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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)
Thrombin receptor activation was explored in human epidermal keratinocytes and human dermal fibroblasts, cells that are actively involved in skin tissue repair. The effects of
thrombin
, trypsin, and the receptor agonist peptides SFLLRN and TFRIFD were assessed in inositolphospholipid hydrolysis and calcium mobilization studies. Thrombin and SFLLRN stimulated fibroblasts in both assays to a similar extent, whereas TFRIFD was less potent. Trypsin demonstrated weak efficacy in these assays in comparison with
thrombin
. Results in fibroblasts were consistent with human platelet thrombin receptor activation. Keratinocytes, however, exhibited a distinct profile, with trypsin being a far better activator of inositolphospholipid hydrolysis and calcium mobilization than
thrombin
. Furthermore, SFLLRN was more efficacious than
thrombin
, whereas no response was observed with TFRIFD. Since our data indicated that keratinocytes possess a trypsin-sensitive receptor, we addressed the possibility that these cells express the human homologue of the newly described murine protease-activated receptor,
PAR-2
[Nystedt, S., Emilsson, K., Wahlestedt, C. & Sundelin, J. (1994) Proc. Natl. Acad. Sci. USA 91, 9208-9212].
PAR-2
is activated by nanomolar concentrations of trypsin and possesses the tethered ligand sequence SLIGRL. SLIGRL was found to be equipotent with SFLLRN in activating keratinocyte inositolphospholipid hydrolysis and calcium mobilization. Desensitization studies indicated that SFLLRN, SLIGRL, and trypsin activate a common receptor,
PAR-2
. Northern blot analyses detected a transcript of
PAR-2
in total RNA from keratinocytes but not fibroblasts. Levels of thrombin receptor message were equivalent in the two cell types. Our results indicate that human keratinocytes possess
PAR-2
, suggesting a potential role for this receptor in tissue repair and/or skin-related disorders.
...
PMID:Evidence for the presence of a protease-activated receptor distinct from the thrombin receptor in human keratinocytes. 756 91
The thrombin receptor was the first cloned G protein-coupled receptor reported to be activated by proteolytic cleavage of its extracellular amino terminus. A second proteinase-activated receptor (
PAR-2
) was cloned recently and expressed in Xenopus laevis oocytes.
PAR-2
was activated by trypsin and by a peptide (SLIGRL) derived from the new amino terminus. Since
PAR-2
mRNA was detected in highly vascularized organs, we compared the physiological functions of the thrombin receptor and
PAR-2
in vascular endothelium. Thrombin and trypsin both elicited endothelium-dependent relaxations in prostaglandin F2alpha (PGF2alpha)-contracted strips of porcine coronary artery. Whereas high doses of both
thrombin
or trypsin (10 U/mL) caused homologous desensitization, trypsin caused further relaxation of
thrombin
-desensitized tissues. Thrombin and
PAR-2
-derived peptides (SFLLRN and SLIGRL) both induced endothelium-dependent relaxations in PGF2alpha-contracted porcine coronary arteries. SFLLRN or SLIGRL (30 micronmol/L) also showed homologous desensitization but not cross desensitization. In the presence of the NO synthase inhibitor NG-monomethyl-L-arginine (1 mmol/L), both SFLLRN- and SLIGRL-induced relaxations were partially inhibited. SFLLRN elicited weak contraction in coronary arteries without endothelium, whereas SLIGRL had no effect. Intravenous injection of SFLLRN (1 mg/kg, bolus) into anesthetized rats elicited a transient depressor response followed by pronounced pressor response. In contrast, intravenous administration of SLIGRL (1 mg/kg, bolus) produced only a marked depressor response. Consistent with the in vivo data, SFLLRN contracted the endothelium-rubbed rat aortic rings and aggregated human platelets in vitro, whereas SLIGRL had no effect. The finding that both trypsin and SLIGRL induced endothelium-dependent relaxations indicates the presence of
PAR-2
on endothelial cells. In addition, both trypsin and SLIGRL elicited relaxations in
thrombin
- or SFLLRN-desensitized tissue, suggesting that
PAR-2
is distinct from thrombin receptor in vascular endothelium. The lack of
PAR-2
-mediated platelet aggregation or smooth muscle contraction suggested it might not share the pathogenic properties associated with the thrombin receptor in the vasculature.
