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
Query: EC:3.4.21.7 (
plasmin
)
9,023
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In inflammatory demyelinating diseases such as multiple sclerosis and experimental allergic encephalomyelitis, myelin destruction occurs in the vicinity of infiltrating mononuclear cells. The observations that myelin can be altered prior to phagocytosis and in areas not contiguous with inflammatory cells suggests a common mechanism for the initial stages of demyelination. Because stimulated macrophages secrete several neutral proteases, including plasminogen activator, we have investigated the possibility that myelinolysis could be mediated directly or indirectly by these enzymes. Isolated myelin was incubated with conditioned media from cultures of
thioglycollate
-stimulated mouse peritoneal macrophages in the presence and absence of plasminogen. Myelin appeared to be vulnerable to attack by at least two proteolytic activities secreted by the macrophages, a plasminogen-dependent and a plasminogen-independent activity; of the major proteins in myelin, the basic protein was most susceptible. The direct myelinolytic activity of macrophage-conditioned media was abolished by EDTA, and the plasminogen-dependent hydrolysis was abolished by p-nitrophenylguanidinobenzoate, an inhibitor of plasminogen activator and
plasmin
. These results suggest that the plasminogen activator released by the stimulated macrophages generated
plasmin
which hydrolyzed basic protein in intact myelin. This interpretation was confirmed by the observation that urokinase, a plasminogen activator, in the presence of plasminogen brought about marked degradation of basic protein in myelin. We propose that the release of neutral proteases by stimulated macrophages involved in cell-mediated reactions, and its amplification by the plasminogen-
plasmin
system, may play a significant role in the demyelination observed in several inflammatory demyelinating diseases.
...
PMID:Degradation of basic protein in myelin by neutral proteases secreted by stimulated macrophages: a possible mechanism of inflammatory demyelination. 14 51
A chromogenic tripeptide - H-D-Val-Leu-Lys-p-nitroanilide-substrate of
plasmin
, can be used to follow plasminogen activation by an activator such as urokinase or the activator secreted by mouse peritoneal macrophages (
thioglycolate
-elicited). The acceleration of p-nitroaniline production is proportional to the initial rate of
plasmin
formation from plasminogen. Thus, at a given plasminogen concentration, this acceleration is proportional to the activator concentration. The acceleration can be evaluated from the spectrophotometer trace recording at 405 nm the appearance of p-nitroaniline, either by means of a computer program or by a plot of delta A405 vs.t2. The sensitivity of this assay allows detection of 0.003 CTA units of urokinase. Thioglycollate-elicited mouse peritoneal macrophages secrete plasminogen activator into the extracellular medium during in vitro cultivation only after a contact with serum.
...
PMID:Regulation of plasminogen activator secretion in mouse peritoneal macrophages. I. - Role of serum studied by a new spectrophotometric assay for plasminogen activators. 48 77
Mouse resident peritoneal macrophages display sufficient 5'-nucleotidase activity to hydrolyze 58 nm AMP/min per cell protein. This activity increases approximately 163 nm AMP/min per mg after 72 h in culture. The enzyme is renewed in unstimulated cells with a half-time of 13.9 h. The activity is not reduced by treatment of intact cells with a variety of proteolytic enzymes, including trypsin, pronase, urokinase, and
plasmin
. Cells obtained from an inflammatory exudate have diminished or absent levels of enzyme activity. Endotoxin-elicited cells display enzyme activitiy of 20.9 nm AMP/min per mg, while
thioglycollate
-stimulated macrophages have no detectable activity. The reduced level of activity in endotoxin-stimulated cells is due to their elevated rate of enzyme degradation, with a half-time of 6.9 h. Their rate of enzyme synthesis is essentially normal. No evidence for latent enzyme activity could be obtained in
thioglycollate
-stimulated cells, nor do these cells produce any inhibition of normal cell enzyme activity. Serum deprivation reduces the enzyme activity of resident cells to about 45% of control activity. These conditions do not significantly affect the rate of enzyme synthesis, but again are explainable by an increase in the rate of enzyme degradation. Pinocytic rate is elevated in endotoxin-stimulated cells which show a more rapid rate of enzyme degradation than unstimulated cells do. However, in serum-free conditions, the rate of enzyme degradation is doubled with no change in the pinocytic rate of the cells.
