EC:3.4.21.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Macrophage adhesion molecule (MAM), an abundant surface molecule which functions in the adhesion and spreading of guinea pig macrophages on surfaces, is characterized as a heterodimer of the trypsin- and plasmin-sensitive glycopeptide gp160 (MAM-alpha) and the glycopeptide gp93 (MAM-beta). The density of MAM molecules is estimated at 630,000 per macrophage on the basis of quantitative binding of 125I-labeled monoclonal antibody. The glycopeptide subunits display microheterogeneity on isoelectrofocusing; the pI is 5.8-6.3 for gp160 (MAM-alpha) and 6.4-7.0 for gp93 (MAM-beta). A neutrophil gp160, gp93 molecule was shown to be indistinguishable from macrophage MAM on the basis of electrophoresis, isoelectrofocusing, and reactivity with 10 monoclonal antibodies. A related heterodimer of gp93 associated with a larger, antigenically different glycopeptide (gp180,gp93) was identified on circulating lymphocytes. Cumulative properties indicate that MAM is the guinea pig analogue of human Mo1 and mouse Mac-1.
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PMID:Characterization of macrophage adhesion molecule. 296 69

Macrophage adhesion molecule (MAM) is a surface heterodimer consisting of the trypsin- and plasmin-sensitive glycopeptide gp160 (MAM-alpha) and the glycopeptide gp93 (MAM-beta). MAM, which is the guinea pig analogue of Mo1 and Mac-1, was purified from detergent lysates of peritoneal neutrophils by lentil lectin chromatography and M2-antibody chromatography. The pure heterodimer molecule was dissociated by acidic conditions (pH 3.5), and MAM-alpha and MAM-beta were separated by M7-antibody chromatography. MAM-beta is an approximately 640 amino acid residue polypeptide with exceptionally high cysteine content. At 7.2 residues per 100 amino acids, Cys/2 of MAM-beta is more than 3 times the mean for 200 purified proteins. Reactivity with six beta-subunit-specific monoclonal antibodies recognizing at least four epitopes demonstrated that intrapeptide disulfide bonds are required to maintain the structure of MAM-beta. All six antibodies failed to react when MAM-beta was treated with reducing agents. MAM-beta is 18% carbohydrate; the major monosaccharides are mannose, N-acetylglucosamine, galactose, and sialic acid. MAM-beta is estimated to contain five to six N-linked carbohydrate units. MAM-alpha is an approximately 1100-residue polypeptide with lower Cys/2 content (2.0 residues per 100 amino acid residues). MAM-alpha is 21% carbohydrate. The major monosaccharides are mannose, N-acetylglucosamine, galactose, and sialic acid; the mannose content is higher in MAM-alpha than MAM-beta. MAM-alpha is estimated to contain 12 N-linked carbohydrate units.
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PMID:Purification, composition, and structure of macrophage adhesion molecule. 334 44

The authors describe the case of a 60-year-old man with POEMS syndrome associated with vascular lesions. The patient had osteosclerotic myeloma IgA (lambda), polyneuropathy, endocrinopathy, and skin changes. Subsequently, he developed gangrene of the lower limbs with no response to heparin therapy. The humoral study showed thrombocythemia, high levels of interleukin-1beta (IL-1beta) and IL-6 and of some coagulative/fibrinolytic and endothelial factors (von Willebrand factor, plasmin-antiplasmin complexes, plasminogen activator, and endothelial adhesion molecule ICAM-1). The authors suggest that these factors, induced by the increased levels of cytokines, could be responsible for microvascular damage, gangrene, and heparin resistance.
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PMID:POEMS syndrome with vascular lesions: a role for interleukin-1beta and interleukin-6 increase--a case report. 982 51

P-Selectin, an adhesion molecule expressed on the surfaces of activated platelets and the vascular endothelium, mediates platelet binding to monocytes and neutrophils. Monocytes and neutrophils produce superoxide anion by activated platelets through p-selectin. Aprotinin, a serine protease inhibitor, inhibits plasmin to activate platelets during cardiopulmonary bypass (CPB). A total of 25 patients were studied to clarify the effects of aprotinin on p-selectin expression during CPB. Nine patients were not given aprotinin (control group), and 16 were given aprotinin of 2 million U in the priming solution (aprotinin group). The platelet count and soluble p-selectin in the plasma, p-selectin on the surface membranes of platelets, and leukocyte-platelet conjugate levels were measured during and after CPB. The platelet count was maintained well in the aprotinin group. The increases of soluble p-selectin in the plasma, platelet surface p-selectin, and leukocyte-platelet conjugates were less in the aprotinin group than in the control group (p < 0.05). In conclusion, aprotinin in patients undergoing CPB may reduce the early inflammatory reactions induced by p-selectin.
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PMID:Aprotinin reduces the expression of p-selectin on the surface of platelet and leukocyte-platelet conjugates. 987 93

