Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat hepatocyte homogenates convert 5-hydroperoxyeicosatetraenoic acid (5-HPETE) into biologically active leukotriene B4 (LTB4) as well as less active all-trans-LTB4 (i.e., 6-trans-LTB4 and 6-trans-12-epi-LTB4). Here, we present a hypothesis of the reaction mechanism and the minimal structural requirements of the active enzyme based on the following experimental evidence: The ED50 of the inhibitors 5,8,11,14-eicosatetraynoic acid (ETYA) and 5,6-dehydro-eicosatetraenoic acid was approximately 100-fold higher than for 5-lipoxygenase. Propanethiol and O2 were strong inhibitors of LTB4 formation, whereas butylated hydroxytoluene, nordihydroguaiaretic acid, metyrapone, Desferal and CO had no effect. Cytochrome c, catalase, hematin, and a Fe3+/Fe2+ couple, but not iron-free protoporphyrin IX, catalyzed the formation of only all-trans-LTB4. LTB4 formation in hepatocyte homogenates was heat- and trypsin-sensitive whereas all-trans-LTB4 formation was not. We propose that a ferric heme iron forms a ferryl-hydroxo complex upon homolytic scission of the oxygen-oxygen bond in 5-HPETE and the resulting 5,6-trans-epoxide radical is oxidized by the ferryl-hydroxo complex to yield LTA4. A mechanism for hydrolysis of LTA4 is described that results in formation of LTB4 (less than 1% yield) rather than all-trans-LTB4.
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PMID:Properties of enzymes in hepatocytes that convert 5-HPETE or LTA4 into LTB4. 255 Mar 34

Killing of rat pulmonary artery endothelial cells by activated polymorphonuclear leukocytes (PMNs), as measured at 4 hours, is catalase sensitive, iron dependent, and unaffected by addition of protease inhibitors. If the time course for exposure of endothelial cells to activated PMNs is extended to 18 hours, progressive injury occurs. Endothelial cell injury resulting at 18 hours is partially inhibited by catalase and partially inhibited by soybean trypsin inhibitor. Together, these two inhibitors function synergistically to protect the cells from injury. Exposure of endothelial cells to reagent H2O2 and purified proteolytic enzymes (trypsin, chymotrypsin, elastase, and cathepsin G) mimics the effects of activated PMNs: H2O2 alone is cytotoxic with maximal killing achieved by 4 hours; proteolytic enzymes produce cytotoxicity only at high concentrations and only after prolonged incubation (longer than 8 hours); and, in combination, H2O2 and proteolytic enzymes act synergistically. These data provide compelling evidence that PMN-mediated injury of endothelial cells involves interaction between oxygen products and proteases.
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PMID:Endothelial cell killing by neutrophils. Synergistic interaction of oxygen products and proteases. 267 21

This study was designed to evaluate the role of macrophages in cardiac dysfunction associated with endotoxemia or septic shock. Rat peritoneal macrophages were cultured on glass bead-carrier and placed in the perfusate stream of an isolated rat heart perfused according to the Langendorff technique. The heart was thus perfused with a Krebs solution exposed to macrophages stimulated with endotoxin. After 10-15 min of exposure, the macrophages released substance(s) that decreased left ventricular pressure (VP) 50-80% and coronary flow (CF) without significantly affecting heart rate or the ECG. In a separate study, macrophages were incubated with endotoxin and the incubate injected into the heart; a 20-30% reduction in VP and CF was observed. However, when macrophages were further stimulated with opsonized zymosan, 60-80% reductions in VP and CF were observed. Treatment with prostaglandin antagonists, leukotriene inhibitors, or trypsin did not significantly modify the activity of the material released from macrophages. Free radical scavengers (catalase and superoxide dismutase) reduced the activity of macrophage derived product by 15-20%. However, platelet-activating factor (PAF) antagonist prevented the action of macrophage mediators on the heart by approximately 58%. Heat inactivation destroyed activity released from the macrophages almost entirely. These findings may contribute to a better understanding of endotoxemia and endotoxin shock mechanisms.
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PMID:Cardiac dysfunction caused by factors released from endotoxin-activated macrophages. 270 56

The role of reactive oxygen metabolites in extrapancreatic organ dysfunction associated with acute hemorrhagic pancreatitis was studied in dogs. Experimental pancreatitis was induced by the intraductal infusion of activated trypsin and taurocholate. Cardiac output, pulmonary and systemic blood pressure, pulmonary wedge pressure, central venous pressure, heart rate, blood gases and serum amylase were measured. Cardiac index, pulmonary and systemic vascular resistance, and the right and left stroke work were calculated. Systemic arterial and venous blood pressure and cardiac index gradually declined over 6 hr, while pulmonary mean blood pressure and pulmonary vascular resistance increased. Pretreatment of pancreatitis with catalase and superoxide dismutase prevented the rise in mean pulmonary blood pressure, moderated the rise in pulmonary vascular resistance, and decreased the rate and extent of the fall in cardiac index. These data suggest that reactive oxygen metabolites may play some role in the extraabdominal organ manifestations of acute pancreatitis.
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PMID:Role of reactive oxygen metabolites in early cardiopulmonary changes of acute hemorrhagic pancreatitis. 279 9

