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)

Percutaneous radial artery catheterization for blood gas monitoring and continuous arterial pressure recording has become a common place procedure in the management of critically ill patients. Five patients with severe ischemia after cannulation have been encountered in the past 20 months, four of whom lost segments of one or more digits. Review of the events preceding and during radial artery cannulation allowed elucidation of the following principles: radial artery catheterization should be preceded always by a negative Allen test; the catheter should be removed after 12 to 18 hours, especially if the patient is critically ill, is hypercoagulable, or has impaired tissue perfusion; the superficial temporal artery is safer to use and permits long-term cannulation (5 to 7 days) without ill effect; and agressive approach to assessing flow and arterial reconstruction is essential if severe ischemic symptoms occur during or after radial artery catheterization. Ancillary measures, including cervicodorsal sympathetic block, intravenous low molecular weight dextran and heparin, and intra-arterial reserpine and fibrinolysin, may improve palmar circulation but should not be substituted for both noninvasive and angiographic study of arterial flow, followed by surgical restoration of flow, when indicated.
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PMID:Severe ischemia of the hand following radial artery catheterization. 0 99

Hepatocyte growth factor (HGF) is the most potent mitogen for mature hepatocytes and seems to act as a hepatotropic factor that has not been purified over the past 30 years. HGF was first purified from rat platelets in 1986. HGF is a hetrodimer molecule composed of 69-kDa alpha-subunit and 34-beta-subunit. In 1989, cDNAs of both human and rat HGF were cloned and primary structure of HGF was determined. HGF is derived from preproprecursor of of 728 amino acids, which is proteolytically processed to form mature HGF. The alpha-chain contains four kringle domains and it has 38% homology with plasmin. HGF mRNA and HGF activity increase markedly in the liver of rats after various liver injuries such as hepatitis, ischemia, physical crush, and partial hepatectomy. Production of HGF in the liver occurs in Kupffer cells and sinusoidal endothelial cells, but not in parenchymal hepatocytes. HGF mRNA is also markedly increased even in the intact lung, kidney, and spleen after injuries of the liver. Therefore, HGF may act as a trigger for liver regeneration through two mechanisms: a paracrine mechanism and an endocrine mechanism. Moreover, HGF mRNA increases markedly in the kidney after various renal injuries, thus it suggests that HGF may act not only as a hepatotropic factor but also as a renotropic factor. HGF receptor with a Kd of 20 to 30 pM is widely distributed in various epithelial cells including hepatocytes. HGF receptor was recently identified as the product of c-met protooncogene, which encodes a 190-kDa transmembrane protein possessing tyrosine kinase domain. HGF has recently been shown to be a pleiotropic factor. HGF stimulates growth of various epithelial cells, including renal tubular cells (Mitogen). It is worth noting that HGF strongly enhances motility of epithelial cells (Motogen) and induces epithelial tubule formation (Morphogen), while it strongly inhibits growth of several tumor cells. All these findings indicate that HGF may have important roles in organogenesis, morphogenesis, carcinogenesis, as well as in organ regeneration.
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PMID:Hepatocyte growth factor: molecular structure, roles in liver regeneration, and other biological functions. 131 69

A striking similarity exists between the pathogenetic properties of group A streptococci and those of activated mammalian professional phagocytes (neutrophils, macrophages). Both types of cells are endowed by the ability to adhere to target cells; to elaborate oxidants, hydrolases, and membrane-active agents (hemolysins, phospholipases); and to freely invade tissues and destroy cells. From the evolutionary point of view, streptococci might justifiably be considered the forefathers of "modern" leukocytes. Our earlier findings that synergy between a streptococcal hemolysin (streptolysin S, SLS) and a streptococcal thiol-dependent proteinase and between cytotoxic antibodies+complement and streptokinase-activated plasmin readily killed tumor cells, led us to hypothesize that by analogy to the pathogenetic mechanisms of streptococci, the mechanisms of tissue destruction initiated by activated leukocytes in inflammatory sites, as well as in tissues undergoing episodes of ischemia and reperfusion, might also be the result of the synergistic effects among leukocyte-derived oxidants, phospholipases, proteinases, cytokines, and cationic proteins. The current report extends our previous synergy studies with endothelial cells to two additional cell types--monkey kidney epithelial cells and rat beating heart cells. Monolayers of 51Cr-labeled cells that had been treated by combinations of sublytic amounts of hydrogen peroxide (generated either by glucose oxidase, xanthine-xanthine oxidase, or by paraquat) and with sublytic amounts of a variety of membrane-active agents (streptolysin S, phospholipases A2 and C, lysophosphatides, histone, chlorhexidine) were killed in a synergistic manner (double synergy). Crystalline trypsin markedly enhanced cell killing by combinations of oxidant and the membrane-active agents (triple synergy). Injury to the cells was characterized by the appearance of large membrane blebs that detached from the cells and floated freely in the media, looking like lipid droplets. Cytotoxicity induced by the various combinations of agonists was depressed, to a large extent, by scavengers of hydrogen peroxide (catalase, dimethyl thiourea, and by Mn2+) but not by SOD or by deferoxamine. When cationic agents were employed together with hydrogen peroxide, polyanions (heparin, polyanethole sulfonate) were also found to inhibit cell killing. It is proposed that in order to effectively combat the deleterious toxic effects of leukocyte-derived agonists on cells and tissues, antagonistic "cocktails" comprised of cationized catalase, cationized SOD, dimethylthiourea, Mn(2+)+glycine, proteinase inhibitors, putative inhibitors of phospholipases, and polyanions might be concocted. The current literature on synergistic phenomena pertaining to mechanisms of cell and tissue injury in inflammation is selectively reviewed.
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PMID:Synergism among oxidants, proteinases, phospholipases, microbial hemolysins, cationic proteins, and cytokines. 142 26

