EC:3.4.21.7 - FACTA Search

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Query: EC:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The experimental modulation of tight junctions (TJ) was studied in the human adenocarcinoma cell line HT 29 by freeze-fracture electron microscopy. The cell line has virtually no TJ when grown in culture. TJ could be induced by mild treatment with a variety of endopeptidases (trypsin, chymotrypsin, collagenase, elastase, plasmin, thrombin, papain, and pronase). Pronase induced the formation of TJ at low (but not at high) concentrations. All exopeptidases studied were unable to induce the formation of TJ. At 0 degree C the trypsin-induced formation of TJ was greatly slowed down although not entirely inhibited. However, when cells were briefly treated with trypsin at 0 degree C and subsequently transferred to 37 degrees C in the presence of protease inhibitors, TJ were rapidly assembled. Thus an induction phase at low temperature and an assembly phase at high temperature could be experimentally separated. When cells were briefly trypsinized at 0 degrees and subsequently kept at 0 degree C without trypsin for several hours, TJ still formed abundantly upon incubation at 37 degrees C. It appears therefore that the effect produced by the protease is retained for long periods in the cold.
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PMID:Formation of tight junctions in epithelial cells. I. Induction by proteases in a human colon carcinoma cell line. 388 Jul 1

We have studied the susceptibility of fibrils formed from fetal bovine skin type III collagen to proteolytic enzymes known to cleave within the helical portion of the molecule (vertebrate and microbial collagenase, polymorphonuclear elastase, trypsin, thermolysin) and to two general proteases of broad specificity (plasmin, Pronase). Fibrils reconstituted from neutral salt solutions, at 35 degrees C, were highly resistant to nonspecific proteolysis by general proteases such as polymorphonuclear elastase, trypsin, and thermolysin but were rapidly dissolved by bacterial and vertebrate collagenases at rates of 12-45 mol X mol-1 X h-1. In solution, type III collagen was readily cleaved by each of the proteases (with the exception of plasmin), as well as by the true collagenases, although at different rates. Turnover numbers determined by viscometry at 35 degrees C were: human collagenase, approximately equal to 1500 h-1; microbial (clostridial) collagenase, approximately equal to 100 h-1; and general proteases, 23-52 h-1. In addition it was shown that pronase cleaves type III collagen in solution at 22 degrees C by attacking the same Arg-Gly bond in the alpha 1(III) chain as trypsin. However, like other proteases, Pronase was rather ineffective against fibrillar forms of type III collagen. It was also shown that transition of type III collagen as well as type I collagen to the fibrillar form resulted in a significant gain of triple helical thermostability as evidenced by a 6.8 degrees C increase in denaturation temperature (Tm = 40.2 degrees C in solution; Tm = 47.0 degrees C in fibrils).
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PMID:Cleavage of bovine skin type III collagen by proteolytic enzymes. Relative resistance of the fibrillar form. 390 16

It has been previously observed that collagen destruction occurs in the vicinity of immune complexes present in articular cartilages of patients with rheumatoid arthritis. When IgG is covalently linked to Sepharose it behaves as if it has reacted with an antigen to form an immune complex, in that it binds the complement component C1 from human serum. Other serum components also interact with this matrix, though their interaction may not be specific for IgG. Two of these components were shown to possess proteolytic activity, one being kallikrein and the other having the properties of plasmin. Both of the activities could activate latent human collagenase. Whilst the binding of the plasmin activity is probably nonspecific, the binding of the kallikrein activity may be selective for IgG (although it is not certain whether this binding is direct or indirect via another molecule). These results therefore suggest that active proteinases such as plasma kallikrein may be selectively concentrated on immune complexes in vivo, where they may locally activate latent proteinases such as collagenase thereby initiating tissue destruction.
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PMID:Activation of latent collagenase by serum proteinases that interact with immobilized immunoglobulin G. 609 Dec 34

