EC:3.4.21.4 - FACTA Search

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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)

The protease-activated receptor-2 (PAR-2) is a seven transmembrane domain receptor related to the thrombin receptor, which is activated in vitro by cleavage by trypsin. Affinity-purified rabbit IgG raised against a peptide corresponding to the trypsin cleavage site of PAR-2 was used for an immunohistochemical study of skin. The expression of PAR-2 in epidermis was striking, with keratinocytes showing abundant intercellular and cytoplasmic staining. Basal cells showed the strongest staining intensity and the stratum corneum was negative. Staining with control IgG used at the same concentration was consistently negative. The functional expression of PAR-2 by the simian virus transformed human skin keratinocyte cell line SVK14 was demonstrated by Northern blot analysis, flow cytometric analysis and the measurement of intracellular calcium. Treatment of SVK14 with trypsin or a receptor agonist peptide (SLIGKV-NH2) caused a dose-dependent increase in the secretion of the chemokine interleukin-8 (IL-8) in vitro. The effect of the peptide was specific, since control acetylated peptide was without activity. We conclude that PAR-2 is highly expressed by epidermal keratinocytes and receptor activation in vitro leads to increased IL-8 secretion by keratinocytes. These data raise the possibility that PAR-2 may play a role in epidermal homeostasis and inflammatory conditions.
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PMID:Immunolocalization of protease-activated receptor-2 in skin: receptor activation stimulates interleukin-8 secretion by keratinocytes in vitro. 976 17

Protease-activated receptors (PARs) are receptors which require proteolytic cleavage to be self-activated by newly exposed N-terminal 'tethered ligands', and hence serve as sensors for protelytic enzymes. While both the thrombin receptor (PAR-1) and PAR-2 (activated by tryptic enzymes) have been shown to mediate endothelium-dependent vasorelaxation, only PAR-1 has been shown to cause direct vascular smooth muscle contraction. In this study, we report that trypsin and the PAR-2 selective peptide ligand SLIGRL-NH2 not only caused endothelium-dependent relaxation of mouse renal arteries but also direct smooth muscle contraction if endothelial nitric oxide synthase was inhibited or if the endothelium was removed.
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PMID:Endothelium-dependent and -independent responses to protease-activated receptor-2 (PAR-2) activation in mouse isolated renal arteries. 983 89

In the nervous system serine proteases, like thrombin, are involved in developmental and repair processes, but serve also as extracellular signalling molecules, acting via protease-activated receptors. Cellular responses of glial cells to thrombin are transduced by proteolytic activation of the G protein-coupled thrombin receptor. A second member of the protease-activated receptor family, protease-activated receptor-2, is activated by trypsin. We assessed whether glial cells express protease-activated receptor-2 together with the thrombin receptor. By reverse transcriptase polymerase chain reaction and Ca2+ imaging studies we demonstrate that rat astrocytes and C6 glioma cells functionally express protease-activated receptor-2. Short-term stimulation of the glial cells with thrombin, thrombin receptor agonist peptide, trypsin and protease-activated receptor-2 activating peptide dose-dependently induced a transient rise of [Ca2+]i. In astrocytes omission of extracellular Ca2+ attenuated the amplitude of the [Ca2+]i transient induced by protease-activated receptor-stimulation. The decrease was strongest for the trypsin-evoked response and a reduction comparable in size (40%) was observed by pre-treatment with pertussis toxin. In astrocytes concentration-effect curves reveal that (i) the proteases had a higher potency than the respective receptor-activating peptides to induce a Ca2+ response, (ii) proteolytic activation of the receptors by thrombin or trypsin resulted in a double-sigmoidal concentration-effect curve, whereas non-proteolytic activation by receptor activating peptides resulted in a sigmoidal concentration dependence, and (iii) trypsin evoked a significantly greater Ca2+ response than thrombin. Preceding stimulation with trypsin nearly abolished the subsequent response to thrombin, whereas the trypsin-evoked Ca2+ transient was only slightly attenuated after a prior challenge with thrombin. This is the first study to show that neural cells (glial cells) functionally express both thrombin receptor and protease-activated receptor-2 coupled to the mobilization of intracellular calcium. Since calcium is the premier second messenger mediating adaptive changes within the CNS, these findings emphasize an important physiological function of serine proteases in mammalian brain.
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PMID:Co-existence of two types of [Ca2+]i-inducing protease-activated receptors (PAR-1 and PAR-2) in rat astrocytes and C6 glioma cells. 988 72

