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

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Query: EC:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have observed that treatment of rabbit synovial fibroblasts with proteolytic enzymes can induce secretion of collagenase (EC 3.4.24.7) and plasminogen activator (EC 3.4.21.-). Cells treated for 2-24 hr with plasmin, trypsin, chymotrypsin, pancreatic elastase, papain, bromelain, thermolysin, or alpha-protease but not with thrombin or neuraminidase secreted detectable amounts of collagenase within 16-48 hr. Treatment of fibroblasts with trypsin also induced secretion of plasminogen activator. Proteases initiated secretion of collagenase (up to 20 units per 10(6) cells per 24 hr) only when treatment produced decreased cell adhesion. Collagenase production did not depend on continued presence of proteolytic activity or on subsequent cell adhesion, spreading, or proliferation. Routine subculturing with crude trypsin also induced collagenase secretion by cells. Secretion of collagenase was prevented and normal spreading was obtained if the trypsinized cells were placed into medium containing fetal calf serum. Soybean trypsin inhibitor, alpha(1)-antitrypsin, bovine serum albumin, collagen, and fibronectin did not inhibit collagenase production. Although proteases that induced collagenase secretion also removed surface glycoprotein, the kinetics of induction of cell protease secretion were different from those for removal of fibronectin. Physiological inducers of secretion of collagenase and plasminogen activator by cells have not been identified. These results suggest that extracellular proteases in conjunction with plasma proteins may govern protease secretion by cells.
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PMID:Proteases induce secretion of collagenase and plasminogen activator by fibroblasts. 20 72

Trypsin inhibitory activity from the hemolymph of Limulus polyphemus was found to co-purify with coagulogen (the clottable protein in blood coagulation) after acidification, ammonium sulfate precipitation, and gel filtration. Limulus trypsin inhibitor (LTI) was separated from coagulogen by ion-exchange chromatography on carboxymethyl-Sephadex. LTI is an inhibitor of trypsin (Ki = 3.3 nM) on both high and low molecular weight substrates. It also inhibits chymotrypsin but has little or no effect on thrombin, thermolysin, pepsin, or papain, nor does LTI inhibit the proteolytic cascade produced in endotoxin-stimulated Limulus amoebocyte lysate coagulation. Electrophoresis under nonreducing conditions on denaturing polyacrylamide gel yields a doublet migrating with an estimated Mr of 20,000. Under reducing conditions, a single broad band migrates with an estimated Mr of 15,000. The native structure is a monomer of moderate asymmetry with a molecular weight of 16,300 and a so20,w = 1.5(5), as determined by analytical ultracentrifugation. The amino acid composition of LTI yields a calculated molecular weight of 15,680 and a calculated partial specific volume of 0.71(7) ml/g. LTI does not contain methionine, tryptophan, or detectable levels of reducing carbohydrate. The NH2-terminal sequence (V-S-P-P-F-I-K-Q-T-K-F-S-T-X-F-L-G-X-S-S) consists primarily of hydrophobic amino acid residues. Comparison of the amino acid composition and amino-terminal sequence of LTI with those of other known protease inhibitors reveals no significant similarity to other trypsin inhibitors. The novel physical characteristics suggest that LTI represents a new type of protease inhibitor.
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PMID:A novel trypsin inhibitor from the hemolymph of the horseshoe crab Limulus polyphemus. 198 74

The primary structures of ascidian trypsin inhibitors (iso-inhibitors I and II) were reported in the preceding paper (Kumazaki, T. et al. (1990) J. Biochem. 107, 409-413). Both of them have eight half-cystines in a molecule composed of 55 amino acid residues with a sequence showing no extensive homology to other known protease inhibitors. To locate the four disulfide bridges in the molecule, native inhibitor I was digested with thermolysin to yield cystine-containing peptides. The peptides were separated from each other by reversed-phase HPLC. A core peptide still containing six closely located half-cystines (e.g. -Cys-Arg-Cys and -Cys-Cys-) was further digested with Streptomyces griseus trypsin for cleavage of the Arg-Cys bond. On the other hand, the Cys-Cys bond was split by applying manual Edman degradation to the core peptide. Amino acid composition analyses of the resulting cystine peptides allowed us to define the whole disulfide bridge structure in the parent molecule. The topological relation between the disulfide loops and the reactive site suggested that the ascidian trypsin inhibitor may be classified as a member of the Kazal-type inhibitor family.
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PMID:Disulfide bridge structure of ascidian trypsin inhibitor I: similarity to Kazal-type inhibitors. 211 16

Trypsin inhibitory activity from the hemolymph of the tobacco hornworm (Manduca sexta) was purified by affinity chromatography on immobilized trypsin and resolved into two fractions with molecular weights of 14,000 (M. sexta hemolymph trypsin inhibitor (HLTI) A) and 8,000 (HLTI B) by molecular sieve chromatography on Sephadex G-75. Electrophoresis of these inhibitors under reducing conditions on polyacrylamide gels gave molecular weight estimates of 8,300 for HLTI A and 9,100 for HLTI B, suggesting that HLTI A is a dimer and HLTI B is a monomer. Isoelectrofocusing on polyacrylamide gels focused HLTI A as a single band with pI 5.7, whereas HLTI B was resolved into two components with pI values of 5.3 and 7.1. Both inhibitors were stable at 100 degrees C and pH 1.0 for at least 30 min. HLTIs A and B inhibited serine proteases such as trypsin, chymotrypsin, and plasmin, but did not inhibit elastase, papain, pepsin, subtilisin BPN', and thermolysin. In fact, subtilisin BPN' completely inactivated both inhibitors. Both inhibitors formed low-dissociation complexes with trypsin in a 1:1 molar ratio. The inhibition constant for trypsin inhibition by HLTI A was estimated to be 1.45 x 10(-8) M. The HLTI A-chymotrypsin complex did not inhibit trypsin; similarly, the HLTI A-trypsin complex did not inhibit chymotrypsin, indicating that HLTI A has a common binding site for both trypsin and chymotrypsin. The amino-terminal amino acid sequences of HLTIs A and B revealed that both these inhibitors are homologous to bovine pancreatic trypsin inhibitor (Kunitz).
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PMID:Purification and characterization of two trypsin inhibitors from the hemolymph of Manduca sexta larvae. 316 77

