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)

Phosphatidylinositol 4,5-bisphosphate (PI4,5P(2)) mediates cell motility and changes in cell shape in response to extracellular stimuli. In platelets, it is synthesized from PI4P by PIP5K in response to stimulation of a G-protein-coupled receptor by an agonist, such as the thrombin. In the present study, we have addressed the pathway that induces PIP5K I alpha activation following the addition of thrombin. Under resting condition expressed PIP5K I alpha was predominantly localized in a perinuclear distribution. After stimulation of the thrombin receptor, PAR1, or overexpression of a constitutively active variant of G alpha(q), PIP5K I alpha translocated to the plasma membrane. Movement of PIP5K I alpha to the cell membrane was dependent on both GTP-bound Rac and Rho, but not Arf, because: 1) inactive GDP-bound variants of either Rac or Rho blocked the translocation induced by constitutively active G alpha(q), 2) constitutively GTP-bound active variants of Rac or Rho induced PIP5K I alpha translocation in the absence of other stimuli, and 3) constitutively active variants of Arf1 or Arf6 failed to induce membrane translocation of PIP5K I alpha. In addition, a dominant negative variant of Rho blocked the PIP5K I alpha membrane translocation induced by constitutively active Rac, whereas dominant negative variants of either Rac or Arf6 failed to block PIP5K I alpha membrane translocation induced by constitutively active Rho. This implies that the effect on PIP5K I alpha by Rac is indirect, and requires the activation of Rho. In contrast to the findings with PIP5K I alpha, the related lipid kinase PIP4K failed to undergo translocation after stimulation by small GTP-binding proteins Rac or Rho. We also tested whether membrane localization of PIP5K I alpha correlated with an increase in its lipid kinase activity and found that co-expressing of PIP5K I alpha with either constitutively active G alpha(q), Rac, or Rho led to a 5- to 7-fold increase in PIP5K I alpha activity. Thus, these findings suggest that stimulation of a G-protein-coupled receptor (PAR1) leads to the sequential activation of G alpha(q), Rac, Rho, and PIP5K I alpha. Once activated and translocated to the cell membrane, PIP5K I alpha becomes available to phosphorylate PI4P to generate PI4,5P(2) on the plasma membrane.
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PMID:G-protein-coupled receptor activation induces the membrane translocation and activation of phosphatidylinositol-4-phosphate 5-kinase I alpha by a Rac- and Rho-dependent pathway. 1143 81

Thrombin, the ultimate protease in the blood coagulation cascade, mediates its known cellular effects by unique proteolytic activation of G-protein-coupled protease-activated receptors (PARs), such as PAR1, PAR3, and PAR4, and a "tethered ligand" mechanism. PAR1 is variably expressed in subpopulations of neurons and largely determines thrombin's effects on morphology, calcium mobilization, and caspase-mediated apoptosis. In spinal cord motoneurons, PAR1 expression correlates with transient thrombin-mediated [Ca(2+)](i) flux, receptor cleavage, and elevation of rest [Ca(2+)](i) activating intracellular proteases. At nanomolar concentrations, thrombin retracts neurites via PAR1 activation of the monomeric, 21 kDa Ras G-protein RhoA, which is also involved in neuroprotection at lower thrombin concentrations. Such results suggest potential downstream targets for thrombin's injurious effects. Consequently, we employed several G-protein-specific modulators prior to thrombin exposure in an attempt to uncouple both heterotrimeric and monomeric G-proteins from motoneuronal PAR1. Cholera toxin, stimulating Gs, and lovastatin, which blocks isoprenylation of Rho, reduced thrombin-induced calcium mobilization. In contrast, pertussis toxin and mastoparan, inhibiting or stimulating G(o)/G(i), were found to exacerbate thrombin action. Effects on neuronal rounding and apoptosis were also detected, suggesting therapeutic utility may result from interference with downstream components of thrombin signaling pathways in human motor neuron disorders, and possibly other neurodegenerative diseases. Published 2001 John Wiley & Sons, Inc.
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PMID:Neuroprotective signal transduction in model motor neurons exposed to thrombin: G-protein modulation effects on neurite outgrowth, Ca(2+) mobilization, and apoptosis. 1143 39

