolated human bronchi. Contraction was increased by removal of the epithelium and diminished by indomethacin. Thus, PAR2 is expressed by human bronchial smooth muscle where its activation mobilizes intracellular Ca2+ and induces contraction. These results are consistent with the hypothesis that PAR2 agonists, including tryptase, induce bronchoconstriction of human airway by stimulating smooth muscle contraction. PAR2 antagonists may be useful drugs to prevent bronchoconstriction.
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PMID:Expression and function of proteinase-activated receptor 2 in human bronchial smooth muscle. 1167 22

Protease-activated receptors (PARs) are newly identified members of the superfamily of G-protein-coupled receptors that initiate cell signaling by the proteolytic activity of extracellular serine proteases. Certain proteases are believed to be involved in development and repair processes and most likely regulate multiple functions of the CNS by activating PARs. Three members of this family (PAR-1, PAR-3, and PAR-4) are considered thrombin receptors, whereas PAR-2 is activated by trypsin. In the present study, using reverse transcription-polymerase chain reaction (RT-PCR), immunocytochemistry, and Ca(2+) mobilization studies, we demonstrate that PAR-1, PAR-2, PAR-3, and PAR-4 are functionally co-expressed in cultured rat astrocytes. Short-term stimulation of astrocytes with thrombin, trypsin, and peptides corresponding to the tethered ligand domains of PAR-1, PAR-2, PAR-3, and PAR-4 induced a transient rise of [Ca(2+)](i) in cultured astrocytes. In studying calcium signaling, based on receptor desensitization, and using an antagonist of thrombin receptor PAR-1, we provide evidence that the thrombin-induced [Ca(2+)](i) response in astrocytes in addition to PAR-1 stimulation, involves also stimulation of PAR-3 and PAR-4. Trypsin, in addition to PAR-2, can also activate PAR-1 and PAR-4. Furthermore we find that activation of PAR-1, and PAR-2 induces proliferation of astrocytes while PAR-4 activation exerts toxic effects. This study is the first to show that (1) cultured astrocytes functionally express PAR-3 and PAR-4 together with PAR-1 and PAR-2; (2) PAR-3-activating peptide (TFRGAP) is effective in eliciting Ca(2+) signaling; and (3) activation of different PARs leads to distinct downstream effects.
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PMID:Four subtypes of protease-activated receptors, co-expressed in rat astrocytes, evoke different physiological signaling. 1174 83

Trypsin activates proteinase-activated receptor-2 (PAR(2)) by a mechanism that involves the release of a tethered receptor-activating sequence. We have identified two peptides, FSLLRY-NH(2) (FSY-NH(2)) and LSIGRL-NH(2) (LS-NH(2)) that block the ability of trypsin to activate PAR(2) either in PAR(2)-expressing Kirsten virus-transformed kidney (KNRK) cell lines or in a rat aorta ring preparation. The reverse PAR(2) peptide, LRGILS-NH(2) (LRG-NH(2)) did not do so and FSY-NH(2) failed to block thrombin activation of PAR(1) in the aorta ring or in PAR(1)-expressing human embryonic kidney cells. Half-maximal inhibition (IC(50)) by FSY-NH(2) and LS-NH(2) of the activation of PAR(2) by trypsin in a PAR(2) KNRK calcium-signaling assay was observed at about 50 and 200 microM, respectively. In contrast, the activation of PAR(2) by the PAR(2)-activating peptide, SLIGRL-NH(2) (SL-NH(2)) was not inhibited by FSY-NH(2), LS-NH(2), or LRG-NH(2). In a casein proteolysis assay, neither FSY-NH(2) nor LS-NH(2) inhibited the proteolytic action of trypsin on its substrate. In addition, FSY-NH(2) and LS-NH(2) were unable to prevent trypsin from hydrolyzing a 20-amino acid peptide, GPNSKGR/SLIGRLDTPYGGC representing the trypsin cleavage/activation site of rat PAR(2). Similarly, FSY-NH(2) and LS-NH(2) failed to block the ability of trypsin to release the PAR(2) N-terminal epitope that is cleaved from the receptor upon proteolytic activation of receptor-expressing KNRK cells. We conclude that the peptides FSY-NH(2) and LS-NH(2) block the ability of trypsin to activate PAR(2) by a mechanism that does not involve a simple inhibition of trypsin proteolytic activity, but possibly by interacting with a tethered ligand receptor-docking site.
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PMID:Modified proteinase-activated receptor-1 and -2 derived peptides inhibit proteinase-activated receptor-2 activation by trypsin. 1180 36

