EC:3.4.21.5 - FACTA Search

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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)

All lentiviruses infect the brain, causing chronic neurological disease in their respective hosts. To examine the relationship(s) between lentivirus molecular diversity and the development of neurological disease, we examined in vitro and in vivo models of lentivirus neurovirulence using different recombinant viruses derived from human (HIV-1) and feline (FIV) immunodeficiency viruses. Both in vitro and in vivo studies of FIV neurovirulence showed that the FIV envelope derived from a neurovirulent strain was a principal determinant of neuropathogenesis, although systemic immunosuppression was also an integral feature of FIV neurovirulence. Studies of HIV-1 envelope sequences derived from brain or blood indicate that molecular diversity is greater in viruses from patients with HIV-associated dementia (HAD), compared to nondemented individuals. Moreover, the hypervariable V3 domain of HIVgp120, regardless of the HIV-1 clade from which it was derived, was an important region for mediating neurotoxicity in vitro but the level of viral replication did not influence neurotoxicity. For both the HIV-1 and FIV envelopes and HIV-1 Tat, induction of matrix metalloproteinase (MMP)-2 in macrophages was a consistent finding. Neurotoxicity caused by supernatants from HIV-infected or transfected macrophages, containing MMP-2, was greater than direct neurotoxicity levels caused by direct exposure of neurons to virus in assays of total neuronal death, but not in assays of neuronal apoptosis. Proteinase-activated receptor (PAR)-1 and its ligand thrombin were also induced during HIV infection, chiefly on astrocytes. PAR-1 activation resulted in gliosis and neurobehavioral changes in an animal model and resulted in N-methyl-D-aspartate (NMDA) receptor-mediated neuronal death. These findings suggest that the lentivirus envelope, which is a domain of extensive molecular diversity in brain-derived lentivirus isolates, directly influences neuropathogenesis through the activation of select proteases, underscoring the importance of concentrating on individual viral genes and proteases in the development of neuroprotective agents for HIV-related neurological disease.
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PMID:Comparative neurovirulence in lentiviral infections: The roles of viral molecular diversity and select proteases. 1498 49

Proteinase-activated receptors (PARs) can activate a number of signalling events, including T-cell signal-transduction pathways. Recent data suggest that the activation of PARs 1, 2 and 3 in Jurkat T-leukaemic cells induces tyrosine phosphorylation of the haematopoietic signal transducer protein, VAV1. To activate the PARs, this study used the agonist peptides SFLLRNPNDK, SLIGKVDGTS and TFRGAPPNSF, which are based on the sequences of the tethered ligand sequences of human PARs 1, 2 and 3, respectively. Here, we show that peptides based on either the human or murine PAR(3)-derived tethered ligand sequences (TFRGAP-NH(2) or SFNGGP-NH(2)) do not activate PAR(3), but rather activate PARs 1 and 2, either in Jurkat or in other PAR-expressing cells. Furthermore, whilst thrombin activates only Jurkat PAR(1), trypsin activates both PARs 1 and 2 and also disarms Jurkat PAR(1) for thrombin activation. We conclude therefore that in Jurkat or related T cells, signalling via PARs that can affect VAV1 phosphorylation is mediated via PAR 1 or 2, or both, and that distinct serine proteinases may potentially differentially affect T-cell function in the settings of inflammation.
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PMID:Tethered ligand-derived peptides of proteinase-activated receptor 3 (PAR3) activate PAR1 and PAR2 in Jurkat T cells. 1514 61

There are considered the characteristic features of thrombin functional activity in central and peripheral nervous system. A family of specialized membrane receptors--so called PARs (Proteinase Activated Receptors) and their presence in several parts of CNS is described. The concentration- and PAR-dependent neuroprotecting and injuring effects of thrombin in CNS are compared. The literature and original authors data are presented demonstrating the presence of PARs in peripheral nervous system and the ability of endogenous and exogenous thrombin to influence the regeneration of peripheral nerves. The perspectives of experimental approach are discussed, when the exogenous thrombin or peptide-agonists of PARs are used to accelerate the nerve regeneration in vivo.
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PMID:[Characteristic properties of thrombin neurotropic activity]. 1545 52