Endothelial protease-activated receptors (PARs) may be important sensors of vascular inflammation and injury. Activation of endothelial PAR1 and PAR2 causes nitric oxide-mediated arterial smooth muscle relaxation in a number of species and PAR4 activation causes similar responses in isolated rat aorta. However, it is unclear whether these receptors mediate such responses in human arteries because the most potent activators of PAR1, PAR2, and PAR4, thrombin and trypsin, cause endothelium-dependent relaxation of human coronary arteries through a common PAR1-like receptor. This study aimed to determine whether this unique pharmacology of PARs in human coronary arteries extends to human pulmonary arteries. PAR1 and PAR2 mRNA and protein were detected in human pulmonary arteries via reverse transcription polymerase chain reaction and immunohistochemistry, respectively. PAR4 mRNA was also detected in human pulmonary arteries. Contracted human pulmonary artery ring segments suspended for isometric tension measurement relaxed in a concentration- and endothelium-dependent manner to thrombin (0.001-0.1 U/ml), trypsin (0.01-1 U/ml), and the PAR1-activating peptide, SFLLRN (0.1-10 microM). By contrast, the PAR2- and PAR4-activating peptides, SLIGKV and GYPGQV, respectively, caused neither contraction nor relaxation of precontracted human pulmonary arteries. Relaxations to thrombin and trypsin cross-desensitized, while tachyphylaxis to SFLLRN abolished subsequent relaxations to both thrombin and trypsin. We conclude that human pulmonary arteries express PAR1, PAR2, and PAR4, but that only PAR1, or a PAR1-like receptor, is coupled to endothelium-dependent relaxation.
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PMID:Protease-activated receptor (PAR) 1 but not PAR2 or PAR4 mediates endothelium-dependent relaxation to thrombin and trypsin in human pulmonary arteries. 1144 93

W215 is a highly conserved residue that shapes the S3 and S4 specificity sites of thrombin. Replacement of W215 with Phe produces modest effects on thrombin function, whereas the W215Y replacement significantly compromises the amidolytic activity toward synthetic and natural substrates. Replacement of W215 with Ala reduces fibrinogen and PAR4 cleavage 500-fold and 280-fold, respectively. On the other hand, the mutant decreases protein C activation and PAR1 cleavage only threefold and 25-fold, respectively. The W215A mutant cleaves PAR1 with a specificity constant more than 13-fold greater than that of fibrinogen and protein C, and 800-fold greater than PAR4. This is the first thrombin derivative to be described that functions as an almost exclusive activator of PAR1. The environment of W215 influences differentially three physiologically important interactions of thrombin, a feature that should assist in the separate study of each of these functions in vivo.
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PMID:Mutation of W215 compromises thrombin cleavage of fibrinogen, but not of PAR1 or protein C. 1146 May 1

Proteases give cancer a defining characteristic of being able to break through extracellular matrix barriers and invade into other tissues in response to chemotactic signals. Recently, the cell surface protease-activated receptor (PAR)-1 has been shown to act as a chemokine receptor in inflammatory cells, and its expression is tightly correlated with metastatic propensity of breast cancer cells. The aim of the present study was to determine whether activation of PAR1 or the other known PARs (PAR2-4) can regulate migration and invasion of breast cancer cells. We found that the highly invasive MDAMB231 breast cancer cell line expressed very high levels of functional PAR1, PAR2, and PAR4, whereas minimally invasive MCF7 cells had trace amounts of PAR1 and low levels of PAR2 and PAR4. Despite the differences in expression, PAR2 and PAR4 acted as chemokine receptors in both invasive and minimally invasive breast cell lines. Quite unexpectedly, we found that activation of PAR1 with thrombin or the peptide agonist SFLLRN markedly inhibited invasion and migration of MDAMB231 cells when applied as a concentration gradient in the direction of cell movement. Additionally, we demonstrated that inhibition of chemotaxis was mediated through a G(i)/phosphoinositide-3-OH kinase-dependent pathway. Activation of G(i) signaling with epinephrine or wasp venom mastoparan also inhibited invasion and migration of the breast cancer cells. These findings suggest that therapeutics targeted toward G(i)-couplers that are selectively expressed in breast cancer cells could prove beneficial in halting the progression of invasive breast cancer.
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PMID:Signaling from protease-activated receptor-1 inhibits migration and invasion of breast cancer cells. 1147 36

1. The mechanism of trypsin-induced contraction in the rat myometrium was investigated using front-surface fluorimetry on fura-PE3-loaded strips. The expression of protease-activated receptors (PARs) in the rat myometrium was determined by reverse transcription polymerase chain reaction (RT - PCR). 2. In non-pregnant rats, 10 microM trypsin developed a force of up to 30.5 +/- 5.1% of that obtained during the 40 mM K(+)-depolarization-induced contraction. In pregnant rats, the maximal level of the cytosolic Ca(2+) concentration and tension obtained with 3 microM trypsin was 143.2 +/- 6.0% and 63.2 +/- 7.9%, respectively. The depletion of the extracellular Ca2+ abolished the trypsin-induced contraction. 3. Trypsin-induced contraction was abolished by the pre-treatment of a serine protease inhibitor. PAR1-activating peptide (PAR1-AP) caused a potent contraction of the myometrium, while neither PAR2-AP nor PAR4-AP induced any contraction. 4. RT - PCR analysis detected the expression of PAR1 mRNA. However, neither PAR2 nor PAR4 mRNA was detected in the rat myometrium. 5. Once the strips were stimulated with thrombin, the subsequent application of thrombin failed to induce any contraction, while trypsin induced a contraction similar to that observed without the pre-stimulation with thrombin. Once the strip was stimulated with trypsin, neither trypsin nor thrombin induced any contraction. The response to PAR1-AP remained after the pre-stimulation with thrombin and trypsin. 6. In conclusion, PAR1 was the only known receptor for trypsin expressed in the rat myometrium, but it was suggested to be cleaved and inactivated by trypsin. Trypsin was thus suggested to contract the rat myometrium via a novel type of PAR, which might be upregulated during pregnancy.
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PMID:Mechanism of trypsin-induced contraction in the rat myometrium: the possible involvement of a novel member of protease-activated receptor. 1149 13