A new heat-labile toxin cytolethal to CHO, Vero, HeLa, and HEp-2 cells and negative in Y-1 cells has been demonstrated in culture filtrates of many strains of Campylobacter spp. This new toxin was termed a cytolethal distending toxin (CLDT) to reflect the progressive cell distention and eventual cytotoxicity observed in all sensitive tissue cells. CLDT was distinct from previously reported cytotoxins and cholera-like enterotoxin produced by some Campylobacter spp. Since CHO elongation induced by either the Campylobacter enterotoxin or CLDT could not be differentiated after 24 h incubation, continuation of the assay for 96 h was essential for observation of CLDT-associated progressive morphological changes and cytolethal events. Specific assay conditions were required for demonstration of CLDT in Vero, HeLa, and HEp-2 cells. A 31-fold increase in cyclic AMP levels was observed in CHO cells exposed for 24 h to CLDT of catalase negative or weak positive Campylobacter. CLDT was detected in culture filtrates from strains of Campylobacter jejuni, C. coli, C. fetus subsp. fetus, C. laridis and catalase negative or weak positive Campylobacter. Of 718 strains investigated from both human and animal isolations, 295 (41%) were found to produce this toxin. Campylobacter CLDT was negative in adult rabbit ligated ileal loops, suckling mouse and rabbit skin tests. Hemorrhagic responses were observed in rat ligated ileal loop tests of CLDT-positive cultures. The new CLDT toxin could only be neutralized by homologous rabbit antitoxin, was trypsin-sensitive, nondialyzable and over 30,000 in molecular weight. CLDT-producing strains were observed in many serogroups and biotypes of Campylobacter spp. The strains tested originated from many countries and no clear association of toxigenicity with serotype or biotype could be established.
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PMID:A new heat-labile cytolethal distending toxin (CLDT) produced by Campylobacter spp. 284 28

The immunocytochemical localization of catalase and three enzymes of the peroxisomal lipid beta-oxidation system--acyl-CoA oxidase, the bifunctional protein enoyl-CoA hydratase, 3-hydroxyacyl-CoA dehydrogenase, and 3-ketoacyl-CoA thiolase--in human liver biopsies was investigated by means of light and electron microscopy. The antisera raised against all four enzymes from rat liver cross-reacted with the corresponding proteins in homogenates of human liver as revealed by immunoblotting. For light-microscopic localization in glutaraldehyde-fixed Epon-embedded material, the removal of resin and controlled digestion with trypsin was necessary. At the ultrastructural level specific labeling for all four antigens was found by the protein A-gold technique in peroxisomes of liver parenchymal cells fixed with formaldehyde-low glutaraldehyde concentrations and embedded in Lowicryl K4M. In biopsies fixed with glutaraldehyde and embedded in Epon, treatment with metaperiodate or etching with sodium ethoxide improved the immunolabeling. After such treatment catalase showed the most intense labeling and acyl-CoA oxidase the weakest, the two other proteins exhibiting an intermediate immunoreaction. In material postfixed with osmium only catalase could be visualized in peroxisomes. The immunocytochemical investigation of peroxisomal proteins in human liver biopsies provides a simple and highly promising approach for further elucidation of the pathophysiology of peroxisomal disorders.
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PMID:Immunocytochemical localization of peroxisomal enzymes in human liver biopsies. 288 50

We have characterized the association of the intermediate filament protein, vimentin, with the plasma membrane, using radioiodinated lens vimentin and various preparations of human erythrocyte membrane vesicles. Inside-out membrane vesicles (IOVs), depleted of spectrin and actin, bind I125-vimentin in a saturable manner unlike resealed, right-side-out membranes which bind negligible amounts of vimentin in an unsaturable fashion. The binding of vimentin to IOVs is abolished by trypsin or acid treatment of the vesicles. Extraction of protein 4.1 or reconstitution of the membranes with purified spectrin do not basically affect the association. However, removal of ankyrin (band 2.1) significantly lowers the binding. Upon reconstitution of depleted vesicles with purified ankyrin, the vimentin binding function is restored. If ankyrin is added in excess the binding of vimentin to IOVs is quantitatively inhibited, whereas protein 4.1, the cytoplasmic fragment of band 3, band 6, band 4.5 (catalase), or bovine serum albumin do not influence it. Preincubation of the IOVs with a polyclonal anti-ankyrin antibody blocks 90% of the binding. Preimmune sera and antibodies against spectrin, protein 4.1, glycophorin A, and band 3 exhibit no effect. On the basis of these data, we propose that vimentin is able to associate specifically with the erythrocyte membrane skeleton and that ankyrin constitutes its major attachment site.
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PMID:The binding of vimentin to human erythrocyte membranes: a model system for the study of intermediate filament-membrane interactions. 315 64

