EC:3.4.21.4 - FACTA Search

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

The anti-inflammatory activity of FL 70, a derivative of 2,5-dihydroxy-benzoic acid, was examined in a number of conventional experimental models. In addition, FL-70 was tested for its inhibitory action on enzymes. The results were as follows: 1. The induction of a local inflammatory reaction and the subsequent i.v. injection of trypan blue showed that FL 70 reduces the capillary permeability. 2, FL-70 significantly suppresses exudation in the formalin-induced peritonitis of the rat. 3. A slight inhibition of an edema in the footpad of the rat induced by formalin-dextran was not shown to be statistically significant. 4. Local swelling could be markedly inhibited in the turpentine-oil induced inflammatory reaction of the rabbit. 5. Exudation and formation of granulomatous tissue was inhibited in Selye's granuloma. 6. FL-70 markedly inhibited the local inflammatory reaction accompanying the cutaneous reaction in experimental vaccinia infection of the rabbit skin. The size of the infiltration after intracutaneous infection of the virus was not reduced. 7. FL-70 could not prevent the onset of clinical signs, if administered in experimental allergic encephalitis. 8. The activity of acid phosphatase was inhibited by FL-70. Alcaline phosphatase, cholinesterase, leucin aminopeptidase, glucose-6- phosphatase-dehydrogenase (G-6-PDH), trypsin and chymotrypsin were unaffe-ted. FL-70 inhibits the following, G-6-PDH activated reduction process: glucose-6-phosphate (see article).
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PMID:[Anti-inflammatory activity of a new quinoid polyradical (FL-70)]. 16 92

The particulate glucokinase of cat liver is shown to be microsomal. The activity is readily solubilized by glucose-6-phosphate, ATP, pyrophosphate, high salt concentrations and, to a lesser extent, ribonucleoside triphosphates. The solubilization by glucose-6-phosphate is inhibited by Pi. Solubilizations by ATP and glucose-6-phosphate differ in their sensitivity to temperature changes; they are relatively specific for glucokinase as compared to solubilization by detergent (Triton X 100). The enzyme can be bound again to previously eluted microsomal membranes. Treatment of membrane with trypsin, at 0 degrees C, destroys the ability to rebind the enzyme to the membrane. It is suggested that electrostatic forces are of considerable importance for the binding of glucokinase to a possible protein binding site in the membrane.
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PMID:[Liberation and reassociation of the microsomal membrane glucokinase in cat liver]. 19 77

Controlled proteolytic digestion by trypsin or bacterial proteases limited to the cytosolic side of the native microsomal membrane is not efficient to inhibit glucose-6-phosphate hydrolysis. Modification of the microsomes with deoxycholate prior to protease treatment is prerequisite to allow accessibility of the integral protein and inhibition of enzyme activity. Glucose-6-phosphatase of native microsomes, however, is rapidly inactivated by micromolar concentrations of TPCK as well as TLCK. In deoxycholate-modified microsomes both reagents do not affect glucose-6-phosphate hydrolysis. These results indicate that in the native, intact microsomal membrane glucose-6-phosphatase is not accessible to proteolytic attack from the cytoplasmic surface. The putative inhibitory effect of some trypsin or bacterial protease preparations on glucose-6-phosphatase of native microsomes observed most possibly is a result of contaminating agents as TPCK or TLCK.
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PMID:Protease inhibitors but not proteases inhibit the glucose-6-phosphatase of native rat liver microsomes. 131 35

This study examines the binding and degradation of IGF-II by the ovine liver. Binding and degradation of 125I-IGF-II to isolated hepatocytes was time, temperature and cell number dependent. Ovine and human IGF-II were 2-5 times more effective in inhibiting 125I-hIGF-II binding than were the IGF-I preparations. Insulin did not affect binding. Autoradiographs of 125I-hIGF-II affinity cross-linked to hepatocytes showed a major band of molecular weight 271,000 under reduced conditions. This band was eliminated by 100 nM hIGF-II or oIGF-II but not by excess hIGF-I, oIGF-I or insulin. The internalization of IGF-II was examined by treating the cells with trypsin or sodium acetate to remove surface-bound IGF-II. Both treatments showed that 20-25% of 125I-hIGF-II was internalized. Mannose-6-phosphate at 1, 2 and 4 mM enhanced the binding of 125I-hIGF-II to hepatocytes 3.5, 12.8 and 16.4%, respectively. The lysosomal inhibitors ammonium chloride, chloroquine and leupeptin had no effect on 125I-hIGF-II degradation or cell-associated radioactivity indicating a nonlysosomal pathway of degradation for 125I-hIGF-II in the ovine hepatocyte. The low molecular weight sheep serum IGF binding protein inhibited binding of 125I-hIGF-II in a dose-dependent manner but had no effect on degradation, which suggests that degradation of 125I-hIGF-II is independent of receptor interaction. These studies demonstrate that IGF-II binds to specific high affinity sites in sheep hepatocytes which display the characteristics of type II IGF receptors. A significant fraction of the receptor bound IGF-II is internalized but not degraded by these cells, which suggests that the biological actions of IGF-II may be exerted by an intracellular pathway in sheep hepatocytes.
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PMID:Interaction of insulin-like growth factors (IGF) with isolated sheep hepatocytes. II. Binding, internalization and degradation of IGF-II. 216 13