The protease-activated receptor-2 (PAR-2), a G protein-coupled receptor activated by trypsin, contributes to the pathogenesis of inflammatory disease including asthma. Here, we examined the mechanisms by which stimulation of PAR-2 induces an increase in intracellular Ca2+ concentration ([Ca2+]i) in guinea pig tracheal epithelial cells. Trypsin (0.01-3 units/ml) dose-dependently induced a transient increase in [Ca2+]i, the increase being blocked by soybean trypsin inhibitor (SBTI 1 microM). An increase in [Ca2+]i was also induced by an agonist peptide for PAR-2 (SLIGRL-NH2, 0.001-10 microM) but not by thrombin (3 units/ml, an activator for PAR-1, PAR-3 or PAR-4). Repeated or cross stimulation of trypsin or SLIGRL-NH2 caused marked desensitization of the [Ca2+]i response. These responses of [Ca2+]i to trypsin and SLIGRL-NH2 were attenuated by a phospholipase C inhibitor, U-73122, and a Ca2+-ATPase inhibitor, thapsigargin (100 nM), while removal of Ca2+ and a L-type Ca2+-channel blocker, verapamil, were without significant effects. Further, trypsin was without effect on the rate of fura 2 quenching by Mn2+ entry as an indicator of Ca2+ influx. Thus, stimulation of PAR-2 appears to increase [Ca2+]i through the mobilization of Ca2+ from intracellular stores probably via phospholipase Cbeta-linked generation of a second messenger.
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PMID:Protease-activated receptor-2-mediated Ca2+ signaling in guinea pig tracheal epithelial cells. 1205 39

Two unusual features of the TSH receptor (TSHR) ectodomain are its intramolecular cleavage at the cell surface into disulfide-linked subunits and its constraint of ligand-independent (constitutive) activity inherent to the serpentine region. Whether ectodomain cleavage alters the level of TSHR constitutive activity is an important unanswered question. To address this issue, we used a TSHR engineered so as not to undergo spontaneous cleavage into subunits (deletion of amino acid residues 317-366 and GQE(367-369)NET substitution). Into this noncleaving TSHR (termed TSHR-D1-NET), we introduced thrombin recognition motifs (termed Thr 6 and Thr 18) at the site of spontaneous cleavage. Treatment of intact Chinese hamster ovary cells expressing TSHR-D1-NET-Thr 6 and -Thr 18 with thrombin induced cleavage into A and B subunits, as determined by (125)I-TSH covalent cross-linking. Nevertheless, constitutive activity of the thrombin-cleaved TSHR was unaltered. The level of TSHR constitutive activity was, therefore, fully dissociated from intramolecular cleavage into subunits. Trypsin treatment of the same cells expressing the noncleaving TSHR also generated disulfide-linked A and B subunits but, in contrast to thrombin, enhanced TSHR constitutive activity. Therefore, the activating effect of trypsin appears to involve clipping at an additional, as-yet unidentified, site. In summary, our data demonstrate that TSHR cleavage is, by itself, insufficient to reduce TSHR ectodomain constraint on ligand-independent constitutive activity. These data are consistent with other evidence that A subunit shedding consequent to TSHR cleavage is a critical factor in enhancing TSHR constitutive activity.
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PMID:Targeted restoration of cleavage in a noncleaving thyrotropin receptor demonstrates that cleavage is insufficient to enhance ligand-independent activity. 1263 15

