Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In vitro findings suggest that alpha 2M is an important regulator of PDGF-stimulated fibroblast proliferation and chemotaxis. Native alpha 2M binds to PDGF and prevents PDGF from interacting with its receptor, but serves as an extracellular reservoir for the growth factor, which can be released over time in a controlled fashion to interact with the PDGF-alpha or -beta receptor. Methylamine-activated alpha 2M synergistically enhances PDGF-induced cell growth, whereas plasmin-activated alpha 2M inhibits PDGF-stimulated fibroblast proliferation. The reason for the difference in the effect of these two receptor-recognized alpha 2Ms is unknown. PDGF secreted by rat alveolar macrophages is bound to homologues of human alpha 2M and it has been suggested that PDGF action in the lung is tightly controlled during normal tissue remodeling. It is important to consider another regulator of PDGF termed SPARC (secreted protein, acidic and rich in cysteine), which inhibits the binding of PDGF-BB and -AB to cell-surface PDGF-beta receptors. SPARC could modulate PDGF activity during inflammation and tissue repair by limiting the availability of dimers containing the PDGF B chain. Future studies should address the relative importance of SPARC and alpha 2M in regulating PDGF-induced chemotaxis and proliferation. During inflammation or during the progression of fibroproliferative lung disease, the regulation of PDGF might be lost. For example, oxidative bursts from inflammatory cells (neutrophils and eosinophils) functionally inactivate alpha 2M. Thus, inhaled environmental insults (particles and oxidants) could perturb the normal growth regulatory signaling system between cells via the network that includes cytokines, alpha 2M, and proteinases.
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PMID:Regulation of platelet-derived growth factor (PDGF) and alveolar macrophage-derived PDGF by alpha 2-macroglobulin. 752 5

alpha 2-Macroglobulin (alpha 2M) is a potentially important regulator of platelet-derived growth factor-BB (PDGF-BB)-stimulated cell growth due to our previous observation that PDGF-BB binds to alpha 2M noncovalently (Bonner, J. C., Goodell, A. L., Lasky, J. A., and Hoffman, M. R. (1992) J. Biol. Chem. 267, 12837-12844). We examined the in vitro effect of native and plasmin-activated (receptor-recognized) alpha 2M on the PDGF-BB-induced proliferation of mouse Swiss 3T3 and rat lung fibroblasts. Nondenaturing polyacrylamide gel electrophoresis showed that plasmin converted alpha 2M to its electrophoretically "fast" form at a 2:1 molar ratio and that 125I-PDGF-BB bound both alpha 2M and alpha 2M-plasmin. PDGF-BB-induced growth was not affected by native alpha 2M (0.3 microM) or plasmin (0.6 microM). The combination of plasmin and alpha 2M (2:1 molar ratio) inhibited PDGF-BB-induced cell proliferation 80-90%. Complexes of PDGF-BB.alpha 2M purified by gel filtration chromatography retained growth promoting activity, but the PDGF-BB.alpha 2M-plasmin complex did not. Preincubation of fibroblasts (37 degrees C for 24 h) with alpha 2M-plasmin did not change 125I-PDGF-BB binding or affect gene expression of the 6.5-kilobase PDGF-alpha receptor or 5.2-kilobase PDGF-beta receptor mRNA. However, preincubation with alpha 2M-plasmin (0-4 degrees C for 4 h) increased 125I-PDGF-BB binding 2-fold, and this increase was blocked by a receptor-associated protein antagonist of the alpha 2M-receptor/low density lipoprotein receptor-related protein. The receptor-associated protein antagonist blocked 125I-alpha 2M-methylamine binding, inhibited PDGF-BB-alpha 2M-plasmin uptake from fibroblast-cultured supernatants, and abolished the inhibitory effect of alpha 2M-plasmin on PDGF-stimulated growth. These data suggest that inhibition of PDGF-stimulated proliferation by alpha 2M-plasmin is mediated in part by clearance of PDGF-BB-alpha 2M-plasmin through the lipoprotein receptor-related protein.
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PMID:Inhibition of platelet-derived growth factor-BB-induced fibroblast proliferation by plasmin-activated alpha 2-macroglobulin is mediated via an alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein-dependent mechanism. 753 12