Fibrin plate assays revealed that human burn blister fluid represses plasmin-induced fibrinolysis. While this repression is significant, it is not as potent as that of human serum. Ibuprofen, a nonsteroidal anti-inflammatory drug, antagonizes blister fluid inhibition of fibrinolysis. The activity of ibuprofen appears to be unrelated to the synthesis of prostaglandins because other nonsteroidal drugs that were tested, such as indomethacin, imidazole, and tolmetin had significantly less antagonistic activity. This plasmin inhibition, which is contained in burn blister fluid, may contribute to vascular occlusion after burn injury, which leads to secondary dermal ischemia and necrosis in patients traumatized by burns.
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PMID:Fibrinolysis inhibition in human burn blister fluid. 213 59

Pharmacologic intervention is critical to the management of myocardial ischemia. Four classes of drugs are now used in therapeutic regimens for ischemia. beta-Adrenergic blockers decrease ischemia by blocking beta 1-mediated inotropic and chronotropic effects, thereby decreasing myocardial oxygen consumption. Calcium channel blockers alter fast- and slow-response action potentials by decreasing transmembrane calcium flux, resulting in decreased conduction velocity and heart rate and prolonged effective refractory period. These effects positively influence ischemia and atrial dysrhythmias. Additionally, these agents decrease excitation-contraction coupling in vascular smooth muscle, resulting in coronary and peripheral vasodilation. Organic nitrates and nitrites decrease vascular smooth muscle contraction and preload, and afterload, precipitating a decrease in myocardial oxygen consumption and ischemia. They also improve blood flow to areas of compromised flow. Thrombolytic agents are administered in acute situations to dissolve the occluding thrombus, but they must be used within a few hours of the injury. These drugs activate the conversion of plasminogen to plasmin, which breaks down the clot into fibrin degradation products. The choice of agents is determined by the etiology of the patient's ischemia, his or her response to the drug, and the presence of concomitant disease processes.
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PMID:Pharmacologic management of myocardial ischemia. 257 Jan 35

Early reperfusion of occluded coronary arteries offers great promise as a method for minimizing myocardial damage after acute myocardial infarction. Such reperfusion is usually attempted via administration of fibrinolytic agents. Urokinase may hold marginal advantages over streptokinase, especially in patients with high preexisting titers of antistreptokinase antibodies. These minor differences, however, pale in comparison to important advantages demonstrated by the newly developed agent, tissue plasminogen activator (t-PA). The advantages of t-PA derive primarily from its property of binding to, and being activated by, fibrin. Consequently the generated plasmin is also fibrin-bound, the bound plasmin is protected from circulating antiplasmin and therefore more efficiently utilized, and circulating fibrinogen is spared. Preliminary clinical experience indicates that the frequency of favorable response after intravenous administration of t-PA is considerably greater than after SK. A major determinant of clinical benefit after reperfusion is the brevity of ischemia. Selective intracoronary infusion of fibrinolytic agent produces faster lysis than does intravenous infusion, and rate of lysis may be further accelerated by transcatheter disruption of clot and intrathrombic injections of highly concentrated urokinase or t-PA. Even maximally accelerated lysis, however, cannot fully compensate for the inherent delay imposed by catheterization. For that reason, prompt intravenous infusion of fibrinolytic agents, presumably t-PA, seems preferable to the intracoronary route. In the effort to initiate fibrinolytic therapy at the earliest feasible time after infarction, administration by paramedics, or even home administration after training, is a program worthy of exploration.
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PMID:Streptokinase, urokinase, and tissue plasminogen activator: pharmacokinetics, relative advantages, and methods for maximizing rates and consistency of lysis. 310 38

