Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have used delayed-type hypersensitivity (DTH) responses to probe the mechanisms of drug-induced cardiac allograft acceptance in mice. DBA/2-->C57BL/6 cardiac allograft recipients treated transiently with gallium nitrate accept their grafts for >90 days and fail to display DBA/2-reactive DTH responses. These DTH responses are restored when anti-TGF-beta Abs are included at the challenge site, and cell depletion studies showed that this DTH inhibition is mediated by CD4+ cells. Real-time PCR analysis revealed that allograft acceptor mice produce no more than background levels of TGF-beta mRNA at DTH challenge sites. This suggests that DTH regulation in allograft acceptor mice may involve TGF-beta activation, rather than TGF-beta production. The protease, plasmin, can activate TGF-beta, and activated T cells can express a receptor for the plasmin-producing enzyme urokinase-type plasminogen activator (uPA), and can also produce both uPA and tissue-type plasminogen activator (tPA). We observed that Abs to tPA or uPA can replace anti-TGF-beta mAb for the restoration of donor-reactive DTH responses in allograft acceptor mice. Histologic analysis revealed that accepted cardiac allografts express uPA, tPA, and active TGF-beta, whereas accepted cardiac isografts express only tPA, but not uPA or activated TGF-beta. These data demonstrate that local tPA and uPA contribute to DTH regulation in allograft acceptor mice and suggest that these elements of the fibrinolytic pathway are used to control donor-reactive cell-mediated immunity in allograft acceptor mice.
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PMID:Mechanisms of graft acceptance: evidence that plasminogen activator controls donor-reactive delayed-type hypersensitivity responses in cardiac allograft acceptor mice. 1079 71

In order to elucidate the relationship between homocysteine and the fibrinolytic system, we examined the effect of homocysteine on plasminogen activator inhibitor-1 (PAI-1) and tissue-type plasminogen activator (tPA) gene expression and protein secretion in cultured human vascular endothelial and smooth muscle cells in vitro. PAI-1 mRNA and secreted protein levels were both enhanced by homocysteine in a dose dependent manner, with significant stimulation of PAI-1 secretion observed at concentrations greater than 0.5 mM homocysteine. In contrast, secretion and mRNA expression of tPA were not significantly altered by homocysteine stimulation. Secretion of TGFbeta (transforming growth factor beta) and TNFalpha (tumor necrosis factor alpha), possible regulators of PAI-1 expression and secretion, were not stimulated by treatment with 1.0 mM homocysteine. These results suggests that hyperhomocysteinemia-induced atherosclerosis and/or thrombosis may be caused by homocysteine-induced stimulation of PAI-1 gene expression and secretion in the vasculatures by a mechanism independent from paracrine-autocrine activity of TGFbeta and TNFalpha.
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PMID:Enhancement by homocysteine of plasminogen activator inhibitor-1 gene expression and secretion from vascular endothelial and smooth muscle cells. 1087 24

Human atherosclerotic lesions exhibit increased expression of plasminogen activator inhibitor type-1 (PAI-1) that has been implicated in atherogenesis. Although vascular smooth muscle cells are a predominant source of PAI-1 expression potentially favorable modulation of PAI-1 expression by fibrates has not yet been characterized in these cells. Human aortic smooth muscle cells were exposed to selected growth factors. PAI-1 expression was stimulated most powerfully by TGF-beta (EC50 = 0.2 ng/ml, up to 12-fold increase). Gemfibrozil inhibited basal PAI-1 expression by 23% (p = ns) and TGF-beta-induced PAI-1 expression by 52% (p = 0.017) whereas t-PA and total protein synthesis was not affected. Changes in PAI-1 protein accumulation reflected PAI-1 gene expression attributable to modulation of half-life of PAI-1 mRNA by gemfibrozil. Inhibition by other fibrates was less. Gemfibrozil specifically attenuates TGF-beta-induced PAI-1 expression in human arterial smooth muscle cells. Thus, fibrates are promising agents for normalizing increased PAI-1 expression in arterial walls in patients in whom PAI-1 expression is increased.
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PMID:Attenuation by fibrates of plasminogen activator inhibitor type-1 expression in human arterial smooth muscle cells. 1181 22