Restenosis post angioplasty is a segmentally limited, wound healing response to a circumscript traumatization of the vascular wall associated with the therapeutic intervention, which also comprises residual or recoiling plaque components at the time of initial revascularization. Studies with animal models and the analysis of human plaque tissue harvested by autopsy or atherectomy indicate a cascade-like course of this wound healing reaction, in which initially different cell types such as thrombocytes, endothelial cells, monocytes/macrophages and smooth muscle cells (SMCs), later predominantly SMCs are involved. In the first phase of inflammation, angioplasty as a multifactorial stimulus induces a sequence of (a) destruction of endothelial and subendothelial structures, (b) traumatization of medial regions with rupture of the internal elastic lamina, (c) exposition of thrombogenic factors such as collagen or tissue factor, (d) stretching of smooth muscle cells with subsequent expression of proto-oncogens (c-fos, c-myc, c-myb), (e) release of growth factors from cells of the bloodstream, endothelial cells and SMCs by direct traumatization and segmental thrombus formation, and (f) thrombin production with autocatalytic activation of the SMC thrombin receptor. Overlapping the inflammation period, granulation begins 3 days after angioplasty. Proteinases such as plasmin as well as collagenases induce the disintegration of extracellular matrix structures, thereby modulating plaque formation, and lead to an organelle-rich SMC phenotype within the intima and media. The phenotypic alteration of SMCs is considered to be the prerequisite for mitogenic and migratory stimulation. This stage shows different expression patterns of growth factors and their receptors; however, there is only limited knowledge about spatiotemporal and maximal expression as well as their coordination for human vascular wall tissue (PDGF, PDGF-R, EGF-R, FGF, FGF-R, TGF-beta). Overlapping with the granulation period, induction of different components of the extracellular matrix occurs 1-2 weeks after angioplasty, possibly mediated by TGF-beta (phase of matrix formation). Smooth muscle cells produce and secrete matrix proteins such as tenascin, fibronectin, collagens and proteoglycans, and thereby induce a marked increase of the neointimal plaque volume. Angiographic restenoses of coronary and peripheral arteries histologically exhibit tissue with high cellularity (> 500 cells/mm2), associated with SMC activity markers such as PCNA or NMMHC-B. Proliferative and migratory activities of these cells in vitro are augmented by a factor of 2 to 3 as compared to those from chronic primary lesions. Transmission electron microscopic analysis proves that within the media a nearly complete re-differentiation of SMCs occurs, whereas intimal SMCs persist in the intermediate phenotype.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Mechanisms of re-stenosis after angioplasty]. 785 78

alpha 2-Macroglobulin (alpha 2M) regulates growth and gene expression in many cell types by binding and neutralizing transforming growth factor beta (TGF-beta). In this study we characterized the effects of the serine proteinase, plasmin, on the interaction of alpha 2M with TGF-beta 1 and TGF-beta 2. Binding of both TGF-beta isoforms to purified alpha 2M-plasmin complex was primarily non-covalent and reversible. The binding affinity of alpha 2M for TGF-beta 1 was increased by plasmin; the Kd values were 320 and 84 nM for native alpha 2M and alpha 2M-plasmin respectively. In contrast the affinity of alpha 2M for TGF-beta 2 was decreased by plasmin; the Kd values were 14 and 80 nM for native alpha 2M and alpha 2M-plasmin respectively. Thrombin decreased the affinity of alpha 2M for TGF-beta 2 in a similar manner to plasmin. In assays of DNA synthesis in fetal bovine heart endothelial cells, native alpha 2M neutralized the activity of exogenously added TGF-beta 2, whereas alpha 2M-plasmin, at equivalent concentrations, had almost no effect. Native alpha 2M and methylamine-modified alpha 2M increased platelet-derived growth factor alpha-receptor expression in vascular smooth-muscle cells, an activity attributed to the neutralization of autocrine TGF-beta activity, whereas alpha 2M-plasmin was less effective at the same concentration. These studies demonstrate that the effects of proteinases on the cytokine-binding and cytokine-neutralizing activities of alpha 2M are cytokine-dependent. By reacting with alpha 2M, proteinases might regulate not only the availability of cytokines in the extracellular spaces but also the composition of the cytokine milieu.
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PMID:Proteinases are isoform-specific regulators of the binding of transforming growth factor beta to alpha 2-macroglobulin. 897 65

We previously reported that a 16-kDa proteolytic fragment of IGF Binding Protein-3 (IGFBP-3), which is devoid of affinity for IGFs, inhibits the mitogenic effects of IGF-I on chick embryo fibroblasts. Here, we set out to determine if the fragment had biological effects on fibroblasts from mouse embryos homozygous for a targeted disruption of the Type 1 IGF receptor gene. In the cell clone used, bFGF (but not IGF, EGF or PDGF) was mitogenic in serum-free medium, increasing 14C-thymidine uptake by a factor of 10-15 within 24 hours and doubling cell proliferation. The 16-kDa fragment, isolated by HPLC following limited proteolysis of recombinant human (rh) IGFBP-3 by plasmin, in both assays dose-dependently (20 to 100 ng/ml) inhibited (up to 100%) maximal stimulation induced by 25 ng/ml bFGF, whereas intact IGFBP-3 had virtually no effect. Similar results were obtained with control wild-type cells. In the latter, the mitogenic activity of 1% fetal calf serum (equal to that of 25 ng/ml bFGF) was inhibited by only 25-30% by 100 ng/ml 16-kDa fragment or 200 ng/ml rhIGFBP-3. This agrees with an antagonistic action, affecting the mitogenic activity of serum that is attributable to IGFs. The 16-kDa IGFBP-3 fragment therefore appears to be a potent inhibitor of mitogenic signals resulting from activation of both the type 1 IGF and FGF receptors.
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PMID:The 16-kDa proteolytic fragment of insulin-like growth factor (IGF) binding protein-3 inhibits the mitogenic action of fibroblast growth factor on mouse fibroblasts with a targeted disruption of the type 1 IGF receptor gene. 920 55