Reperfusion injury is defined as the enhancement of the damage that occurs in ischaemic cells during the reperfusion period. Cellular damage to the brain occurs not only during the ischaemic period, but also during the reperfusion period. Such injury occurs when blood flow is restored to heart, brain or other tissue after flow has been blocked. Several mechanisms appear to play a role in the generation of reperfusion injury. To a greater or lesser extent, most involve neutrophils. The infiltration of neutrophils into the previously ischaemic area has been implicated as playing major role following reperfusion. Microscopic examination of tissue has shown a direct correlation between the duration of oxygen deprivation with the amount of damage, and the extent of activated neutrophil recruitment. Activated neutrophils are responsible for the release of serine proteases, which directly lead to tissue damage. Activated neutrophils also contain a newly assembled enzyme that produces tissue damaging free radicals. However, a preliminary and necessary step is to attach the activated neutrophil on to the lining of the blood vessels, a process requiring proteolytic activity. Administration of a drug that prevents neutrophil transmigration would reduce reperfusion injury. SuperGen is developing a drug, LEX 032, with a unique spectrum of activities, including the ability to inhibit binding of neutrophils to the vascular surface by blocking this proteolytic activity. In addition, this drug inhibits free radical production by neutrophils, and inhibits the activity of released serine proteases. Therefore, LEX 032 is expected to prevent or minimise neutrophil mediated reperfusion injury. Blockade of all three destructive inflammatory responses should limit the amount of damaged tissue and save viable tissue. A drug with these capabilities might find use in the treatment of myocardial infarction, shock-resuscitation, replantation surgery, frostbite, burns and organ transplantation. Since LEX 032 has no inhibitory activity against thrombin and plasmin, it represents an ideal drug for use in the treatment of ischaemic stroke. Recently, data have been published demonstrating that ischaemic stroke patients given the thrombolytic drug tPA were at least 30% more likely to have minimal or no disability at three months, as measured by outcome scales, when compared to placebo-treated patients. Presumably, this action was because of the hastening of brain reperfusion, and may have been limited due to reperfusion injury. The FDA approved the use of tPA for the limited treatment of acute ischaemic stroke. Since LEX 032 has been shown to limit neutrophil mediated reperfusion damage, it may find use either alone, to ameliorate damage occurring spontaneously during ischaemic stroke, or in combination therapy with tPA to reduce reperfusion injury secondary to thrombolytic therapy. This unique approach may have broad therapeutic potential in the treatment of neutrophil mediated diseases since, unlike a monoclonal antibody for example, it is independent of the specific adhesion molecule(s). These diseases include inflammatory diseases which are, at least in part, caused or exacerbated by excessive neutrophil proteases, such as acute pancreatitis, arthritis, allograft rejection, sepsis, meningitis, acute pulmonary inflammation, psoriasis and damage caused by burns. This is in addition to reperfusion-related diseases such as myocardial infarction, stroke, shock-resuscitation, replantation surgery, frostbite, burns and organ transplantation.
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PMID:LEX 032: a novel recombinant human protein for the treatment of ischaemic reperfusion injury. 1113 33

The L1 adhesion molecule plays an important role in axon guidance and cell migration in the nervous system. L1 is also expressed by many human carcinomas. In addition to cell surface expression, the L1 ectodomain can be released by a metalloproteinase, but the biological function of this process is unknown. Here we demonstrate that membrane-proximal cleavage of L1 can be detected in tumors and in the developing mouse brain. The shedding of L1 involved a disintegrin and metalloproteinase (ADAM)10, as transfection with dominant-negative ADAM10 completely abolishes L1 release. L1-transfected CHO cells (L1-CHO) showed enhanced haptotactic migration on fibronectin and laminin, which was blocked by antibodies to alpha v beta 5 and L1. Migration of L1-CHO cells, but not the basal migration of CHO cells, was blocked by a metalloproteinase inhibitor, indicating a role for L1 shedding in the migration process. CHO and metalloproteinase-inhibited L1-CHO cells were stimulated to migrate by soluble L1-Fc protein. The induction of migration was blocked by alpha v beta 5-specific antibodies and required Arg-Gly-Asp sites in L1. A 150-kD L1 fragment released by plasmin could also stimulate CHO cell migration. We propose that ectodomain-released L1 promotes migration by autocrine/paracrine stimulation via alpha v beta 5. This regulatory loop could be relevant for migratory processes under physiological and pathophysiological conditions.
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PMID:Ectodomain shedding of L1 adhesion molecule promotes cell migration by autocrine binding to integrins. 1170 54

Thromboembolic complications are often seen in patients with nephrotic syndrome. Markers of endothelial cell injury [thrombomodulin, intracellular adhesion molecule, vascular cell adhesion molecule, thrombin activatable fibrinolysis inhibitor (TAFI), protein Z, vascular endothelial growth factor, markers of thrombin and plasmin generation] were studied in 22 patients with nephrotic syndrome. All these parameters studied, except protein Z and D-dimers, were significantly higher in patients with nephrotic syndrome, whereas protein Z was significantly lower when compared with the healthy volunteers. None of the endothelial cell markers (thrombomodulin, P-selectin, E-selectin, intracellular adhesion molecule, vascular cell adhesion molecule), thrombin and plasmin generation markers (thrombin-antithrombin complexes, prothrombin fragments 1 + 2, plasmin-antiplasmin complexes, D-dimers), protein C, protein Z, vascular endothelial growth factor, and TAFI concentration and activity were directly correlated with the level of proteinuria, albumin, cholesterol, triglycerides or creatinine, except significant positive correlations between TAFI activity and serum creatinine, E-selectin and albumin as well as negative correlations between plasmin-antiplasmin complexes and proteinuria. In these patients, there is evidence of endothelial cell injury and probably secondary activation of the coagulation cascade. Elevated circulating TAFI antigen and activity might be a new link in the pathogenesis of impaired fibrinolysis and the progression of atherosclerosis in nephrotic syndrome. Protein Z deficiency might also contribute to the enhanced risk of thromboembolic complications in nephrotic syndrome.
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PMID:Markers of endothelial cell injury and thrombin activatable fibrinolysis inhibitor in nephrotic syndrome. 1243 47

