EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the ability of protease-activated receptor-1 (PAR-1), PAR-2, PAR-3 and PAR-4 agonists to induce contractile responses in isolated guinea-pig gallbladder. Thrombin, trypsin, mouse PAR-1 activating (SFLLRN-NH(2)) peptide, and mouse PAR-2 activating (SLIGRL-NH(2)) and human PAR-2 activating (SLIGKV-NH(2)) peptides produced a concentration-dependent contractile response. Mouse PAR-4 activating (GYPGKF-NH(2)) peptide, the mouse PAR-1 reverse (NRLLFS-NH(2)) peptide, the mouse PAR-2 reverse (LRGILS-NH(2)) and human PAR-2 reverse (VKGILS-NH(2)) peptides caused negligible contractile responses at the highest concentrations tested. An additive effect was observed following the contractile response induced by either trypsin or thrombin, with the addition of a different PAR agonist (SFLLRN-NH(2) and SLIGRL-NH(2), respectively). Desensitization to PAR-2 activating peptide attenuated the response to trypsin but failed to attenuate the response to PAR-1 agonists, and conversely desensitization to PAR-1 attenuated the response to thrombin but failed to alter contractile responses to PAR-2 agonists. The contractile responses produced by thrombin, trypsin, SFLLRN-NH(2) and SLIGRL-NH(2) were markedly reduced in the presence of the cyclo-oxygenase inhibitor, indomethacin, whilst the small contractile response produced by NRLLFS-NH(2) and LRGILS-NH(2) were insensitive to indomethacin. The contractile responses to thrombin, trypsin, SFLLRN-NH(2) and SLIGRL-NH(2) were unaffected by the presence of: the non-selective muscarinic antagonist, atropine; the nitric oxide synthase inhibitor, L-NAME; the sodium channel blocker, tetrodotoxin; the combination of selective tachykinin NK(1) and NK(2) receptor antagonists, (S)-1-[2-[3-(3,4-dichlorphenyl)-1 (3-isopropoxyphenylacetyl) piperidin-3-yl] ethyl]-4-phenyl-1 azaniabicyclo [2.2.2] octane chloride (SR140333) and (S)-N-methyl-N-[4-acetylamino-4-phenylpiperidino-2-(3, 4-dichlorophenyl)-butyl] benzamide (SR48968), respectively. The results indicate that PAR-1 and PAR-2 activation causes contractile responses in the guinea-pig gallbladder, an effect that is mediated principally by prostanoid release, and is independent of neural mechanisms.
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PMID:Evidence that PAR-1 and PAR-2 mediate prostanoid-dependent contraction in isolated guinea-pig gallbladder. 1103 Jul 17

Proteinase-activated receptors are a recently described, novel family of seven-transmembrane G-protein-coupled receptors. Rather then being stimulated through ligand receptor occupancy, activation is initiated by cleavage of the N terminus of the receptor by a serine protease resulting in the generation of a new tethered ligand that interacts with the receptor within extracellular loop-2. To date, four proteinase-activated receptors (PARs) have been identified, with distinct N-terminal cleavage sites and tethered ligand pharmacology. In addition to the progress in the generation of PAR-1 antagonists, we describe the role of thrombin in such processes as wound healing and the evidence implicating PAR-1 in vascular disorders and cancer. We also identify advances in the understanding of PAR-1-mediated intracellular signaling and receptor desensitization. The cellular functions, signaling events, and desensitization processes involved in PAR-2 activation are also assessed. However, other major aspects of PAR-2 are highlighted, in particular the ability of several serine protease enzymes, in addition to trypsin, to function as activators of PAR-2. The likely physiological and pathophysiological roles for PAR-2 in skin, intestine, blood vessels, and the peripheral nervous system are considered in the context of PAR-2 activation by multiple serine proteases. The recent discovery of PAR-3 and PAR-4 as additional thrombin-sensitive PARs further highlights the complexity in assessing the effects of thrombin in several different systems, an issue that remains to be fully addressed. These discoveries have also highlighted possible PAR-PAR interactions at both functional and molecular levels. The future identification of other PARs and their modes of activation are an important future direction for this expanding field of study.
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PMID:Proteinase-activated receptors. 1135 85