Latent and active collagenase were demonstrated following direct extraction from normal skin homogenates with 0.1M calcium chloride at 60 degrees C. 83% of the collagenase activity was in latent form and could be maximally activated with trypsin. Partial activation of the latent enzyme could also be demonstrated by incubation of the skin extract without added trypsin. This endogenous activation was inhibited by the addition of soya bean trypsin inhibitor, trasylol, di-isopropylphosphofluoridate and phenylmethanesulphonylfluoride, none of which inhibited collagenase directly. This suggests that the skin extracts contain a collagenase activating enzyme with the inhibition profile of a serine proteinase. A chymotryptic proteinase with a similar inhibition profile was extracted from normal human skin and partially purified. This enzyme activated fibroblast procollagenase derived from tissue culture of normal skin. The procollagenase was also partially activated by plasmin and chymotrypsin. This is the first demonstration of a collagenase activating enzyme in human skin and raises the possibility that collagenase activation by this mechanism may be responsible for collagen degradation in some disease processes.
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PMID:Serine proteinase activation of latent human skin collagenase. 609 38

Bovine capillary endothelial cells have been found to respond to several stimuli by producing increased amounts of plasminogen activator and latent collagenase. These stimulators include the tumor promoter tetradecanoyl phorbol-13-acetate as well as crude preparations from a human hepatoma, bovine retinae, and mouse adipocytes, all of which are known to contain angiogenic factors. Endothelial cells and skin fibroblasts do not respond to these stimuli in the same way, indicating a specificity of the response. In addition, inhibitors of plasmin and vertebrate collagenase have been isolated from cartilage, a tissue resistant to neovascularization. We have proposed that these specific protease inhibitors confer on cartilage its antiangiogenic properties.
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PMID:The involvement of proteases and protease inhibitors in neovascularization. 617 34

In this study, the effect of sixteen different enzymes on serum C1 and its subcomponents was investigated. The sixteen enzymes could be divided into three groups. First, enzymes which activate native C1: trypsin (optimal concentration 2.4 x 10(-4) mM); alpha-chymotrypsin (2.3 x 10(3) mM); thrombin (1.0 x 10(-5) mM); plasmin (1.9 x 10(-5) mM); elastase (5.8 x 10(-5) mM); pronase (3.0 x 10(-6) mM). All these enzymes are serine esterase and activate native serum C1 bound to EAC4 at the given concentration within 10 min at 30 degrees C. Furthermore, native C1 inhibited by a pentosanpolysulfoester, Sp54, is unable to undergo the internal activation but can be externally activated by the serine esterases. Second, enzymes which do not activate native C1 but result in a dose and time-dependent loss of C1 activity: collagenase; pepsin; carboxypeptidase B. Third, enzymes which have no effect on C1 and C1: Lysozyme; neuraminidase; beta-galactosidase; L-amino acid oxidase; arginase; streptokinase, and acetylcholinesterase.
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PMID:Activation of the first component of complement, C1: comparison of the effect of sixteen different enzymes on serum C1. 619 90

It is known, that plasmin is capable of specifically activating the complement factors C1 q and C3. In addition plasmin can activate procollagenase to collagenase. Since both mechanisms could possibly play a decisive role in the pathogenesis of rheumatoid arthritis, we have carried out animal experiments to investigate the primary role of plasmin in the development of arthritis. Twenty-two rabbits were subjected to intraarticular injection with an equal dose of plasmin on days 1, 4, and 8. An aspirate was taken on day 9 for a white cell count and a histological investigation of the synovial tissue. Already after a single dose of 0.25 CU plasmin an inflammatory reaction was clearly observed. Increasing amounts of plasmin (2.5 and 12.5 CU) caused an increased inflammatory response. On the basis of these results, it is discussed whether the observed arthritic reaction after plasmin injection is caused by complement activation. Possible analogies with rheumatoid arthritis are discussed.
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PMID:[Experimental plasmin arthritis]. 622 84