...
PMID:Evidence for the presence of a proteinase-activated receptor distinct from the thrombin receptor in vascular endothelial cells. 863 15
Recently, a second member of the protease-activated receptor (PAR) family, named
PAR-2
, has been identified. Similar to the thrombin receptor,
PAR-2
appears to be activated by proteolytic-mediated exposure of a "tethered ligand" sequence and can also be activated by the corresponding synthetic peptides. Similarities in the amino acid sequence of the receptors' tethered ligand sequences suggest that their respective agonist peptides might not be absolutely specific for their particular receptors. To test this, the receptor specificity of each agonist has been determined by measuring the responses of Xenopus oocytes expressing the thrombin receptor or
PAR-2
to agonist peptides or enzymes. Thrombin receptors responded to
thrombin
, the human thrombin receptor-activating peptide SFLLRNP-NH2 (TRAP) (EC50 = 0.1 microM), and Xenopus TRAP, TFRIFD-NH2 (EC50 = 1 microM), but did not show any increase in calcium efflux over control levels with trypsin (50 nM) or
PAR-2
agonist peptides (100 microM). Human and murine
PAR-2
receptors responded comparably to human and murine
PAR-2
agonist peptides (SLIGKVD and SLIGRL, respectively) (EC50 = 0.5-2.0 microM) and trypsin, but not to
thrombin
.
PAR-2
was also found to be responsive to TRAP (EC50 = 1 microM) but was unresponsive to Xenopus TRAP (50 microM). Responses to additional peptide agonist analogs suggest that an amino-terminal serine is critical for
PAR-2
agonist activity.
...
PMID:Ligand cross-reactivity within the protease-activated receptor family. 866 35
The effect of agonists of the known protease activated receptors (PAR), the
thrombin
and the
PAR-2
receptors, on vasoactive mediator release and vascular tone were studied using rings of rat aorta. Stimulation of aortic rings with the thrombin receptor agonist, Trap-14, or the
PAR-2
agonist, SLIGRL, resulted in a rapid release of nitric oxide. Trap-14 and SLIGRL-induced nitric oxide release was reduced by pre-treatment with BQ-788, an ETB endothelin receptor-specific antagonist. Consistent with a role for endothelin-1 receptor activation in Trap-14 and SLIGRL-induced nitric oxide release, endothelin-1 levels were increased significantly following 5 min treatment of aortic rings with Trap-14 or SLIGRL. Cumulative addition of Trap-14 to aortic rings denuded of endothelium resulted in dose-dependent contraction with an EC50 value of 23 +/- 5 microM, whereas SLIGRL addition failed to induce aortic contraction. These data suggest that the known protease activated receptors are functionally coupled to nitric oxide release. In addition, the thrombin receptor appears to modulate both vasodilator and contractile responses, whereas the
PAR-2
receptor is linked only to vasodilation.
...
PMID:Protease activated receptors modulate aortic vascular tone. 879 96
We have recently reported that the activated serine protease and blood coagulation Factor VII (FVIIa) can induce Ca2+ oscillations in Madin-Darby canine kidney cells. We now demonstrate a similar response by Madin-Darby canine kidney cells to the active coagulation Factor X (FXa), which is also a serine protease and a substrate of the tissue factor (TF).FVIIa complex in the initiation of the coagulation cascade. The phosphatidyl inositol-specific phospholipase C inhibitor U73122 inhibited the signals elicited by both FVIIa and FXa. Lack of sensibility to the tyrosine kinase inhibitors herbimycin A, genistein, and the tyrphostin AG18 and discordance between TF expression and FVIIa responsiveness argued against TF acting as a cytokine-like receptor, with tyrosine kinase-mediated activation by FVIIa. As demonstrated using the protease inhibitor benzamidine and by specific active site inhibition with 1,5-dansyl-Glu-Gly-Arg chloromethyl ketone, both FVIIa and FXa lost their ability to elicit a calcium response when devoid of their proteolytic activity. Consistent with this, the native (zymogen) form of Factor X did not induce Ca2+ transients. Homologous but not heterologous inhibition of FVIIa- and FXa-evoked Ca2+ signals by 1,5-dansyl-Glu-Gly-Arg chloromethyl ketone-inactivated FVIIa and FXa suggested that each factor had its own specific cell surface anchoring receptor. The two coagulation factors did not show homologous desensitization as seen for
thrombin
stimulation. Studies with hirudin excluded involvement of the established activation pathway through
thrombin
itself. Lack of desensitization of the response to FVIIa or FXa by
thrombin
ruled out any involvement of proteinase activated receptor-1 (PAR-1), the thrombin receptor. We speculate that FXa and FVIIa may work via a receptor (possibly common) analogous to PAR-1 or its functional homologue
PAR-2
. Although TF is essential for the FVIIa-induced signaling event, its role in the phosphatidyl inositol-specific phospholipase C-mediated Ca2+ signal may be in anchoring FVIIa to the cell surface rather than in transmembrane signal mediation.