The coagulation protease thrombin triggers fibrin formation, platelet activation, and other cellular responses at sites of tissue injury. We report a role for PAR1, a protease-activated G protein-coupled receptor for thrombin, in embryonic development. Approximately half of Par1-/- mouse embryos died at midgestation with bleeding from multiple sites. PAR1 is expressed in endothelial cells, and a PAR1 transgene driven by an endothelial-specific promoter prevented death of Par1-/- embryos. Our results suggest that the coagulation cascade and PAR1 modulate endothelial cell function in developing blood vessels and that thrombin's actions on endothelial cells-rather than on platelets, mesenchymal cells, or fibrinogen-contribute to vascular development and hemostasis in the mouse embryo.
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PMID:A role for thrombin receptor signaling in endothelial cells during embryonic development. 1153 66

In addition to its procoagulant and anticoagulant roles in the blood coagulation cascade, thrombin works as a signaling molecule when it interacts with the G-protein coupled receptors PAR1, PAR3, and PAR4. We have mapped the thrombin epitopes responsible for these interactions using enzymatic assays and Ala scanning mutagenesis. The epitopes overlap considerably, and are almost identical to those of fibrinogen and fibrin, but a few unanticipated differences are uncovered that help explain the higher (90-fold) specificity of PAR1 relative to PAR3 and PAR4. The most critical residues for the interaction with the PARs are located around the active site where mutations affect recognition in the order PAR4 > PAR3 > PAR1. Other important residues for PAR binding cluster in a small area of exosite I where mutations affect recognition in the order PAR1 > PAR3 > PAR4. Owing to this hierarchy of effects, the mutation W215A selectively compromises PAR4 cleavage, whereas the mutation R67A abrogates the higher specificity of PAR1 relative to PAR3 and PAR4. 3D models of thrombin complexed with PAR1, PAR3, and PAR4 are constructed and account for the perturbations documented by the mutagenesis studies.
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PMID:Molecular mapping of thrombin-receptor interactions. 1156 40

Platelets activated by alpha-thrombin express surface procoagulant activity (PCA) that accelerates the conversion of prothrombin to alpha-thrombin. Following activation with 10 nM alpha-thrombin, the PCA of normal platelets was approximately five-fold higher than that of Bernard-Soulier platelets (lacking GPIb). Normal platelet PCA was inhibited approximately 50% by activation in the presence of the anti-GPIb MoAbs LJIb10 or TM60. Moreover, normal platelet PCA was completely abrogated in the presence of a combination of both LJIb10 and c7E3, a MoAb directed against alphaIIbbeta3 (GPIIb/IIIa). In contrast. PCA expressed by Bernard Soulier or Glanzmann platelets was not inhibited by either LJIb10 or c7E3 MoAb. The platelet activating peptide SFLLRN at 10 microM, a concentration which fully activates platelet aggregation and Ca2+ mobilization, generated PCA activity one fifth of that generated by alpha-thrombin at 10 nM but anti-PAR1 antibodies did not affect thrombin-induced PCA expression. These results demonstrate that GPIb mediates, at least in part, the thrombin-induced activation of platelets that leads to PCA, and that alphaIIbbeta3 is also involved in PCA generation, but these results do not support a major role for PAR1 in this activation.
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PMID:Both the high affinity thrombin receptor (GPIb-IX-V) and GPIIb/IIIa are implicated in expression of thrombin-induced platelet procoagulant activity. 1168 25

Thrombin (THR) plays a key role in the brain under physiological and pathological conditions. Several of the biological activities of thrombin have been shown to be mainly driven through activation of protease-activated receptor-1 (PAR-1)-type thrombin receptor. Here we have studied the effect of THR and PAR-1-activating peptide (PAR1-AP), SFLLRN, on cytokine-induced expression of inducible nitric oxide (iNOS), a prominent marker of astroglial activation using the rat C6 glioma cells. In this cell line, THR (1-10 U/mL) and PAR1-AP (1-100 microM) induced a significant concentration-dependent increase both of IFN-gamma- (250 U/mL) or TNF-alpha- (500 U/mL) induced NO release. The observed increase of NO production was related to an enhancement of iNOS expression as measured in cell lysates prepared from different treatments by using SDS-PAGE followed by western blot analysis. The effect of THR, but not that of PAR1-AP, was significantly inhibited by hirulog(TM) (60 microg/mL), a specific and stochiometric THR inhibitor or by cathepsin-G (40 mU/mL), an inhibitor of PAR-1. In conclusion our data suggest a role for THR through activation of PAR-1 in the induction of astroglial iNOS, and further support the hypothesis that THR may function as an important pathophysiological modulator of the inflammatory response.
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PMID:Thrombin and PAR-1 activating peptide increase iNOS expression in cytokine-stimulated C6 glioma cells. 1170 59

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