The thrombin receptor PAR1 is activated when thrombin cleaves the receptor's amino-terminal exodomain to reveal the new N-terminal sequence SFLLRN which then acts as a tethered peptide ligand. Free SFLLRN activates PAR1 independent of receptor cleavage and has been used to probe PAR1 function in various cells and tissues. PAR1-expressing cells desensitized to thrombin retain responsiveness to SFLLRN. Toward determining the mechanism of such responses, we utilized fibroblasts derived from a PAR1-deficient mouse. These cells were unresponsive to thrombin and SFLLRN and became sensitive to both ligands after transfection with human PAR1 cDNA. Moreover, PAR1-transfected cells responded to SFLLRN after thrombin-desensitization, indicating that signaling of thrombin-desensitized cells to SFLLRN was mediated by PAR1 itself. SFLLRN caused signaling in thrombin-desensitized cells when no uncleaved PAR1 was detectable on the cell surface; however, cleaved PAR1 was present. To determine whether the cleaved receptors could still signal, fibroblasts were transfected with a PAR1 mutant containing a trypsin site/SFLLRN sequence carboxyl terminal to the native thrombin site. These cells retained responsiveness to trypsin after thrombin-desensitization. Conversely, fibroblasts expressing a PAR1 mutant with the trypsin site/SFLLRN sequence amino terminal to the native thrombin site retained responsiveness to thrombin after trypsin-desensitization. This suggests that a population of thrombin-cleaved PAR1 can respond both to exogenous SFLLRN and to a second tethered ligand. In this population, the tethered ligand unmasked by thrombin cleavage must not be functional, suggesting the possibility of a novel mechanism of receptor shutoff involving sequestration or modification of the tethered ligand to prevent or terminate its function.
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PMID:Protease-activated receptor-1 can mediate responses to SFLLRN in thrombin-desensitized cells: evidence for a novel mechanism for preventing or terminating signaling by PAR1's tethered ligand. 1002 43

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. This study investigates, whether in addition to the thrombin receptor (PAR-1), the proteinase-activated receptor-2 (PAR-2) is present in vascular smooth muscle cells (SMC) and mediates mitogenesis. PAR-2 is activated by low concentrations of trypsin and the synthetic peptide SLIGRL. 2. Stimulation of bovine coronary artery SMC by trypsin (2 nM) caused a 3 fold increase in DNLA-synthesis. A similar effect was observed with 10 nM thrombin. Trypsin-induced mitogenesis was inhibited by soybean trypsin inhibitor, indicating that the proteolytic activity of the enzyme was required for its mitogenic effect. 3. The specific PAR-2-activating peptide SLIGRL or the PAR1-activating peptide SFFLRN did not elicit mitogenesis. 4. When the SMC were exposed to SLIGRL (40 nM), a homologous desensitization of cytosolic Ca2+ mobilization was found after subsequent stimulation with trypsin (40 nM) but not thrombin (15 nM). 5. Trypsin (2 nM) as well as SLIGRL (100 microm) activated the nuclear factor KB (NFkappaB) with a maximum response 2 h after stimulation of the SMC. This suggests that both agonists acted via a common receptor, PAR-2. Maximum activation of NFkappaB by thrombin (10 nM) was detected after 4-5 h. 6. These data suggest that PAR-2 is present in coronary SMC and mediates a mitogenic response. Activation of NFkappaB via either PAR-1 or PAR-2 does not predict mitogenesis.
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PMID:Evidence for proteinase-activated receptor-2 (PAR-2)-mediated mitogenesis in coronary artery smooth muscle cells. 1037 15

Proteolytically activated receptors define a new subclass among the G-protein coupled receptors. Proteinase activated receptor-2 (PAR-2), the second member to be identified of this growing receptor subclass, can be activated by trypsin and trypsin-like serine proteases such as mast cell tryptase. PAR-2 is expressed in endothelial cells. Here we have studied if activation of PAR-2 changes the coagulation properties of cultured human umbilical vein endothelial cells. We show that activation of PAR-2 induces rapid and transient formation of tissue factor mRNA with a maximum level 1 hour after receptor stimulation. The increased mRNA level was accompanied by an increased tissue factor activity at the endothelial cell surface, shortening coagulation time in a standard clotting assay. The level of tissue factor activity after PAR-2 activation was comparable with the effects of thrombin receptor (PAR-1) activation although neither of the two protease receptors were as strong inducers of tissue factor as tumor necrosis factor-alpha.
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PMID:Stimulation of proteinase activated receptor-2 causes endothelial cells to promote blood coagulation in vitro. 1040 79

The proteinase-activated receptor 1 (PAR-1) was characterized as a functional receptor for thrombin in cells from different brain tumor entities. Whether PAR-1 alone accounts for thrombin-induced effects in human cancer cells, or whether other PAR contribute is unknown. We established primary cultures from two neurosurgically removed human astrocytomas and investigated intracellular signaling roles of PAR-1 and PAR-4 by estimating the effect of alpha-thrombin and PAR-activating peptides on [Ca(2+)](i) mobilization in single astrocytoma cells. alpha-Thrombin or the PAR-1-activating peptide SFLLRN induced a transient calcium mobilization. This suggests the involvement of PAR-1 in alpha-thrombin-induced calcium signaling in human astrocytoma cells. In addition, a second, PAR-4-dependent, mechanism exists. This was deduced from the findings that a further calcium signal could be observed in human astrocytoma cells stimulated with alpha-thrombin after SFLLRN and the PAR-4-activating peptide GYPGQV also induced a calcium response. In addition, the observation that trypsin, known to activate both PAR-2 and PAR-4, but not the specifically PAR-2-activating peptide SLIGRL induced calcium signaling is a further indication of functional PAR-4-type thrombin receptors in human astrocytoma cells. This is the first report demonstrating a signaling role for a dual thrombin receptor system in human tumor cells.
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PMID:The two-receptor system PAR-1/PAR-4 mediates alpha-thrombin-induced [Ca(2+)](i) mobilization in human astrocytoma cells. 1066 48