...
PMID:5'-Nucleotidase activity of mouse peritoneal macrophages. I. Synthesis and degradation in resident and inflammatory populations. 100 5
An experimental in vivo model of aortic aneurysm was established by perfusing an isolated segment of rat abdominal aorta with pancreatic elastase. Ten rats were used in each protocol. Saline-perfused aortas developed no aneurysmal dilations. Elastase-perfused aortas contained aneurysms in the perfused area and a total loss of elastic tissue. Control aortas contained no elastic tissue lesions. There was a quantitative relation between the amount of elastase perfused and aneurysm formation: 1-2 units induced neither macroscopic nor microscopic lesions; 3-6 units induced microscopic elastic tissue damage without macroscopic aneurysm; and more than 6 units produced aneurysmal dilation in all cases. In situ elastase secretion by macrophages was induced by perfusing rat aortas with
thioglycollate
-activated macrophages or with
thioglycollate
alone. There was aortitis without true aneurysm and a total loss of elastic tissue in the vicinity of activated macrophages within the aortic media. Perfusion of infra-aneurysmal amount of elastase (1 or 2 units) or
thioglycollate
plus
plasmin
(2 units) always induced a large aneurysm, whereas
plasmin
alone induced neither macroscopic nor microscopic lesions. These morphological results were supported by the significantly elevated elastolytic activity within the aortic wall of animals perfused with
thioglycollate
plus
plasmin
9 days, after perfusion (207.6 +/- 54.8 micrograms elastin-rhodamine lysed/18 hr; control rats, 25.43 +/- 11.13). The results suggest that the presence of elastase within the aortic media leads to aneurysm formation. Activated macrophages within the aortic media may be responsible for elastase secretion and elastic tissue destruction. Plasmin may enhance elastase activity and aggravate the aneurysmal lesion.
...
PMID:Elastase-induced experimental aneurysms in rats. 214 19
The ability of acetyl-LDL to stimulate macrophage-dependent plasminogen activation and degradation of extracellular matrix was examined. We have found that expression of plasminogen activator activity in response to the scavenger receptor ligand varied among cell populations. Exposure to acetyl-LDL stimulated plasminogen activator expression by cells which constitutively released low levels of activator. These include a virally transformed macrophage-like cell line (RAW246.7), concanavalin A and C. parvum-activated macrophages. The stimulation of plasminogen activator activity was independent of cellular lipid accumulation since nonlipoprotein inhibitors of acetyl-LDL binding to the scavenger receptor stimulated activator expression in great excess to that observed with acetyl-LDL. In contrast, acetyl-LDL was unable to induce soluble plasminogen activator activity in cells which normally do not express it. These include a macrophage-like cell line (J774A.1) and resident peritoneal macrophages. Furthermore, acetyl-LDL was unable to modulate the copious secretion of activator by inflammatory macrophages elicited with
thioglycolate
. When macrophages were tested for their ability to degrade smooth muscle cell derived matrix, solubilization by resident, elicited, and activated cells was variously increased in the presence of plasminogen. Furthermore, exposure to acetyl-LDL enhanced
plasmin
-dependent degradation by resident cells and activated cells, whereas matrix degradation by elicited cells was unaffected.
...