1. The in vitro motor function of protease-activated recepter-1 (PAR-1), PAR-2 and PAR-4 and the presence by immunohistochemistry of PAR-1 in the human renal artery have been investigated. 2. Thrombin and the human PAR-1 (SFLLRN-NH(2)) activating peptide, but not the PAR-1 reverse peptide (NRLLFS-NH(2)), contracted both endothelial-intact and endothelial-denuded human renal artery strips, whereas no relaxation was observed either in strips non-precontracted or precontracted with phenylephrine. Maximum contraction by thrombin or SFLLRN-NH(2) was about 60% of phenylephrine. However, thrombin was approximately 1000-fold more potent than SFLLRN-NH(2). 3. PAR-1 desensitisation, using repeated applications of SFLLRN-NH(2), almost completely blocked the response to thrombin. The contractile effect produced by thrombin and SFLLRN-NH(2) was not affected by nitric oxide synthase inhibition, but was significantly reduced by cyclooxygenase blockade. 4. Trypsin, the PAR-2 (SLIGKV-NH(2) and SLIGRL-NH(2)) and PAR-4 (GYPGQV-NH(2) and AYPGKF-NH(2)) activating peptides did not produce any significant contraction or relaxation. 5. In agreement with the motor function data immunohistochemistry showed specific staining patterns for PAR-1 in the human renal artery. 6. Combined, these studies would suggest a possible role for PAR-1 in renal vascular homeostasis.
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PMID:Proteinase-activated receptor-1 (PAR-1) activation contracts the isolated human renal artery in vitro. 1274 19

Functions of thrombin as a modulator of inflammation and tissue repair are mediated by the proteinase-activated receptor (PAR) family. Some of these effects may be induced by activation of mast cells. To characterize the degranulation of rat peritoneal mast cells in response to PAR agonists, the effects of thrombin, trypsin and peptide agonists of PARs (PAR-AP, proteinase-activated receptor-activating peptides) on secretion were investigated. The release of beta-hexosaminidase by thrombin (0.01-1 microM) was concentration-dependent and mediated via PAR(1), as evidenced by cathepsin G (100 microM)-induced inactivation of PAR(1) and thrombin-stimulated PAR(1) desensitization. Trypsin (1 microM) accelerated histamine secretion. The PAR(1)-AP, TRAP (SFFLRN, 1-100 microM) and the PAR(2)-AP SLIGRL (5-100 microM) caused the release of histamine, and beta-hexosaminidase from inflammatory mast cells were obtained from a model of acute peritonitis in rats. Relative to the response to compound 48/80, the thrombin- and TRAP-induced release of beta-hexosaminidase was higher in inflammatory mast cells than in the control. This suggests that additional exposure of PAR(1) on mast cells to PAR agonists or an increase in PARs sensitivity to PAR agonists probably occurred during acute inflammation.
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PMID:Activation of mast cells induced by agonists of proteinase-activated receptors under normal conditions and during acute inflammation in rats. 1281 2