A method of Type II alveolar epithelial cell culture in aerobiosis has been developed. Isolation of Type II cells was performed by digesting guinea-pig lung tissue with crude trypsin and elastase and using discontinuous Percoll density gradients. The Type II cells, as identified by light and electron microscopy, were cultured in aerobiosis for up to six days, in direct contact with the atmosphere in conditions mimicking those present in the lower respiratory tract. Significant activities of cellular superoxide dismutase (SOD), manganese dependent superoxide dismutase (Mn-SOD), catalase and glutathione peroxidase (GSH-Px) were found at the time of isolation. In contrast, cell glutathione content varied widely from one experiment to another. Changes of antioxidant enzymes were evaluated during cell culture in aerobiosis. SOD, Mn-SOD and catalase were significantly decreased after three days but were not significantly different between a three day and six day culture. Antioxidant changes did not influence the cell culture. In marked contrast, decrease in cell glutathione was associated with rapid cell death, whereas good cell survival was obtained at high levels of cell glutathione. Cell culture in aerobiosis will permit a precise evaluation of the effects of gases, particularly oxidant gases, on a primary culture of Type II alveolar epithelial cells.
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PMID:Type II alveolar epithelial cell in vitro culture in aerobiosis. 323 20

Large granular lymphocytes (LGL) obtained by centrifugation (Percoll gradient) of blood from patients with carcinomatous pleural effusions and solid tumors lysed autologous, freshly isolated tumor cells in a 4-hour 51Cr-release assay. When cocultured with autologous tumor cells, LGL released soluble cytotoxic factor(s), large granular lymphocyte-derived cytotoxic factor (LGL-CF). In contrast, small T lymphocytes were unable to kill autologous tumor cells or to produce a cytotoxic factor. The LGL-CF demonstrated cytotoxicity against autologous fresh tumor cells but also against allogeneic fresh tumor cells in a 48-hour microcytotoxicity assay and in an 18-hour 51Cr-release assay in the presence of dactinomycin. Binding of LGL-CF to autologous tumor cells occurred within 2 hours and reached the maximum by 6 hours; this binding was sufficient to cause subsequent lysis of the target cells without the continued presence of LGL-CF. Neither the supernatants produced by culture of LGL alone nor the lysates of LGL had detectable cytolytic activity. In addition, treatment of LGL with cytochalasin A inhibited both direct cell-mediated autologous tumor lysis and generation of LGL-CF. Production of LGL-CF required active cell metabolism and protein and RNA syntheses in LGL, but not DNA synthesis. Addition of dactinomycin to LGL-CF in assays augmented the lysis. LGL-CF was stable at 56 degrees C, but it was reduced at 70 degrees C and destroyed at 100 degrees C. Treatment of LGL-CF with trypsin or proteinase K reduced or abrogated the lytic effect, respectively, while the lytic effect was not affected by papain, catalase, or superoxide dismutase. These results indicate that during interaction with autologous tumor cells, LGL release a soluble cytotoxic factor that mediates lysis of fresh human tumor cells.
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PMID:Generation of cytotoxic factor by human large granular lymphocytes during interaction with autologous tumor cells: lysis of fresh human tumor cells. 326 73

A wide variety of agents are shown to mimic insulin action and inhibit rates of intracellular protein degradation in H35 hepatoma cells. For oxidizing agents such as NaNO2, H2O2 and oxidized glutathione, inhibition of protein breakdown is reversed by adding catalase. Phenylhydrazine behaves like an oxidant and mimics insulin action in a manner potentiated by superoxide dismutase and reversed by catalase. Similarly the effect of insulin itself is increased by superoxide dismutase and reduced by catalase. Sulfhydryl reagents also mimic insulin action: inhibition of protein breakdown is seen following addition of 2-mercaptoethanol or a brief pre-treatment with N-ethylmaleimide or iodoacetate. Mild pre-treatment with trypsin also inhibits subsequent rates of protein breakdown. A model is proposed suggesting that these insulinomimetic actions involve a common mechanism which links the generation of active oxygen species through the redox potential of the cell to the activation of a proteinase.
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PMID:The effect of insulinomimetic agents on protein degradation in H35 hepatoma cells. 353 45


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