The insulin-like growth factor-II (IGF-II) and lysosomal enzymes containing a mannose-6-phosphate (M6P) recognition site bind to different sites of the same receptor molecule. We have observed that M6P increases the receptor-mediated uptake of IGF-II into IM-9 cells. We now confirm this phenomenon in a different line, the H-35 rat hepatoma cells, and present additional characterization of the underlying mechanisms. When incubated in the presence of radiolabeled IGF-II, H-35 cells accumulated, in a time-dependent fashion, radioactivity that was resistant to removal by trypsin digestion at 15 C, indicating that it was endocytosed. In the presence of 3 mM M6P, endocytosed counts were approximately 2-fold higher after 5 min of incubation, an enhancement that peaked at 10 min, then declined, but was still evident after 40 min (1.5-fold). The rate of release of cell-associated IGF-II, degraded or intact, as measured in a chase experiment, was not affected by M6P. These observations indicate that M6P increased accumulation of IGF-II by accelerating its rate of endocytosis rather than by interfering with IGF-II degradation or with the recycling of intact hormone-receptor complexes to the cell surface. Electrophoresis after affinity cross-linking of labeled cells demonstrated that the enhancement in radioactivity could be located at a molecular size of approximately 250 kDa, corresponding to IGF-II-receptor complexes. Preincubation with M6P did not significantly alter the specific binding of IGF-II to the cell surface of H-35 cells, as measured by a binding assay at 4 C. Finally, pretreatment with cycloheximide for up to 8 h, to remove all newly synthesized lysosomal enzymes bound to the M6P/IGF-II receptor, did not affect IGF-II endocytosis beyond what could be accounted for by some loss of receptor, suggesting that the observed effect of M6P is due to the binding of M6P itself to the receptor and not to displacement of lysosomal enzymes. We conclude that simultaneous occupancy of the M6P/IGF-II receptor by ligands on both binding sites enhances its rate of endocytosis.
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PMID:Effects of mannose-6-phosphate on receptor-mediated endocytosis of insulin-like growth factor-II. 216 4

Recirculating lymphocytes initiate extravasation from the blood stream by binding to specialized high endothelial venules (HEV) within peripheral lymph nodes (PN) and other secondary lymphoid organs. We have previously reported that lymphocyte attachment to PN HEV is selectively inhibited by mannose-6-phosphate (M6P) and related carbohydrates (Stoolman, L. M., T. S. Tenforde, and S. D. Rosen, 1984, J. Cell Biol., 99:1535-1540). In the present study, we employ a novel cell-surface probe consisting of fluorescent beads derivatized with PPME, a M6P-rich polysaccharide. PPME beads directly identify a carbohydrate-binding receptor on the surface of mouse lymphocytes. In every way examined, lymphocyte attachment to PPME beads (measured by flow cytofluorometry) mimics the interaction of lymphocytes with PN HEV (measured in the Stamper-Woodruff in vitro assay): both interactions are selectively inhibited by the same panel of structurally related carbohydrates, are calcium-dependent, and are sensitive to mild treatment of the lymphocytes with trypsin. In addition, thymocytes and a thymic lymphoma, S49, bind poorly to PPME beads in correspondence to their weak ability to bind to HEV. When the S49 cell line was subjected to a selection procedure with PPME beads, the ability of the cells to bind PPME beads, as well as their ability to bind to PN HEV, increased six- to eightfold. We conclude that a carbohydrate-binding receptor on mouse lymphocytes, detected by PPME beads, is involved in lymphocyte attachment to PN HEV.
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PMID:Phosphomannosyl-derivatized beads detect a receptor involved in lymphocyte homing. 295 Jan 21