PMID:Acetyl-LDL stimulates macrophage-dependent plasminogen activation and degradation of extracellular matrix. 339 84
Intact,
thioglycollate
-stimulated murine macrophages cultured on an insoluble [3H]-elastin substratum progressively hydrolysed the elastin. Cell lysates had little activity. We compared the effect of various proteinase inhibitors on elastinolysis by either live cells or cell-free, elastase-rich conditioned medium. Only known inhibitors of macrophage elastase blocked the activity of elastase-rich cell-conditioned medium whereas inhibitors of cathepsin B also suppressed intact cell activity. Serum proteinase inhibitors blocked cell-derived soluble elastase activity but not intact cell elastolytic activity. We also observed that plasminogen added to the cell cultures markedly increased elastinolysis by live macrophages or cell-free elastase-rich medium. Purified
plasmin
alone had no measurable effect on native elastin. Additional experiments indicated that the
plasmin
enhancement was due to elastin-dependent activation of latent macrophage elastase. These results indicate that live macrophage elastinolysis is a co-operative process involving multiple proteinases, especially a cysteine proteinase(s) and elastase. Plasmin may be a physiological activator of latent macrophage elastase.
...
PMID:Co-operation between plasmin and elastase in elastin degradation by intact murine macrophages. 623 43
Plasminogen activator (PA), a neutral protease whose primary function is to convert plasminogen to
plasmin
, is produced by various cells including macrophages, monocytes, endothelial cells, and tumor cells. This study reports the use of the chromogenic tripeptide substrate D-Val-Leu-Lys-p-nitroanilide (S-2251) and an automated microtiter plate reader spectrophotometer for the determination of PA activity in cells and fluids. There was a linear relationship between the time of incubation at 37 degrees C and the square root of the absorbance measured at 405 nm when urokinase was incubated with the substrate in the presence of plasminogen. There was no activity in the absence of plasminogen. The slopes of the lines (square root A 405/time) were directly related to the concentrations of urokinase, up through 0.05 CTA units. Using this assay, we determined the cellular activity of PA in human promyelocytic cells HL-60 (1.33 +/- 0.12 CTA units/mg), human monocytoid cells U937 (1.27 +/- 0.12 CTA units/mg), mouse myeloid leukemia cells RFM/UN (0.70 +/- 0.07 CTA units/mg), freshly isolated normal human monocytes (0.00 +/- 0.00 CTA units/mg), and human monocytes after 7 days in culture (5.66 +/- 0.38 CTA units/mg). There was a variable amount of activity expressed in freshly isolated cells or cell lysates of peritoneal macrophages from normal mice, or mice that had gotten intraperitoneal injections of peptone,
thioglycollate
, or NaIO4, but after 24 or 48 h of culture, these activities, in general, increased. Using this assay, PA levels in the euglobulin precipitates from human plasma prepared without venous occlusion (0.03 +/- 0.02 CTA units/mg protein) or after 5 min of venous occlusion of the arm (0.18 +/- 0.01 CTA units/mg) were comparable to those reported by others using different assays. Thus, this represents a simple, rapid, accurate assay of PA that should be useful to those in immunology, cell biology, and clinical medicine.
...
PMID:Microassay for the photometric quantitation of cell-associated plasminogen activator using a chromogenic tripeptide substrate. 659 19
Compared with croton oil- and
thioglycolate
-induced macrophages, the PHA-induced peritoneal macrophages showed th highest cytocidal activity against human malignant melanoma, mammary carcinoma and rat R3230 adenocarcinoma (AdCa) cells. Resident (physiological saline-induced) macrophages showed the lowest cytocidal activities. Vibrio cholera neuraminidase (VCN) and galactose oxidase increased, whereas trypsin,
plasmin
, papain and mild sonication decreased the cytotoxic function of macrophages against the neoplastic target cells. The effect of macrophage membrane prepartions on the cytocidal action of whole macrophages was also examined. VCN and galactose oxidase increased, whereas trypsin,
plasmin
, papain and mild sonication reduced the effects. It is concluded that the possible modulation of the cytocidal function of macrophages is due either to direct enzyme action on the macrophage surface, or to indirect enzyme action with enzymatically produced membrane preparations. Macrophage membrane preparations could either enhance or inhibit the antineoplastic action of the macrophags.
...