The recent identification of two new thrombin receptors, PAR3 and PAR4, led us to re-examine the basis for endothelial cell responses to thrombin. Human umbilical vein endothelial cells (HUVEC) are known to express PAR1 and the trypsin/tryptase receptor, PAR2. Northern blots detected both of those receptors and, to a lesser extent, PAR3, but PAR4 message was undetectable and there was no response to PAR4 agonist peptides. To determine whether PAR3 or any other receptor contributes to thrombin signaling in HUVEC, PAR1 cleavage was blocked with two selective antibodies and PAR1 activation was inhibited with the antagonist, BMS200261. The antibodies completely inhibited HUVEC responses to thrombin, but BMS200261 was only partly effective, even though separate studies established that the antagonist completely inhibits PAR1 signaling at the concentrations used. Since peptides mimicking the PAR1 tethered ligand domain can also activate PAR2, we asked whether the remaining thrombin response in the presence of the antagonist could be due in part to the intermolecular transactivation of PAR2 by cleaved PAR1. Evidence that transactivation can occur was obtained in COS-7 cells co-expressing PAR2 and a variant of PAR1 that can be cleaved, but not signal. There was a substantial response to thrombin only in cells expressing both receptors. Conversely, in HUVEC, complete blockade of the thrombin response by the PAR1 antagonist occurred only when signaling through PAR2 was also blocked. From these observations we conclude that 1) PAR1 is the predominant thrombin receptor expressed in HUVEC and cleavage of PAR1 is required for endothelial cell responses to thrombin; 2) although PAR3 may be expressed, there is still no evidence that it mediates thrombin responses; 3) PAR4 is not expressed on HUVEC; and 4) transactivation of PAR2 by cleaved PAR1 can contribute to endothelial cell responses to thrombin, particularly when signaling through PAR1 is blocked. Such transactivation may limit the effectiveness of PAR1 antagonists, which compete with the tethered ligand domain rather than preventing PAR1 cleavage.
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PMID:Thrombin responses in human endothelial cells. Contributions from receptors other than PAR1 include the transactivation of PAR2 by thrombin-cleaved PAR1. 1078 64

1. In the present study, the antiplatelet effects and mechanisms of a new synthetic compound YD-3 [1-benzyl-3(ethoxycarbonylphenyl)-indazole] were examined. 2. YD-3 inhibited the aggregation of washed rabbit platelets caused by thrombin (IC(50)=28.3 microM), but had no or little inhibitory effect on that induced by arachidonic acid, collagen, platelet-activating factor (PAF) or U46619. YD-3 also suppressed generation of inositol phosphates caused by thrombin. On the other hand, thrombin-induced fibrin formation was not affected by YD-3, indicating YD-3 does not inhibit the proteolytic activity of thrombin. 3. In washed human platelets, however, YD-3 had only mild inhibitory effect on the low concentration (0.05 u ml(-1)) of thrombin-induced human platelet aggregation, and did not affect that induced by higher concentrations (> or =0.1 u ml(-1)) of thrombin or SFLLRN, the protease-activated receptor 1 (PAR1) agonist peptide. By contrast, YD-3 inhibited both human and rabbit platelet aggregation elicited by trypsin with IC(50) values of 38.1 microM and 5.7 microM, respectively. 4. YD-3, at 100 microM, had no effect on ristocetin-induced glycoprotein Ib (GPIb)-dependent aggregation of human platelets. In addition, platelets treated with chymotrypsin, which cleaves GPIb, enhanced rather than attenuated the inhibition of YD-3 on thrombin-induced human platelet aggregation. These data indicate that GPIb plays no role in the antiplatelet effect of YD-3. 5. In SFLLRN-desensitized human platelets, high concentration of thrombin (1 u ml(-1)) could still elicit intracellular Ca(2+) mobilization, and the rise of [Ca(2+)](i) was prevented by either leupeptin or YD-3. 6. Our results suggest that YD-3 inhibits a non-PAR1 thrombin receptor which mediates the major effect of thrombin in rabbit platelets, but in human platelets, this receptor function becomes significant only when the function of PAR1 has been blocked or attenuated.
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PMID:YD-3, a novel inhibitor of protease-induced platelet activation. 1090 68

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