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

Protease-activated receptors (PARs) mediate cell activation after proteolytic cleavage of their extracellular amino terminus. We have reported earlier that primary cultures of rat brain capillary endothelial (RBCE) cells express at least two receptors for thrombin: PAR-1 and PAR-3. In the present study we show that PAR-2 activation by trypsin or by the PAR-2 agonist peptide (SLIGRL) evokes [Ca(2+) ](i) signal in RBCE cells. Taking advantage of RBCE cells expressing PAR-1 and PAR-2, we show that trypsin activates both receptors. The relative agonist activity of trypsin and thrombin on PARs of RBCE cells compared with that of SLIGRL were 112% and 48%, respectively, whereas the potency of trypsin was 10(5) -fold higher than that of SLIGRL. Because under pathological conditions other proteases such as plasmin or leukocyte elastase may reach the cells of the blood-brain barrier, we investigated the effect of these proteases on RBCE cells. Elastase evoked a small increase in [Ca(2+) ](i) but preincubation of cells with elastase dose-dependently reduced the trypsin-induced [Ca(2+) ](i) signal. Plasmin had a 30% inhibitory effect on the trypsin-induced response, and reduced the SLIGRL signal by 20%. It is concluded that PAR-2 is functional in brain capillary endothelium, and that the main fibrinolytic proteases, plasmin and elastase, may regulate PAR-2 signalling under pathological conditions.
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PMID:Protease-activated receptor-2 (PAR-2) in brain microvascular endothelium and its regulation by plasmin and elastase. 1194 37

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

Proteinase 3 (PR3), a 29-kDa serine proteinase secreted from activated neutrophils, also exists in a membrane-bound form, and is suggested to actively contribute to inflammatory processes. The present study focused on the mechanism by which PR3 activates human oral epithelial cells. PR3 activated the epithelial cells in culture to produce IL-8 and monocyte chemoattractant protein-1 and to express ICAM-1 in a dose- and time-dependent manner. Incubation of the epithelial cells for 24 h with PR3 resulted in a significant increase in the adhesion to neutrophils, which was reduced to baseline levels in the presence of anti-ICAM-1 mAb. Activation of the epithelial cells by PR3 was inhibited by serine proteinase inhibitors and serum. The epithelial cells strongly express protease-activated receptor (PAR)-1 and PAR-2 mRNA and weakly express PAR-3 mRNA. The expression of PAR-2 on the cell surface was promoted by PR3, and inhibited by cytochalasin B, but not by cycloheximide. PR3 cleaved the peptide corresponding to the N terminus of PAR-2 with exposure of its tethered ligand. Treatment with trypsin, an agonist for PAR-2, and a synthetic PAR-2 agonist peptide induced intracellular Ca(2+) mobilization, and rendered cells refractory to subsequent stimulation with PR3 and vice versa. The production of cytokine induced by PR3 and the PAR-2 agonist peptide was completely abolished by a phospholipase C inhibitor. These findings suggest that neutrophil PR3 activates oral epithelial cells through G protein-coupled PAR-2 and actively participates in the process of inflammation such as periodontitis.
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PMID:Activation of human oral epithelial cells by neutrophil proteinase 3 through protease-activated receptor-2. 2030 33

Inflammation underlines all major bladder pathologies and represents a defense reaction to injury involving a mandatory participation of mast cells and sensory nerves. Mast cells are particularly frequent in close proximity to epithelial surfaces where they are strategically located in the bladder and release their mediators in response to inflammation. Tryptase is specifically produced by mast cells and modulates inflammation by activating protease-activated receptors (PARs). We recently found that PAR-4 mRNA is up-regulated in experimental bladder inflammation regardless of the initiating stimulus. Because it has been reported that PAR-1, PAR-2, and PAR-3 may also be involved in the processes of inflammation, we used immunohistochemistry to characterize the expression of all known PARs in normal, acute, and chronic inflamed mouse bladder. We found that all four PARs are present in the control mouse bladder, and follow a unique distribution. All four PARs are co-expressed in the urothelium, whereas PAR-1 and PAR-2 are predominant in the detrusor muscle, and PAR-4 is expressed in peripheral nerves and plexus cell bodies. The strong expression of PARs in the detrusor muscle indicates the need for studies on the role of these receptors in motility whereas the presence of PAR-4 in nerves may indicate its participation in neurogenic inflammation. In addition, PARs are differentially modulated during inflammation. PAR-1 and PAR-2 are down-regulated in acute inflammation whereas PAR-3 and PAR-4 are up-regulated. Bladder fibroblasts were found to present a clear demarcation in PAR expression secondary to acute and chronic inflammation. Our findings provide evidence of participation of PARs in the urinary system, provide a working model for mast cell tryptase signaling in the mouse bladder, and evoke testable hypotheses regarding the roles of PARs in bladder inflammation. It is timely to understand the role of tryptase signaling and PARs in the context of bladder biology.
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PMID:Expression of protease-activated receptor-1, -2, -3, and -4 in control and experimentally inflamed mouse bladder. 1259 24