...
PMID:Coagulation factors VII and X induce Ca2+ oscillations in Madin-Darby canine kidney cells only when proteolytically active. 891 May 56
Tryptase is a serine protease secreted by mast cells that is able to activate other cells. In the present studies we have tested whether these responses could be mediated by
thrombin
receptors or
PAR-2
, two G-protein-coupled receptors that are activated by proteolysis. When added to a peptide corresponding to the N terminus of
PAR-2
, tryptase cleaved the peptide at the activating site, but at higher concentrations it also cleaved downstream, as did trypsin, a known activator of
PAR-2
. Thrombin, factor Xa, plasmin, urokinase, plasma kallikrein, and tissue kallikrein had no effect. Tryptase also cleaved the analogous thrombin receptor peptide at the activating site but less efficiently. When added to COS-1 cells expressing either receptor, tryptase stimulated phosphoinositide hydrolysis. With
PAR-2
, this response was half-maximal at 1 nM tryptase and could be inhibited by the tryptase inhibitor, APC366, or by antibodies to tryptase and
PAR-2
. When added to human endothelial cells, which normally express
PAR-2
and
thrombin
receptors, or keratinocytes, which express only
PAR-2
, tryptase caused an increase in cytosolic Ca2+. However, when added to platelets or CHRF-288 cells, which express
thrombin
receptors but not
PAR-2
, tryptase caused neither aggregation nor increased Ca2+. These results show that 1) tryptase has the potential to activate both
PAR-2
and
thrombin
receptors; 2) for
PAR-2
, this potential is realized, although cleavage at secondary sites may limit activation, particularly at higher tryptase concentrations; and 3) in contrast, although tryptase clearly activates
thrombin
receptors in COS-1 cells, it does not appear to cleave endogenous
thrombin
receptors in platelets or CHRF-288 cells. These distinctions correlate with the observed differences in the rate of cleavage of the
PAR-2
and thrombin receptor peptides by tryptase. Tryptase is the first protease other than trypsin that has been shown to activate human
PAR-2
. Its presence within mast cell granules places it in tissues where
PAR-2
is expressed but trypsin is unlikely to reach.
...
PMID:Interactions of mast cell tryptase with thrombin receptors and PAR-2. 902 Jan 12
The thrombin receptor and
protease-activated receptor 2
(
PAR-2
) are the two currently known members of the large family of G protein-coupled receptors that are activated by proteases. Both receptors are located on cells in and around the vascular space, including platelets, endothelial cells, vascular smooth muscle cells, fibroblasts and some lymphocytes. This brief review summarizes current information on
thrombin
receptors and focuses on some of the issues that are relevant for ongoing efforts to develop thrombin receptor antagonists.
...