We investigated the role of growth factors and fibronectin on matrix metalloproteinase (MMP) expression and on migration and invasion of mouse skeletal myoblasts in vitro. None of the growth factors tested significantly affected MMP-1 or MMP-2 activity as revealed by gelatin zymography, but both basic FGF (bFGF) and tumor necrosis factor (TNF)-alpha significantly increased MMP-9 activity (10- and 30-fold, respectively). The increase in secreted MMP-9 activity with TNF-alpha stimulation was due at least in part to an increase in MMP-9 gene transcription, because an MMP-9 promoter construct was approximately fivefold more active in TNF-alpha-treated myoblasts than in control myoblasts, as well as an increase in MMP-9 proteolytic activation. However, whereas fibronectin, bFGF, hepatocyte growth factor, and TGF-beta1 significantly augmented migration of mouse myoblasts, TNF-alpha did not, nor did PDGF-BB or IGF-I. Fibronectin and bFGF also significantly augmented invasion of myoblasts across a Matrigel barrier, and plasmin cotreatment potentiated whereas N-acetyl cysteine suppressed the effects of bFGF and fibronectin on myoblast migration and invasion. Finally, transient transfection with an MMP-9 overexpression construct had only minimal effects on myoblast migration/invasion, whereas overexpression of either MMP-2 or MMP-1 significantly augmented myoblast migration and invasion. These observations support the hypothesis that MMP activity is a necessary component of growth factor-mediated myoblast migration but suggest that other consequences of growth factor signaling are also necessary for migration to occur.
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PMID:Growth factor stimulation of matrix metalloproteinase expression and myoblast migration and invasion in vitro. 1246 49

Fibrinogen (FBG) assembles into matrix fibrils of fibroblasts, lung and mammary epithelial cells, but not endothelial cells. Furthermore, cryptic beta15-21 residues are exposed in FBG fibrils with no evidence of thrombin or plasmin proteolysis. Herein, the effects of FBG on migration and proliferation of wounded dermal fibroblasts were investigated. FBG preassembled into matrix prior to scrape-wounding induced 3H-thymidine incorporation 8-fold and shortened the time to wound closure 1.6-fold +/- 0.1-fold. FBG added immediately after wounding did not enhance either response. Fibroblast growth factor-2/platelet-derived growth factor (FGF-2/PDGF) stimulated cell proliferation 2.2-fold for FGF-2 and 3.2-fold for PDGF and wound closure 1.5-fold +/- 0.1-fold in the absence of matrix-FBG. Surprisingly, exogenous growth factors had negligible effect on wound closure and cell proliferation already enhanced by matrix-FBG. Matrix-FBG-enhanced wound closure required active assembly of an FBG-fibronectin matrix, engagement of alphavbeta3, and FBG Aalpha-RGDS572-575 integrin recognition sites; Aalpha-RGDF95-98 sites were not sufficient for matrix-FBG assembly, enhanced wound closure, or cell proliferation. Although Bbeta1-42 was not necessary for matrix assembly, it was required for matrix-FBG-enhanced cell migration. These data indicate that FBG serves as an important matrix constituent in the absence of fibrin formation to enhance wound repair and implicate Bbeta1-42 as a physiologic inducer of signal transduction to promote an intermediate state of cell adhesion and a migratory cell phenotype.
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PMID:Matrix-fibrinogen enhances wound closure by increasing both cell proliferation and migration. 1292 33

Tissue plasminogen activator (tPA) is a serine protease involved in the degradation of blood clots through the activation of plasminogen to plasmin. Here we report on the identification of tPA as a specific protease able to activate platelet-derived growth factor C (PDGF-C). The newly identified PDGF-C is secreted as a latent dimeric factor (PDGF-CC) that upon proteolytic removal of the N-terminal CUB domains becomes a PDGF receptor alpha agonist. The CUB domains in PDGF-CC directly interact with tPA, and fibroblasts from tPA-deficient mice fail to activate latent PDGF-CC. We further demonstrate that growth of primary fibroblasts in culture is dependent on a tPA-mediated cleavage of latent PDGF-CC, generating a growth stimulatory loop. Immunohistochemical analysis showed similar expression patterns of PDGF-C and tPA in developing mouse embryos and in tumors, indicating both autocrine and paracrine modes of activation of PDGF receptor-mediated signaling pathways. The identification of tPA as an activator of PDGF signaling establishes a novel role for the protease in normal and pathological tissue growth and maintenance, distinct from its well-known role in plasminogen activation and fibrinolysis.
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PMID:Tissue plasminogen activator is a potent activator of PDGF-CC. 1537 73