PMID:Correlation between macrophages and their membrane fraction. Cytocidal activities on neoplastic cells. 699 9
We have investigated the ability of neutral and lysosomal enzymes of mouse macrophages to degrade the insoluble extracellular matrices secreted by smooth muscle cells, endothelial cells, and fibroblasts. Matrices produced by smooth muscle cells contained glycoproteins, elastin, and collagens, but matrices of endothelial cells and fibroblasts contained no elastin. Sequential enzyme digestion of residual matrix revealed that
plasmin
, a product of macrophage plasminogen activation, degraded 50-70% of the glycoprotein in the matrices but did not degrade the elastin or the collagens. Purified macrophage elastase degraded glycoprotein and elastin components but had no effect on the collagens. The rate of elastin degradation by macrophage elastase was decreased in the presence of the glycoproteins. In contrast, human granulocyte elastase effectively degraded the matrix glycoproteins, elastin, and, to a lesser extent, collagens, Mammalian collagenase degraded only collagens. Conditioned medium from resident and inflammatory macrophages, containing mixtures of the secreted proteinases, degraded the glycoprotein and elastin components of the matrices. However, conditioned medium was less effective in degrading matrix than comparable amounts of purified macrophage elastase because > 90% of the elastase in the medium was in a latent form. Inclusion of plasminogen in the assays accelerated degradation. In the presence of plasminogen, glycoproteins were degraded readily by medium from P388D1, pyran copolymer-,
thioglycollate
-, and periodate-elicited macrophages and, to a lesser extent, by medium from endotoxin-elicited and resident macrophages; medium from P388D1,
thioglycollate
-, and periodate-elicited macrophages was most effective in elastin degradation, and resident, endotoxin-elicited and pyran copolymer-elicited macrophages degraded almost no elastin. The macrophage cathepsins D and B degraded all the matrix components at an optimum pH of 5.5 and acted with the secreted neutral proteinases to degrade the connective tissue macromolecules to amino acids and oligopeptides. These data indicate that macrophages at inflammatory sites contain and secrete proteolytic enzymes that could degrade the extracellular matrix.
...
PMID:Degradation of connective tissue matrices by macrophages. I. Proteolysis of elastin, glycoproteins, and collagen by proteinases isolated from macrophages. 700 Sep 66
Transforming growth factor-beta (TGF-beta) is secreted by most cells as a biologically inactive complex, called the large latent TGF-beta complex. The complex is comprised of latent TGF-beta binding protein (LTBP) and latent TGF-beta, which is mature TGF-beta associated noncovalently with its amino-terminal propeptides. LTBP is disulfide-linked to the amino-terminal propeptide of latent TGF-beta. Active TGF-beta is generated by release of TGF-beta from the complex. Generation of active TGF-beta by macrophages has been reported, but the activation mechanism has not been described. Latent TGF-beta activation by macrophages was characterized using serum-free cultures of resident and
thioglycollate
-elicited murine peritoneal macrophages that were either unstimulated or LPS-stimulated in vitro. Serum-free conditioned medium was assayed for TGF-beta using a quantitative luciferase-based bioassay. LPS-stimulated
thioglycollate
-elicited macrophages activated endogenous latent TGF-beta, whereas non-LPS-stimulated
thioglycollate
-elicited and resident macrophages generated undetectable levels of TGF-beta. Latent TGF-beta activation required
plasmin
and urokinase (uPA), uPA binding to the uPA receptor, interaction with the cation-independent mannose 6-phosphate/insulin-like growth factor type II receptor, tissue type II transglutaminase, and LTBP. A time-course analysis of latent TGF-beta activation revealed that maximal TGF-beta was generated after 24 h (25 +/- 5 pg/ml). TGF-beta formed within the initial 24 h modulated the plasminogen activator system by down-regulating uPA, suggesting that TGF-beta temporally modulated its own formation by regulating cell-associated uPA.
...
PMID:Characterization of latent TGF-beta activation by murine peritoneal macrophages. 763 10
1
2
3
Next >>