Transforming growth factor-beta1 (TGF-beta1) is involved in different physiological and pathological processes, including atherogenesis. High plasma lipoprotein(a) (Lp(a)) concentration is an established independent risk factor that may interfere with the plasmin-mediated TGF-beta1 activation. Both Lp(a) and TGF-beta1 are thought to influence the expression of cellular adhesion molecules (CAMs), also involved in the process of atherogenesis. Whereas many studies confirmed the association between high plasma Lp(a) levels and coronary artery disease (CAD), conflicting results were obtained in different studies in which the changes of TGF-beta1 and CAM concentrations in CAD patients were investigated. The aim of this case-control study was to explore the association of circulating TGF-beta1, Lp(a) and CAMs (intracellular adhesion molecule-1 (ICAM-1), vascular cell adhesion molecule-1 (VCAM-1) and E-selectin) levels with the occurrence and severity of angiographically assessed coronary artery disease. Plasma TGF-beta1, Lp(a), ICAM-1, VCAM-1 and E-selectin concentrations were measured in 100 patients with angiographically assessed CAD and 100 healthy blood donors matched according to age and gender. Lp(a) and TGF-beta1 were significantly higher in patients than in healthy controls (p < 0.001 and p < 0.01, respectively), but no significant correlation between the TGF-beta1 and Lp(a) values was found. The CAM concentrations obtained in CAD patients did not differ significantly as compared with the corresponding values in the controls. None of the measured parameters were influenced by the severity of CAD.
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PMID:Circulating transforming growth factor-beta1, lipoprotein(a) and cellular adhesion molecules in angiographically assessed coronary artery disease. 1294 May 14

Angiogenin is a member of the ribonuclease superfamily, which shows an ever expanding collection of molecules being identified and cloned. It was initially isolated from the conditioned medium of cultured tumour cells. Its angiogenic activity appears to be critical for the maintenance and support of tumour growth. Angiogenin also plays a role in a number of non-malignant vasculoproliferative pathological conditions. Along with other related molecules, it has been identified in a wide variety of somatic tissues in adult and embryonic stages of vertebrate development. This suggests that angiogenin and related molecules are likely to play a vital role in normal physiology. Angiogenin is detectable in serum and to date has been implicated as a mitogen for vascular endothelial cells, an immune modulator with suppressive effects on polymorphonuclear leukocytes, an activator of certain protease cascades such as matrix metalloproteases and plasminogen-activated plasmin pathways, as well as an adhesion molecule. However, the role of the angiogenin family in both normal and abnormal physiology and in development will only fully be realised by genetic approaches involving gene deletion.
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PMID:The angiogenins: an emerging family of ribonuclease related proteins with diverse cellular functions. 1451 18

Visfatin, a ubiquitous adipokine, was first described in 2005. It was found to be selectively up-regulated in the adipose tissue and to have insulin-mimetic effects. It has been reported that visfatin is associated with endothelial damage in chronic kidney disease. We investigated plasma visfatin levels (using commercially available kits) in 100 clinically stable kidney allograft recipients. We assessed visfatin markers of coagulation: thrombin-antithrombin complexes, prothrombin fragments 1 + 2; fibrinolysis: tissue plasminogen activator, plasminogen activator inhibitor, plasmin-antiplasmin complexes; endothelial function/injury: von Willebrand factor, thrombomodulin, intracellular adhesion molecule, vascular cell adhesion molecule (VCAM); inflammation: hsCRP and interleukin-6. Visfatin was significantly higher in kidney allograft recipients than in healthy volunteers. Visfatin did not differ significantly between diabetic and nondiabetics, hypertensives and normotensives, patients with and without coronary artery disease, and between male and female subjects. Type of immunosuppressive regimen (mycophenolate mofetil vs azathioprine) did not affect visfatin levels. On univariate analysis, visfatin correlated positively with prothrombin fragments 1 + 2, VCAM, creatinine, high-sensitivity C-reactive protein, and negatively with albumin. In multivariate analysis, only VCAM was associated with visfatin in kidney allograft recipients. Visfatin, which is related to markers of inflammation, may represent a novel link between inflammation and adipocytokines among long-term kidney transplant recipients.
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PMID:Visfatin, a new adipocytokine, is predominantly related to inflammation/endothelial damage in kidney allograft recipients. 1924

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