Although ulceration of the corneal stroma after alkali burns is known to be correlated with persistent epithelial defects, the relationship between a defect and the mediators thought to contribute to stromal destruction (plasminogen activator, plasmin, collagenase) has not been understood. This report demonstrates that fibrin and fibronectin appear on the stromal surface after an alkali burn, and that those substratum, matrix components disappear in correlation with the appearance of plasminogen activator on the stromal surface, re-surfacing by the epithelium and a persistent epithelial defect. The facts that epithelium releases plasminogen activator and that plasmin, generated from plasminogen by an activator, can degrade both fibrin and fibronectin, as well as the laminin component of the subepithelial basement membrane, would suggest that the plasminogen activator-plasmin system effect degradation of those macromolecules, thus initiating the events that lead to eventual, frank stromal ulceration. It is hypothesized that stromal ulceration is initiated by the chronic secretion from an epithelium with a persistent defect of a protease (plasminogen activator) involved in wound healing.
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PMID:Ulceration is correlated with degradation of fibrin and fibronectin at the corneal surface. 622 46

Plasminogen is present in the cornea andcan be activated to plasmin by plasminogen activator. Plasmin is able, in turn, to activate latent collagenase. This system could initiate and perpetuate the collagen degradation of corneal ulceration. This report details evidence for such a system in the cornea. Plasmin has been found to activate latent collagenase from organ cultures of ulcerating rabbit corneas and from fibroblast cultures derived from such corneas. As in the case of activation by trypsin, activation by plasmin results in the conversion of the 40,000 MW latent form to an active species of 23,000 MW. Explants of normal or alkali-burned, ulcerating corneas demonstrated plasminogen-dependent lysis of fibrin clots; frozen sections of such corneas demonstrated that lysis begins in the superficial stroma near the periphery of the cornea. Multiply freeze-thawed ulcerating corneas, but not normal corneas, showed initial lysis, not peripherally but at the ulcer region containing polymorphonuclear leukocytes. The fact that the peripheral lytic pattern existed in corneas that were obtained from eyes prefrozen in liquid nitrogen before excision of the corneas would suggest that plasminogen activator is normally contained in cells in vivo and is not made only in response to tissue injury. There was no correlation between the location of blood vessels or the presence of the corneal endothelium and the plasminogen-dependent lysis. Plasminogen activator from the ulcerating cornea and from fibroblasts was characterized by sodium dodecyl sulfate--gel electrophoresis of its cleavage products of plasminogen. The activator cleaves plasminogen into heavy- and light-chain fragments similar to those produced from plasminogen by urokinase. Plasminogen activator activity was quantitated by a new assay that restricts diffusion of the enzyme to one dimension into a narrow bore tube. The addition of plasminogen daily to cultures of ulcerating corneas resulted in earlier rises of plasminogen activator, collagenase, and collagen degradation fragments in the culture media. Although total plasminogen activator levels were not increased by the addition of plasminogen to culture, levels of both collagenase and solubilized collagen were approximately doubled. It is concluded that the plasminogen activator--plasmin system might play an important role in the destruction of stromal matrix in corneal ulceration.
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PMID:Evidence for a role of the plasminogen activator--plasmin system in corneal ulceration. 625 12

Latent pig synovial collagenase (EC 3.4.24.7) can be activated by a variety of different treatments to give an active enzyme form of lower molecular weight which rapidly degrades collagen. Trypsin and plasmin effectively activated the latent collagenase whilst elastase and cathepsin G degraded most of the latent enzyme before it was activated. A number of mercurials were compared and maximum activation was achieved using 4-aminophenylmercuric acetate and phenylmercuric chloride. The latent collagenase bound to a mercurial-Sepharose column and was eluted in the active form with NaCl. The latent collagenase also activated spontaneously and the conditions which encouraged and prevented this activation were studied. High NaCl concentration, diisopropylphosphofluoridate, soybean trypsin inhibitor, low Zn2+ concentration and high and low pH all prevented the spontaneous activation of latent pig synovial collagenase.
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PMID:The activation of latent pig synovial collagenase. 626 Feb

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