Proteinase-activated receptor-1 (PAR1), a G protein-coupled receptor activated by thrombin, is highly expressed in different cell types of the gastrointestinal tract. The activity of thrombin and of other proteinases is significantly increased in the colon of inflammatory bowel disease (IBD) patients. Since PAR1 activation in tissues other than the gut provoked inflammation, we hypothesized that PAR1 activation in the colon is involved in the pathogenesis of IBD. Here, we demonstrate that PAR1 is overexpressed in the colon of IBD patients. In mice, intracolonic administration of PAR1 agonists led to an inflammatory reaction characterized by edema and granulocyte infiltration. This PAR1 activation-induced inflammation was dependent on B and T lymphocytes. Moreover, PAR1 activation exacerbated and prolonged inflammation in a mouse model of IBD induced by the intracolonic administration of trinitrobenzene sulfonic acid (TNBS), while PAR1 antagonism significantly decreased the mortality and severity of colonic inflammation induced by TNBS and dextran sodium sulfate. In these 2 models, colitis development was strongly attenuated by PAR1 deficiency. Taken together, these results imply an important role for PAR1 in the pathogenesis of experimental colitis, supporting the notion that PAR1 inhibition may be beneficial in the context of IBD and possibly in other chronic intestinal inflammatory disorders.
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PMID:A role for proteinase-activated receptor-1 in inflammatory bowel diseases. 1688 Nov 39

Proteinase-activated receptors (PARs) are members of the superfamily of G-protein coupled receptors that initiate intracellular signaling by the proteolytic activity of extracellular serine proteases. Three member of this family (PAR-1, PAR-3, and PAR-4) are considered thrombin receptors, whereas PAR-2 is activated by trypsin and tryptase. Recently, activation of PAR-2 signal was identified as a pro-inflammatory factor that mediates peripheral sensitization of nociceptors. Activation of PAR-1 in the periphery is also considered to be a neurogenic mediator of inflammation that is involved in peptide release. Here, we investigated the expression of these four members of PARs in the adult rat dorsal root ganglia (DRG) using radioisotope-labeled in situ hybridization histochemistry. We detected mRNA for all subtypes of PARs in the DRG. Histological analysis revealed the specific expression patterns of the PARs. PAR-1, PAR-2, and PAR-3 mRNA was expressed in 29.0+/-4.0%, 16.0+/-3.2%, and 40.9+/-1.3% of DRG neurons, respectively. In contrast, PAR-4 mRNA was mainly observed in non-neuronal cells. A double-labeling study of PARs with NF-200 and alpha calcitonin gene-related peptide (CGRP) also revealed the distinctive expression of PARs mRNA in myelinated or nociceptive neurons. This study shows the precise expression pattern of PARs mRNA in the DRG and indicates that the cells in DRG can receive modulation with different types of proteinase-activated receptors.
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PMID:Expression of mRNA for four subtypes of the proteinase-activated receptor in rat dorsal root ganglia. 1582 29

Proteinase-activated receptors (PARs) are expressed on the surface of many cells, but those on the platelet have been among the most thoroughly characterized. PARs act as key receptors mediating the proaggregatory and pro-secretory effects of thrombin. In addition to contributing to hemostasis, platelets are increasingly being viewed as important contributors to healing and to tumor growth. This is attributable to the many pro- and anti-angiogenic factors that are stored within platelets, which can be released at the sites of injury and new vessel growth. In this paper, we review the importance of the platelet in gastric ulcer healing, the contribution of platelet-contained angiogenic factors to the healing of gastric ulcers, and the role of PARs in regulating the release of angiogenic factors from platelets. Taken together, our results suggest that PARs, including those expressed on platelets, are a rational therapeutic target for modulating healing processes and tumor growth.
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PMID:Roles of platelets and proteinase-activated receptors in gastric ulcer healing. 1618 14

Proteinases like thrombin and trypsin, long known for their ability to activate the coagulation cascade or to act as hormone-processing enzymes, are now recognised as hormone-like regulators of cell function. These serine proteinases activate cell signalling by triggering a novel four-member family of G-protein-coupled receptors, termed Proteinase-Activated Receptors (PARs). This review article summarises historically the discovery of PARs as well as their unique mechanism of activation and outlines a number of different pathophysiological settings in which PARs can act to regulate cell and tissue function. PARs can be seen to play a role in pathophysiological processes ranging from inflammation and pain to cardiovascular disease and cancer. Apart from activating PARs to cause their physiological effects in tissues, proteinases can also mediate cell signalling via a number of other mechanisms, including the activation of growth factor receptors, like the one for insulin. Therefore, this article also describes the non-PAR mechanisms whereby proteinases can have hormone-like actions in cells and tissues.
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PMID:Proteinases as hormone-like signal messengers. 1620 79