Transforming growth factor beta-1 (TGF-beta1) is secreted in a biologically inactive form and stored in the extracellular matrix as a 290 kDa complex consisting of the mature TGF-beta1 homodimer (Mr 25 kDa), the latency-associated peptide (LAP; Mr 75 kDa), and the latent TGF-beta1 binding protein-1 (LTBP1; Mr 190 kDa). Latent TGF-beta1, composed of these three components, is known as the "large latent TGF-beta1 complex." In contrast, latent TGF-beta1 without LTBP1 is known as "small latent TGF-beta1." For all latent forms, dissociation of the TGF-beta1 homodimer from LAP is necessary for growth factor activation and acquisition of biological activity. Matrix vesicles produced by growth plate chondrocytes contain matrix metalloproteinases that can activate small latent TGF-beta1. The enzyme responsible for this is matrix metalloproteinase-3 (MMP-3), although matrix vesicles also contain MMP-2 and plasminogen activator. The present study tested the hypothesis that matrix vesicle enzymes are also involved in the release of the large latent TGF-beta1 complex stored in the extracellular matrix. Matrix vesicles were isolated from cultures of resting zone and growth zone chondrocytes and metalloproteinases present in the matrix vesicles extracted with guanidine-HCl. Chondrocyte extracellular matrices were prepared by lysing confluent cultures and removing the lysed cells. The matrices were incubated with matrix vesicle extracts and the release of total and active TGF-beta1 was determined. To determine if MMP-2 or MMP-3 was involved in the release, matrix vesicle extracts were preincubated with anti-MMP-2 antibody or anti-MMP-3 antibody to selectively deplete the enzyme activity. Matrices were also treated with rhMMP-2 or rhMMP-3. To determine the identity of the released protein(s), digests were separated on SDS-polyacrylamide gels and Western blotting analysis was performed using a specific antibody to LTBP1. Matrix vesicle extracts released both active and total (=latent + active) TGF-beta1 in a time-dependent manner, with peak release after 1 hour of incubation. The amount of total TGF-beta1 released was 10 times higher than the release of active TGF-beta1. The effect of the matrix vesicle extracts was dose-dependent; in addition, the amount and ratio of active to total TGF-b1 released was very similar, irrespective of the source of matrix or matrix vesicle extracts. Pre-incubation of matrix vesicle extracts with anti-MMP-3 antibody blocked the release of active and total TGF-beta1, whereas pre-incubation with pre-immune IgG or anti-MMP-2 antibody had no effect. The addition of rhMMP-3, but not rhMMP-2, caused a dose-dependent increase in the release of total, but not active, TGF-beta1. Western analysis confirmed that both matrix vesicle extracts and rhMMP-3 released the large latent TGF-beta1 complex from the matrix. In addition to the expected 290, 230, and 190 kDa bands, samples run without reduction also contained proteins of molecular weights 110 and 50 kDa that reacted with the anti-LTBP1 antibody. When these same samples were electrophoresed after reduction, the high molecular weight immunoreactive bands disappeared and three bands of molecular weight 75, 32, and 25 kDa were observed. These results indicate that matrix vesicles contain enzymes, especially MMP-3, which are responsible for the release of TGF-beta1 from the matrix, most of which is in latent form. Further, the data suggest that release of the large complex occurs via cleavage at several novel sites in the 130 kDa LTBP1 molecule. Since matrix vesicle MMP-3 is also able to activate small latent TGF-beta1, these results suggest that the large latent TGF-beta1 complex protects against activation of the small latent TGF-beta1. Thus, the data suggest that release of the large latent TGF-bl complex from the matrix and activation of the latent growth factor are only two steps of what must be at least a three-step process.
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PMID:The first stage of transforming growth factor beta1 activation is release of the large latent complex from the extracellular matrix of growth plate chondrocytes by matrix vesicle stromelysin-1 (MMP-3). 1190 8