Protease-activated receptors (PARs) mediate cellular responses to a variety of extracellular proteases. The four known PARs constitute a subgroup of the family of seven-transmembrane domain G protein-coupled receptors and activate intracellular signalling pathways typical for this family of receptors. Activation of PARs involves proteolytic cleavage of the extracellular domain, resulting in formation of a new N terminus, which acts as a tethered ligand. PAR-1, -3, and -4 are relatively selective for activation by thrombin whereas PAR-2 is activated by a variety of proteases, including trypsin and tryptase. Recent studies in mice genetically incapable of expressing specific PARs have defined roles for PAR-1 in vascular development, and for PAR-3 and -4 in platelet activation, which plays a fundamental role in blood coagulation. PAR-1 has also been implicated in a variety of other biological processes including inflammation, and brain and muscle development. Responses mediated by PAR-2 include contraction of intestinal smooth muscle, epithelium-dependent smooth muscle relaxation in the airways and vasculature, and potentiation of inflammatory responses. The area of PAR research is rapidly expanding our understanding of how cells communicate and control biological functions, in turn increasing our knowledge of disease processes and providing potential targets for therapeutic intervention.
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PMID:Protease-activated receptors: a means of converting extracellular proteolysis into intracellular signals. 1262 64

Thrombin results from the activation of the blood coagulation system. It is a multifunctional protein that has, besides its function in hemostasis and thrombosis, several cellular effects that link the coagulation system with the inflammatory response. Many years of investigations were necessary for the discovery of the first functional thrombin receptor, which was found to have a unique mechanism of activation. The receptor was named protease-activated receptor 1 (PAR-1) because proteolysis is necessary for its activation. Subsequent studies led to the identification of the other PARs, PAR-2, PAR-3, and PAR-4. PAR-2 is activated by trypsin, tryptase, factor Xa, or factor VIIa, but it cannot be activated by thrombin, PAR-3 and PAR-4 can also be activated by thrombin. Activation of PARs by protease involves proteolytic cleavage and unmasking of an amino-terminal receptor sequence, which acts as a tethered ligand by binding to the second extracellular loop of the receptor to initiate transmembrane signaling. Sequence analysis has shown that all PARs are members of the 7-transmembrane domain receptor superfamily. Expression of PARs has been detected in most tissues and in numerous cells, and thus these molecules have been implicated in several physiological processes and in the pathogenesis of several diseases.
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PMID:Progress in the understanding of protease-activated receptors. 1500 37

Protease-activated receptors (PARs) are a group of four members of the superfamily of G protein-coupled receptors that transduce cell signaling by proteolytic activity of extracellular serine proteases, such as thrombin. Possible expression and functions of PARs in oligodendrocytes, the myelin forming cells of the CNS, are still unclear. Here, the oligodendrocyte cell line OLN-93 was used to investigate the signaling of PARs. By reverse transcription-polymerase chain reaction (RT-PCR), immunostaining and Ca(2+) imaging studies, we demonstrate that OLN-93 cells functionally express PAR-1. PAR-3 seems to be expressed without apparent activity, and PAR-2 and PAR-4 cannot be detected. Short-term stimulation of the OLN-93 cells with PAR-1 agonists, such as thrombin, trypsin and PAR-1 activating peptide, dose-dependently induced a transient rise of [Ca(2+)](i). Concentration-effect curves display a sigmoidal concentration dependence. Elevation of [Ca(2+)](i) induced by PAR-1 mainly resulted from Ca(2+) release from intracellular stores. Studies on the effects of pertussis toxin (PTX), phospholipase C antagonist and 2-APB, showed that in OLN-93 cells (i). the calcium signaling cascade from PAR-1 was mediated through PTX-insensitive G proteins, (ii). activation of phospholipase C and liberation of InsP(3) were events upstream of the Ca(2+) release from the stores. In addition, the present study analyzed PAR-1 desensitization caused by exposure to thrombin, trypsin, and PAR-1 activating peptide, elucidated the influence of the protease cathepsin G on PAR-1 activation, and also characterized PAR-1 desensitization. This is the first study, which shows that OLN-93 oligodendrocytes functionally express PAR-1, and identifies the receptor coupling to mobilization of intracellular calcium. Moreover, the expression of PAR-1 was demonstrated by RT-PCR in primary oligodendrocytes from rat brain.
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PMID:Expression of protease-activated receptors (PARs) in OLN-93 oligodendroglial cells and mechanism of PAR-1-induced calcium signaling. 1514 74

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