Recent evidence has implicated natural killer cytotoxic factors (NKCF) as the lytic mediators of NK cell-mediated cytotoxicity reactions. The objective of this study was to examine and compare some of the biochemical and functional characteristics of human, rat, and murine NKCF. Supernatants containing NKCF were generated by stimulating effector cells with Con A or U937 (for human PBL) or YAC-1 (for rodent spleen cells) and tested for cytotoxic activity in a 20-hour (rodent) or 24-hour (human) 51Cr release assay. NKCF activity was inactivated by heating to 63 degrees C, 8 M urea, pH 2, and reduction and alkylation. These factors were highly sensitive to trypsin, moderately sensitive to papain and resistant to neuraminidase. Adsorption of human NKCF to U937 cells is inhibited by mannose-6-phosphate and adsorption of rodent NKCF to YAC-1 cells is inhibited by alpha-methyl-D-mannoside and fructose-6-phosphate. Oxidation of NKCF with sodium periodate abolished lytic activity. Pretreatment of NKCF with Con A but not pretreatment of target cells inhibited lytic activity. NKCF activity eluted in a single broad band of apparent MW of 15,000-40,000 after fractionation by HPLC gel permeating chromatography. Pooled fractions containing NKCF activity were subjected to some of the same tests performed on whole supernatants. Test result with semipurified NKCF confirmed that these factors are inactivated by trypsin or sodium periodate and that mannose-6-phosphate inhibits their binding to target cells. There were no major differences observed in NKCF produced by the three different species whether stimulated by Con A or NK-sensitive tumor cells. The evidence indicates that NKCF are glycoproteins in which disulfide bonding is essential for lytic activity. Furthermore, it appears that carbohydrate residues expressed on NKCF molecules are involved in the binding of these factors to the target cell membrane.
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PMID:Studies on the mechanism of natural killer cell-mediated cytotoxicity. VI. Characterization of human, rat, and murine natural killer cytotoxic factors. 299 81

The stoichiometry of the phosphorylation of rabbit muscle glycogen synthase by casein/glycogen synthase kinase-1 (CK-1) depended on the concentration of protein kinase in the assay and reached values of 7-8 mol/mol subunit at high concentrations. Phosphorylation by CK-1 above 4 mol/mol subunit promoted a further decrease of glycogen synthase activity when determined by the low glucose-6-phosphate/high glucose-6-phosphate activity ratio assay. Analysis by limited proteolysis with trypsin and chymotrypsin showed that all of the regions in glycogen synthase phosphorylated by casein/glycogen synthase kinase-2 (CK-2), the catalytic subunit of cyclic AMP-dependent protein kinase (A-kinase), FA/glycogen synthase kinase-3 (FA/GSK-3) and phosphorylase b kinase were also phosphorylated by CK-1. Digestion with CNBr of glycogen synthase phosphorylated by CK-1 revealed the presence of the two phosphopeptides also labeled by the other protein kinases, the largest phosphopeptide (CB2) containing more phosphorylation sites for CK-1 than the smallest one (CB1). Three phosphopeptides (CB2-c, CB2-d and CB2-e) were obtained by trypsinization of CB2 phosphorylated by CK-1. None of them coincided with those labeled by A-kinase, a fact that was confirmed by the additivity of the effect of both protein kinases. In contrast, CB2-d comigrated with the peptide phosphorylated by FA/GSK-3, and CB2-e with that labeled by CK-2, whereas CB2-c would correspond to a new phosphopeptide.
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PMID:Phosphorylation of rabbit muscle glycogen synthase by casein/glycogen synthase kinase-1 (CK-1). Stoichiometry and distribution of the phosphorylation sites on the glycogen synthase subunit. 301 47

The portion of the mannose 6-phosphate receptor (nominal Mr 180000 under nonreducing conditions) protruding at the external side of the plasma membrane of fibroblasts and HepG2 cells is susceptible to trypsin. A series of membrane-bound fragments smaller in Mr by 20000-65000 is obtained after incubation of cells with trypsin. When membranes from fibroblasts and HepG2 cells are incubated with trypsin or Staphylococcus aureus proteinase, the receptor is degraded to a single membrane-bound product smaller in Mr by about 9000. In the presence of 0.1% Triton X-100 extensive degradation of the receptor by trypsin is observed. Furthermore, the receptor in isolated membranes is sensitive to carboxypeptidase Y, which causes a decrease in Mr by about 5000 and 9000 in the absence or presence of detergent, respectively. Mannose 6-phosphate receptor appears to be a transmembrane protein with multiple trypsin-sensitive sites within its larger external (luminal) and smaller C-terminal (cytosolic) portions of the molecule.
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PMID:Mannose 6-phosphate-specific receptor is a transmembrane protein with a C-terminal extension oriented towards the cytosol. 315 83

A lectin in Giardia lamblia was activated by secretions from the human duodenum, the environment where the parasite lives. Incubation of the secretions with trypsin inhibitors prevented the appearance of lectin activity, implicating proteases as the activating agent. Accordingly, lectin activation was also produced by crystalline trypsin and Pronase; other proteases tested were ineffective. When activated, the lectin agglutinated intestinal cells to which the parasite adheres in vivo. The lectin was most specific to mannose-6-phosphate and apparently was bound to the plasma membrane. Activation of a parasite lectin by a host protease represents a novel mechanism of host-parasite interaction and may contribute to the affinity of Giardia lamblia to the infection site.
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PMID:Lectin activation in Giardia lamblia by host protease: a novel host-parasite interaction. 351 12

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