Cerebral ischemia is caused by reduced blood supply at the microcirculatory level. In the microvessels, the main elements of the reperfusion injury following brain ischemia are the transformation of endothelial cell-surface from anticoagulant to procoagulant property, leukocyte adhesion, sludge or clot formation. There is a paucity of information on how hemostatic factors, cytokines, lipoprotein(a) (Lp(a)) and endothelin-1 (ET-1), being responsible for ischemic/reperfusion injury, interact with human brain microvessel endothelium (HBEC). There are no data furthermore about the expression of complement proteins of HBEC influenced by cytokines or fibrinolytic factors. Previously we established optimal conditions for culturing HBEC. Cell contraction induced by thrombin, plasmin, miniplasmin was recorded. The reassembly of F-actin was observed after thrombin treatment. ICAM-1 upregulation was measured following TNF-alpha, IL-1-alpha and thrombin incubation. Plasmin and miniplasmin downregulated the ICAM-1 in our cell culture system. Lp(a) modulated the thromboresistant cell-surface by reduction of t-PA and u-PA, but PAI-1 remained unchanged. Lp(a) modulated the ET-1 production by early increasing and late decreasing, in a bimodal manner. The increased secretion of ET-1 by cytokines (TNF-alpha, IL-1-alpha) was reduced in the presence of Lp(a). Gradual increase of complement proteins (factor H, factor B, C4) was induced by cytokines. Plasmin and miniplasmin augmented a rapid increase of C4. Some factors of complex relationship between regulators and modulators of endothelial adhesion molecules have been demonstrated in a human cell culture system prepared from brain microvessel endothelium. A unified concept of sequential events of ischemia/reperfusion in the brain has not yet developed.
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PMID:Human brain microvessel endothelial cell culture as a model system to study vascular factors of ischemic brain. 889 62

This article summarizes the discussions of the faculty and chairpersons on four major topics on postsurgical adhesions examined at the symposium, "Adhesions: Pathogenesis and Prevention". These topics are: 1) clinical significance; 2) pathogenesis; 3) research status and directions; and 4) recommendations for reduction or prevention. Abdominal postsurgical adhesions develop following trauma to the mesothelium, which is damaged often by surgical handling and instrument contact, foreign materials such as sutures and glove dusting powder, desiccation, and overheating. Postoperative adhesions occur after most surgical procedures and can result in serious complications, including intestinal obstruction, infertility, and pain. A long-term and unpredictable problem, postoperative adhesions impact the surgical workload and hospital resources, resulting in considerable health care expenditures. Although understanding of the pathogenesis of adhesions has improved recently, the molecular mechanisms involved continue to be delineated. Adhesions result from the normal peritoneal wound healing response and develop in the first five to seven days after injury. Adhesion formation and adhesion-free re-epithelialization are alternative pathways, both of which begin with coagulation which initiates a cascade of events resulting in the buildup of fibrin gel matrix. If not removed, the fibrin gel matrix serves as the progenitor to adhesions by forming a band or bridge when two peritoneal surfaces coated with it are apposed. The band or bridge becomes the basis for the organization of an adhesion. Protective fibrinolytic enzyme systems of the peritoneum, such as the plasmin system, can remove the fibrin gel matrix. However, surgery dramatically diminishes fibrinolytic activity. The pivotal events determining whether the pathway taken is adhesion formation or re-epithelialization are therefore the apposition of two damaged surfaces and the extent of fibrinolysis. Research in postsurgical adhesion formation and prevention abounds in a variety of avenues of investigation, including: 1) identification on a molecular level of the components involved in adhesiogenesis and their interactions; 2) clarification of the role of fibrin and fibrinolysis in adhesion formation; 3) standardization of design in preclinical and clinical studies of adhesion formation and prevention; 4) delineation of the relationship between adhesion formation and adhesive complications; and 5) elucidation of efficient, site-specific methods of prophylactic drug delivery. Currently, it seems logical to focus preventive research on development of barriers, fibrinolytic drugs, and selected agents such as phospholipids. The major strategies for adhesion prevention or reduction are adjusting surgical practice and applying adjuvants. Surgeons should adjust their major practices by: 1) becoming aware of the potential adhesive complications of a procedure; 2) minimizing the invasiveness of surgery; and 3) minimizing surgical trauma, ischemia, exposure to intestinal contents, introduction of foreign material into the body, and the use of talc- or starch-containing gloves. Available adjuvants include a newly developed by hyaluronic acid-phosphate-buffered saline solution applied intraoperatively to protect peritoneal surfaces from indirect surgical trauma and three mechanical barriers. One of these, a bioresorbable membrane consisting of hyaluronic acid and carboxymethylcellulose, has demonstrated efficacy and safety in both general and gynecological surgery. The other two barriers, one made of expanded polytetrafluoroethylene and one developed from oxidized regenerated cellulose, are indicated only for use in gynecological surgery.
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PMID:Adhesions: pathogenesis and prevention-panel discussion and summary. 907 53