Proteinase-activated receptors (PARs) are a novel family of G-protein-coupled receptors. PAR2 has been implicated in inflammatory airways disease. Although fibroblasts are pathologically important in the airways, the proinflammatory role of PAR2 in these cells remains unknown. We assessed PAR expression and functionality in human primary bronchial fibroblasts (HPBFs) before assessing PAR2-mediated HPBF proliferation, cytokine production, and adhesion molecule expression. RT-PCR and flow cytometry demonstrated that HPBFs express hPAR1, hPAR2, and hPAR3, but not hPAR4. Intracellular calcium signaling in HPBFs in response to PAR agonists showed that only hPAR1 and hPAR2 were functional receptors. We used the MTT assay to assess HPBF proliferation. Of the PAR2 agonist proteinases or selective PAR2-activating peptides (PAR2-APs) tested, none stimulated HPBF proliferation, whereas thrombin was a HPBF growth factor. mRNA for IL-8 and granulocyte colony-stimulating factor (G-CSF) was upregulated after addition of SLIGKV-NH2 when assessed by RT-PCR. No significant increase in G-CSF or IL-8 protein was detected. Trypsin stimulated IL-8 and G-CSF release from HPBF in a time- and dose-dependent manner. Leupeptin and soya trypsin inhibitor abrogated trypsin-stimulated cytokine release, indicating a requirement for trypsin's proteolytic activity. Trypsin and SLIGKV-NH2 stimulated an increase in VCAM-1 expression at 12 h after treatment, which declined thereafter. PAR2-driven upregulation of VCAM-1 cell surface expression and the release of IL-8 and G-CSF from bronchial fibroblasts may be important in promoting neutrophilic airways inflammation.
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PMID:Proteinase-activated receptor2 agonists upregulate granulocyte colony-stimulating factor, IL-8, and VCAM-1 expression in human bronchial fibroblasts. 1649 82

Serine proteinases have been recognized playing an important role in inflammation via proteinase-activated receptors (PAR). However, little is known of the influence of serine proteinases and PAR on interleukin-6 (IL-6) secretion from highly purified monocytes. We challenged monocytes from human peripheral blood with serine proteinases and agonist peptides of PAR and measured the levels of IL-6, IL-1beta and IL-12 in culture supernatants by enzyme-linked immunosorbent assay. The results showed that thrombin, trypsin, tryptase and elastase stimulated approximately up to 2.9-, 2.0-, 1.8- and 2.1-fold increase in IL-6 release from monocytes following 16 h of incubation, respectively. Proteinase inhibitors inhibited the actions of proteinases on monocytes. Agonist peptides of PAR-1 (SFLLR-NH(3)) and PAR-4 (GYPGQV-NH(2)), but not PAR-3 (TFRGAP-NH(2)), also induced IL-6 release from monocytes. The proteinases and agonists of PAR failed to stimulate IL-1beta and IL-12 secretion. In conclusion, the induction of IL-6 secretion by serine proteinases may be through the activation of PAR.
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PMID:Induction of interleukin-6 release from monocytes by serine proteinases and its potential mechanisms. 1678 86

Proteinase-activated receptors (PAR) have been recognized as playing an important role in inflammation and immune response. However, little is known of the expression and function of PAR on human T cells. In this study, the expression of PAR on highly purified human T cells was determined and the secretion of IL-6 from cultured T cells in response to serine proteinases and agonist peptides of PAR was examined. The results showed that T cells express PAR-1, PAR-2 and PAR-3 proteins and genes. Thrombin, trypsin and tryptase, but not elastase, were able to stimulate concentration-dependent secretion of IL-6 from T cells following a 16 h incubation period. The specific inhibitors of thrombin, trypsin and tryptase inhibited the actions of these proteinases on T cells, indicating that the enzymatic activity is essential for their actions. Agonist peptides of PAR SFLLR-NH2, TFLLRN-NH2 and SLIGKV-NH2, but not TFRGAP-NH2, GYPGQV-NH2 and AYPGKF-NH2, are also capable of inducing IL-6 release from T cells. In conclusion, induction of IL-6 secretion from T cells by thrombin, trypsin and tryptase is probably through the activation of PAR, suggesting that serine proteinases are involved in the regulation of immune response of the body.
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PMID:Induction of IL-6 release from human T cells by PAR-1 and PAR-2 agonists. 1686 43

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