Transforming growth factor beta 1 (TGF-beta1) affects growth plate chondrocytes through Smad-mediated mechanisms and has been shown to increase protein kinase C (PKC). This study determined if PKC mediates the physiological response of rat costochondral growth zone (GC) chondrocytes to TGF-beta1; if the physiological response occurs via type II or type III TGF-beta receptors, and, if so, which receptor mediates the increase in PKC; and the signal transduction pathways involved. Treatment of confluent GC cells with TGF-beta1 stimulated [(3)H]thymidine and [(35)S]sulfate incorporation as well as alkaline phosphatase (ALPase) and PKC specific activities. Inhibition of PKC with chelerythrine, staurosporine, or H-7 caused a dose-dependent decrease in these parameters, indicating that PKC signaling was involved. TGF-beta1-dependent PKC and the physiological response of GC cells to TGF-beta1 was reversed by anti-type II TGF-beta receptor antibody and soluble type II TGF-beta receptor, showing that TGF-beta1 mediates these effects through the type II receptor. The increase in [3H]thymidine incorporation and ALPase specific activity were also regulated by protein kinase A (PKA) signaling, since the effects of TGF-beta1 were partially blocked by the PKA inhibitor H-8. The mechanism of TGF-beta1 activation of PKC is through phospholipase A(2) (PLA(2)) and not through phospholipase C (PLC). Arachidonic acid increased PKC in control cultures and was additive with TGF-beta1. Prostanoids are required, as indomethacin blocked the effect of TGF-beta1, and Cox-1, but not Cox-2, is involved. TGF-beta1 stimulates prostaglandin E(2) (PGE(2)) production and exogenous PGE(2) stimulates PKC, but not as much as TGF-beta1, suggesting that PGE(2) is not sufficient for all of the prostaglandin effect. In contrast, TGF-beta1 was not regulated by diacylglycerol; neither dioctanoylglycerol (DOG) nor inhibition of diacylglycerol kinase with R59022 had an effect. G-proteins mediate TGF-beta1 signaling at different levels in the cascade. TGF-beta1-dependent increases in PGE(2) levels and PKC were augmented by the G protein activator GTP gamma S, whereas inhibition of G-protein activity via GDP beta S, pertussis toxin, or cholera toxin blocked stimulation of PKC by TGF-beta1, indicating that both G(i) and G(s) are involved. Inhibition of PKA with H-8 partially blocked TGF-beta1-dependent PKC, suggesting that PKA inhibition on the physiological response was via PKA regulation of PKC signaling. This indicates that multiple interacting signaling pathways are involved: TGF-beta1 stimulates PLA(2) and prostaglandin release via the action of Cox-1 on arachidonic acid. PGE(2) activates the EP2 receptor, leading to G-protein-dependent activation of PKA. PKA signaling results in increased PKC activity and PKC signaling regulates proliferation, differentiation, and matrix synthesis.
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PMID:Transforming growth factor-beta1 regulation of growth zone chondrocytes is mediated by multiple interacting pathways. 1206 64

Marrow stroma-derived cells (MSC) are highly proliferative, multipotential cells that have been considered as ideal candidate cells for autologous tissue engineering applications. In this study, we have characterized the chondrogenic potential of human MSCs in both a PLA/alginate amalgam and pure PLA macrostructure as model three-dimensional constructs to support both chondrogenic differentiation and proliferation following TGF-beta treatment. MSCs were seeded in experimental groups that consisted of PLA-loaded constructs and PLA/alginate amalgams with and without recombinant human TGF-beta1. Chondrogenesis of the PLA and the PLA/alginate amalgam cultures was assessed at weekly intervals by histology, immunohistochemistry, scanning electron microscopy, sulfate incorporation, and RT-PCR. Chondrogenic differentiation occurs within a polymeric macrostructure with TGF-beta1 treatment as indicated by histological, immunohistochemical, sulfate incorporation, and gene expression profiles. This macrostructure can be further encased in an alginate gel/solution to optimize cell shape and to confine growth factors and cells within the polymer construct, while the polymeric scaffold provides appropriate mechanical/tissue support. The stable three-dimensional PLA/alginate amalgam represents a novel candidate system of mesenchymal chondrogenesis, which is amendable to investigation of mechanical and biological factors that normally modulate cartilage development and formation as well as a potential tissue engineering construct for cartilage repair.
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PMID:Polymer/alginate amalgam for cartilage-tissue engineering. 1208 82

Plasminogen activator inhibitor type 1 (PAI-1), a risk marker of atherosclerosis, is highly expressed in adipose tissue from obese subjects. PAI-1 is also considered as an acute phase protein. Recently, adipose tissue has been described as a source of inflammatory cytokines. Therefore, our aim was to study the relationships between PAI-1, and IL-6, TNF, TNF receptors (TNFRSF1s) and TGFbeta1, in plasma and adipose tissue from obese (n = 60) and lean (n = 28) subjects. Study has been extended to plasminogen activators (t-PA and u-PA). Compared to lean subjects, obese subjects exhibited higher plasma levels of all the studied parameters (except for TGFbeta1) whereas in adipose tissue only PAI-1, t-PA and TGFbeta antigen levels differed. In the obese population, plasma PAI-1 levels were weakly associated with circulating TNF, and this relationship disappeared after adjustment for plasma t-PA. Adipose tissue PAI-1 levels were positively associated with TNFRSF1s and TGFbeta, the strongest relationship being observed with TNFRSF1A, which explained 82% of PAI-1 variability. TNF and IL-6 were the main contributors to t-PA variability in plasma and in adipose tissue, respectively. Our results argue on the relevance of TNFRSF1s in the regulation of PAI-1 expression by adipose tissue. Association between t-PA, which is mainly produced by endothelial cells, and IL-6 or TNF suggest that inflammation might be involved in angiogenesis in adipose tissue.
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PMID:Relationships between fibrinolytic and inflammatory parameters in human adipose tissue: strong contribution of TNFalpha receptors to PAI-1 levels. 1235 79