Chronic hyperglycemia may cause growth factor alterations that are likely to participate in tissue remodeling typical for diabetic late complications. However, few details of such events are known. The ocular vitreous fluid allows studies of growth factor levels in human eyes (after vitrectomy). The vitreous is highly inert and protected by the blood-retina barrier and thus probably reflects growth factor production by the normal retina. Vitreous from patients with proliferative diabetic retinopathy (PDR) was compared with vitreous obtained from patients with nonproliferative eye disease and with vitreous from patients without diabetes but with marked neovascular proliferations due to ischemia. This design permits us to distinguish diabetes-related from non-diabetes-related alterations. Insulin-like growth factor I (IGF-I), IGF-II, IGF binding protein 2 (IGFBP-2), and IGFBP-3 were elevated 3- to 13-fold in nondiabetic retinal ischemia and 1.5- to 3-fold in PDR, indicating that the changes were not restricted to diabetes. These changes may partially be explained by leakage of serum into the vitreous, since IGFs and IGFBPs are 20- to 50-fold higher in serum than in vitreous, and vitreous protein content was 1.5-fold elevated in PDR subjects and 5-fold in ischemia patients compared with control subjects. TGF-beta is a proposed antiangiogenic factor in the eye. TGF-beta2 was the predominant subtype in vitreous, and its total amount was not altered in PDR patients. More importantly, the active fraction of TGF-beta was decreased by 30 and 70% in PDR and nondiabetic retinal ischemia patients, respectively. Since plasmin may control TGF-beta activation, the serum protein alpha2-antiplasmin was measured and found to be significantly elevated to 150 and 250% of control values in PDR and ischemia patients, respectively. Thus, influx of serum proteins due to microvascular disturbances and hypoxia is proposed as a possible cause for vitreous alterations of IGF-I and of active TGF-beta. These changes seem to occur late in the sequence of events leading to PDR and are not specific for diabetes, but they were also observed in other diseases characterized by retinal hypoxia.
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PMID:Growth factor alterations in advanced diabetic retinopathy: a possible role of blood retina barrier breakdown. 928 95

Sudden extreme physical stress is associated with an increased risk of myocardial infarction mainly in people with preexisting atherosclerosis. In this study we compared the effect of submaximal exercise on coagulation and fibrinolysis in patients with peripheral arterial occlusive disease (PAOD) with that in healthy control subjects. Fifteen PAOD) patients with intermittent claudication and 15 healthy control subjects, matched for age, sex, medication use, smoking habit, and conditioning, were studied. Thrombin-antithrombin III complex (TAT), D-dimer, tissue plasminogen activator (t-PA) and plasminogen activator inhibitor (PAI)-1 antigens (Ag), t-PA activity, and plasmin-alpha2-antiplasmin complex (PAP), as well as plasma catecholamines, were measured before and after a treadmill exercise test. At rest, fibrinogen (3.3+/-0.5 versus 2.9+/-0.5 g/L [mean+/-SD]; P<.05), D-dimer (392+/-128 versus 271+/-113 ng/mL; P<.05), t-PA Ag (9.1+/-5.1 versus 5.5+/-1.2 ng/mL; P<.02), and PAI-1 Ag (14.9+/-7.1 versus 7.6+/-3.8 ng/mL; P<.002) levels in plasma were markedly higher in the patient group than in the control group. In patients but not in control subjects, exercise of similar intensity elevated circulating concentrations of TAT (from 3.43+/-1.45 to 4.83+/-2.27 ng/mL; P<.05). Exercise caused a parallel increase in D-dimer, t-PA Ag, t-PA activity, PAP, and catecholamines in both groups, whereas PAI-1 Ag remained stable. Plasma lactic acid was significantly higher in patients after exercise and was associated with lower-limb ischemia. Compared with healthy control subjects, patients with PAOD showed higher t-PA Ag, PAI-1 Ag, and D-dimer levels both at rest and after exercise. Notably, submaximal exercise on a treadmill enhanced thrombin formation in patients with PAOD but not in the control subjects. Sudden catecholamine release and local ischemia during exercise may accelerate the preexisting prothrombotic potential of the atherosclerotic vessel wall.
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PMID:Physical exertion induces thrombin formation and fibrin degradation in patients with peripheral atherosclerosis. 948 89


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