PMID:Thrombin receptor antagonists: a work in progress. 910 Nov 23
Human endothelial cells express
thrombin
receptors and
PAR-2
, the two known members of the family of protease-activated G protein-coupled receptors. Because previous studies have shown that the biology of the human thrombin receptor varies according to the cell in which it is expressed, we have taken advantage of the presence of both receptors in endothelial cells to examine the enabling and disabling interactions with candidate proteases likely to be encountered in and around the vascular space to compare the responses elicited by the two receptors when they are present in the same cell and to compare the mechanisms of thrombin receptor and
PAR-2
clearance and replacement in a common cellular environment. Of the proteases that were tested, only trypsin activated both receptors. Cathepsin G, which disables
thrombin
receptors, had no effect on
PAR-2
, while urokinase, kallikrein, and coagulation factors IXa, Xa, XIa, and XIIa neither substantially activated nor noticeably disabled either receptor. Like
thrombin
receptors, activation of
PAR-2
caused pertussis toxin-sensitive phospholipase C activation as well as activation of phospholipase A2, leading to the release of PGI2. Concurrent activation of both receptors caused a greater response than activation of either alone. It also abolished a subsequent response to the
PAR-2
agonist peptide, SLIGRL, while only partially inhibiting the response to the agonist peptide, SFLLRN, which activates both receptors. After proteolytic or nonproteolytic activation,
PAR-2
, like
thrombin
receptors, was cleared from the endothelial cell surface and then rapidly replaced with new receptors by a process that does not require protein synthesis. Selective activation of either receptor had no effect on the clearance of the other. These results suggest that the expression of both
thrombin
receptors and
PAR-2
on endothelial cells serves more to extend the range of proteases to which the cells can respond than it does to extend the range of potential responses. The results also show that proteases that can disable these receptors can distinguish between them, just as do most of the proteases that activate them. Finally, the residual response to SFLLRN after activation of
thrombin
receptors and
PAR-2
raises the possibility that a third, as yet unidentified member of this family is expressed on endothelial cells, one that is activated by neither
thrombin
nor trypsin.
...
PMID:Endothelial cell thrombin receptors and PAR-2. Two protease-activated receptors located in a single cellular environment. 911 Oct 10
The proteolytically activated thrombin receptor (TR) is expressed by T lymphocytes, which suggests that
thrombin
may modulate T-cell activation at sites of hemostatic stress. We examined the relationship between TR function and T-cell activation in the Jurkat human T-cell line and in T-cell lines with defined defects in T-cell antigen receptor (TCR) function. Stimulation with
thrombin
or the synthetic TR peptide SFLLRN produced intracellular Ca2+ transients in Jurkat cells. As the concentration of TR agonist was increased, peak Ca2+ mobilization increased, but influx of extracellular Ca2+ decreased. TR signaling was enhanced in a TCR-negative Jurkat line and in T-cell lines deficient in the tyrosine kinase lck or the tyrosine phosphatase CD45, both of which are essential for normal TCR function. TCR cross-linking with anti-CD3 IgM desensitized TR signaling in Jurkat cells, but not in CD45-deficient cells. A proteinase-activated receptor (
PAR-2
)-specific agonist peptide, SLIGKV, produced small Ca2+ transients in both MEG-01 human megakaryocytic cells and Jurkat cells, but was less potent than the TR-specific agonist TFRIFD in both cell types. Like TR signaling,
PAR-2
signaling was enhanced in TCR-negative or lck-deficient Jurkat clones. These findings provide evidence for functional cross-talk between proteolytically activated receptors and the TCR.
...
PMID:Functional interactions between the thrombin receptor and the T-cell antigen receptor in human T-cell lines. 929 22
Activation of the G-protein-linked thrombin receptor in endothelial cells normally leads to an increase in free intracellular calcium, [Ca2+]i, which is the proximate stimulus for many important cell functions. We present evidence showing that signals from CD36, the thrombospondin (TSP) receptor, can inhibit this
thrombin
-mediated calcium response. Human endothelial cells preloaded with Indo-1 exhibited rapid calcium mobilization in response to
thrombin
. The presence of TSP inhibited the
thrombin
-stimulated calcium response in CD36-positive microvascular endothelial cells but not in CD36-negative umbilical vein endothelial cells. This TSP effect was mimicked by anti-CD36 antibodies and a TSP peptide (CSVTCG), but not by an alternative CD36 ligand (collagen IV) or an antibody to an alternative TSP receptor (alphavbeta3). TSP also inhibited the calcium response to the thrombin receptor-tethered ligand peptide, SFLLRN. In addition, TSP and anti-CD36 antibodies inhibited the calcium response of a closely related receptor, the trypsin/SLIGKVD-activated receptor
PAR-2
. TSP did not indiscriminately inhibit all calcium release pathways, since histamine- or VEGF-stimulated calcium responses were not inhibited by TSP. We conclude that cross-talk from the CD36 receptor influences the responsive state of the endothelial thrombin receptor family and/or its signaling pathway.
...
PMID:Thrombin-stimulated calcium mobilization is inhibited by thrombospondin via CD36. 947 55
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