Eosinophil recruitment to airway tissue is a key feature of asthma, and release of a wide variety of toxic mediators from eosinophils leads to the tissue damage that is a hallmark of asthma pathology. Factors that control the release of these toxic mediators are targets for potential therapeutic intervention. Protease-activated receptors (PARs) are a novel class of receptors that are activated by cleavage of the N terminus of the receptor by proteases such as thrombin or trypsin-like enzymes. To date, PAR1-4 have been identified, and there are several studies that have demonstrated the expression of PARs in airway tissue, particularly the respiratory epithelium. We have investigated whether eosinophils express PARs and if activation of these receptors will then trigger a functional response. Using a combination of reverse transcriptase-polymerase chain reaction, Western blotting, and flow cytometry analysis, we have demonstrated that eosinophils express PAR1 and PAR2. FACS analysis showed that PAR1 could be clearly detected on the surface of the cells, whereas PAR2 appeared to be primarily intracellular. Trypsin and the PAR2 agonist peptide were seen in trigger shape change, release of cysteinyl leukotrienes, and most obviously, generation of reactive oxygen species. In contrast, thrombin had no effect on eosinophil function. The PAR1 agonist peptide did have a minor effect on eosinophil function, but this was most likely down to its ability to activate PAR1 and PAR2. These results demonstrate that PAR2 is the major PAR receptor that is capable of modulating eosinophil function.
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PMID:Expression of and functional responses to protease-activated receptors on human eosinophils. 1283 43

To elucidate the roles of serine proteases, including thrombin, in HIV infection, we treated H9 cells infected with HIV-1 LAI virus (H9/IIIB) with four different proteases (thrombin, cathepsin G, trypsin and chymotrypsin) and observed their effects on functional epitopes on both gp120 and gp41 by using flow cytometry. Monoclonal antibodies (MAbs) against the V3 loop, V2 loop, CD4 binding site, coreceptor binding site and gp41 were used. It was found that trypsin decreased the binding of all MAbs except for one MAb against the V3 loop (IIIB-V3-21). Chymotrypsin and cathepsin G did not show any remarkable effect on the antigen expression. On the other hand, thrombin decreased the reactivities of two out of four anti-V3 MAbs and increased the exposure of functional gp120 epitopes including the coreceptor binding site and CD4 binding site. Thrombin also increased the expression of 2F5 antigen (a neutralizing epitope of gp41) but had no effect on other gp41 epitopes. The effect of trypsin or thrombin on HIV-induced cell fusion was examined through co-culturing H9/IIIB and MAGI cells. Trypsin slightly inhibited fusion. Fusion was significantly enhanced in a dose-dependent manner by thrombin, and a 280% increase at 5 U/ml (P < 0.001) was observed. In conclusion, thrombin, one of the major inflammatory molecules in blood, facilitates HIV-induced cell fusion, probably by activating gp120.
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PMID:Thrombin activates envelope glycoproteins of HIV type 1 and enhances fusion. 1510 55

Proteolysis plays an important role in inactivating protease-activated receptor-1 (PAR1). We aimed to determine the cleavage site(s) responsive for the proteolytic inactivation of PAR1 in human umbilical vein endothelial cells. Fura-2 fluorometry revealed that the preceding stimulation with trypsin abolished the subsequent [Ca(2+)](i) response to thrombin, while the responses to PAR1-activating peptides remained intact. On the other hand, thrombin had no effect on the subsequent response to trypsin. The immunostaining with antibodies against the residues 35-46 (SPAN12) and 51-64 (WEDE15) revealed the broad boundaries of cleavage. Trypsin removed both epitopes from the cell surface within 3 min, while thrombin removed the epitope of SPAN12. The longer incubation with thrombin removed the epitope of WEDE15. However, PAR1-activating peptides thereafter induced an attenuated but significant elevation of [Ca(2+)](i). Not only the receptor internalization as observed with a confocal microscope, but also an additional cleavage was thus suggested to contribute to the thrombin-induced removal of the epitope of WEDE15. The analyses of the PAR1 mutants identified three cleavage sites for trypsin; residues 41-42, 70-71 and 82-83. The cleavage at the latter two sites was suggested to dominate that at the former, and thus remove the ligand region (residues 42-47). The inactivation of PAR1 due to proteolytic removal of the ligand region may contribute not only to the inactivation of PAR1 by proteases such as trypsin, but also to the termination of the intracellular signaling initiated by thrombin in the vascular endothelial cells.
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PMID:Inactivation of protease-activated receptor-1 by proteolytic removal of the ligand region in vascular endothelial cells. 1518 14

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