Plasminogen activator inhibitor (PAI)-1 plays a key role in the regulation of fibrinolysis and cellular invasion by virtue of suppression of plasminogen activator function. Excessive production of placental PAI-1 has been associated with aberrant periplacental fibrin deposition in pregnancies complicated by pre-eclampsia (PE) and intrauterine growth restriction (IUGR). In the current study we used HTR-8/SVneo cells and primary cultures of cytotrophoblasts as models for study of PAI-1 regulation by transforming growth factor (TGF)-beta, and dexamethasone (DEX), a synthetic glucocorticoid (GC). ELISA and Northern blotting assays revealed that DEX treatment significantly enhanced TGF-beta effects on PAI-1 protein and mRNA expression in HTR-8/SVneo cells and cytotrophoblasts. These effects were GC-specific in that DEX and cortisol, but not estradiol, progesterone or testosterone, augmented PAI-1 levels in TGF-beta-treated cells. Conversely, DEX and TGF-beta treatment suppressed PAI-2 levels in HTR-8/SVneo cells and did not affect PAI-2 levels in cytotrophoblasts. PAI-1 promoter assays revealed that TGF-beta, but not DEX, enhanced PAI-1 expression in HTR-8/SVneo cells through a transcriptional mechanism. These results suggest that GC and TGF-beta may alter fibrinolytic and invasive properties of trophoblasts through their effects on PAI-1 expression.
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PMID:Regulation of plasminogen activator inhibitor (PAI)-1 expression in a human trophoblast cell line by glucocorticoid (GC) and transforming growth factor (TGF)-beta. 1239 12

The intravenous injection of the serine protease, tissue-type plasminogen activator (t-PA), has shown to benefit stroke patients by promoting early reperfusion. However, it has recently been suggested that t-PA activity, in the cerebral parenchyma, may also potentiate excitotoxic neuronal death. The present study has dealt with the role of the t-PA inhibitor, PAI-1, in the neuroprotective activity of the cytokine TGF-beta1 and focused on the transduction pathway involved in this effect. We demonstrated that PAI-1, produced by astrocytes, mediates the neuroprotective activity of TGF-beta 1 against N-methyl-D-aspartate (NMDA) receptor-mediated excitotoxicity. This t-PA inhibitor, PAI-1, protected neurons against NMDA-induced neuronal death by modulating the NMDA-evoked calcium influx. Finally, we showed that the activation of the Smad3-dependent transduction pathway mediates the TGF-beta-induced up-regulation of PAI-1 and subsequent neuroprotection. Overall, this study underlines the critical role of the t-PA/PAI-1 axis in the regulation of glutamatergic neurotransmission.
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PMID:Smad3-dependent induction of plasminogen activator inhibitor-1 in astrocytes mediates neuroprotective activity of transforming growth factor-beta 1 against NMDA-induced necrosis. 1250 96

Type 1 plasminogen activator inhibitor (PAI-1) is the primary inhibitor of tissue-type plasminogen activator (tPA) and urokinase-type plasminogen activator (uPA). Whereas PAI-1 is not expressed in normal kidneys, it is strongly induced in glomerular diseases and thus could promote the local accumulation of fibrin. To study the role of PAI-1 in the development of inflammatory glomerular injury, passive antiglomerular basement membrane (GBM) glomerulonephritis (GN) was induced in PAI-1 knockout mice and in wild-type mice of the same genetic background. Unexpectedly, PAI-1 deficiency was associated with an early and severe exacerbation of glomerular injury: Infiltration by CD4 T cells, proportion of fibrinous crescents, and renal function impairment were significantly more pronounced in PAI-1 -/- mice. Interestingly, activation of transforming growth factor (TGF)- beta, which is known to be dependent on the PA/plasmin system in vitro, was dramatically enhanced in the kidneys in the absence of PAI-1. Moreover, administration of neutralizing antibodies against TGF-beta significantly attenuated the disease in PAI-1 -/- mice. This suggests that the poor outcome of GN in PAI-1 -/- mice is consecutive to an uncontrolled activation of TGF-beta and confers PAI-1 with a new, immunomodulatory role.
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PMID:Type 1 plasminogen activator inhibitor deficiency aggravates the course of experimental glomerulonephritis through overactivation of transforming growth factor beta. 1289 66


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