A low molecular weight protein protease inhibitor was purified from Japanese horseshoe crab (Tachypleus tridentatus) hemocytes. It consisted of a single polypeptide with a total of 61 amino acid residues. This protease inhibitor inhibited stoichiometrically the amidase activity of trypsin (Ki = 4.60 X 10(-10) M), and also had inhibitory effects on alpha-chymotrypsin (Ki = 5.54 X 10(-9) M), elastase (Ki = 7.20 X 10(-8) M), plasmin, and plasma kallikrein. However, it had no effect on T. tridentatus clotting enzyme and factor C, mammalian blood coagulation factors (activated protein C, factor Xa and alpha-thrombin), papain, and thermolysin. The complete amino acid sequence of this inhibitor was determined and its sequence was compared with those of bovine pancreatic trypsin inhibitor (BPTI) and other Kunitz-type inhibitors. It was found that the amino acid sequence of this inhibitor has a high homology of 47 and 43% with those of sea anemone inhibitor 5-II and BPTI, respectively. Thus, this protease inhibitor appeared to be one of the typical Kunitz-type protease inhibitors.
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PMID:Purification and amino acid sequence of Kunitz-type protease inhibitor found in the hemocytes of horseshoe crab (Tachypleus tridentatus). 330 64

1. Experiments were performed to determine whether the specific collagenases and other metal proteinases are bound and inhibited by alpha(2)-macroglobulin, as are endopeptidases of other classes. 2. A specific collagenase from rabbit synovial cells was inhibited by human serum. The inhibition could be attributed entirely to alpha(2)-macroglobulin; alpha(1)-trypsin inhibitor was not inhibitory. alpha(2)-Macroglobulin presaturated with trypsin or cathepsin B1 did not inhibit collagenase, and pretreatment of alpha(2)-macroglobulin with collagenase prevented subsequent reaction with trypsin. The binding of collagenase by alpha(2)-macroglobulin was not reversible in gel chromatography. 3. The collagenolytic activity of several rheumatoid synovial fluids was completely inhibited by incubation of the fluids with alpha(2)-macroglobulin. 4. The collagenase of human polymorphonuclear-leucocyte granules showed time-dependent inhibition by alpha(2)-macroglobulin. 5. The collagenolytic metal proteinase of Crotalus atrox venom was inhibited by alpha(2)-macroglobulin. 6. The collagenase of Clostridium histolyticum was bound by alpha(2)-macroglobulin, and inhibited more strongly with respect to collagen than with respect to a peptide substrate. 7. Thermolysin, the metal proteinase of Bacillus thermoproteolyticus, was bound and inhibited by alpha(2)-macroglobulin. 8. It was shown by polyacrylamidegel electrophoresis of reduced alpha(2)-macroglobulin in the presence of sodium dodecyl sulphate that synovial-cell collagenase, clostridial collagenase and thermolysin cleave the quarter subunit of alpha(2)-macroglobulin near its mid-point, as do serine proteinases. 9. The results are discussed in relation to previous work, and it is concluded that the characteristics of interaction of the metal proteinases with alpha(2)-macroglobulin are the same as those of other proteinases.
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PMID:The interaction of alpha2-macroglobulin with proteinases. Binding and inhibition of mammalian collagenases and other metal proteinases. 437 31

A latent trypsin inhibitor is released from denatured human serum proteins by proteolytic digestion with thermolysin. The latent inhibitor was enriched by chromatography on DEAE-Sephacel, Sephadex G-200, and Protein A-Sepharose, respectively. Immunological cross-section identified the latent inhibitor as a complex between IgG and the inhibitory active part of the inter-alpha-trypsin inhibitor.
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PMID:Kunitz-type proteinase inhibitors derived by limited proteolysis of the inter-alpha-trypsin inhibitor. VI. Detection of a complex between immunoglobulin g and the inhibitory active part of the inter-alpha-trypsin inhibitor. 617 98

A papain-binding protein (PB-protein) was purified to homogeneity from the plasma of plaice (Pleuronectes platessa L.). PB-protein inhibited the activity of trypsin and pancreatic elastase (serine proteinases), thermolysin (a metalloproteinase) and papain (a cysteine proteinase). Presaturation of PB-protein with trypsin prevented the subsequent inhibition of thermolysin, and vice versa. Only catalytically active endopeptidases were bound by PB-protein. The catalytic activity of trypsin bound by PB-protein was inhibited by 95% against an insoluble protein substrate, but only by 38% against a low-molecular-weight synthetic substrate. The remaining activity of the bound trypsin was partially protected against further inhibition by soya-bean trypsin inhibitor. Trypsin bound by PB-protein showed a decrease of 67% in its reactivity with antibodies. The inhibitory activity of PB-protein was inactivated at pH 8.0 by methylamine (0.2M) or dithiothreitol (1 mM). The inhibition of proteinases by plaice PB-protein shows the distinctive characteristics of inhibition by human alpha 2-macroglobulin, and it is concluded that the plaice protein is a homologue of the human macroglobulin.
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PMID:Evolution of alpha 2-macroglobulin. The purification and characterization of a protein homologous with human alpha 2-macroglobulin from plaice (Pleuronectes platessa L.) plasma. 618 79

A new method for removing nearly all active endoproteinases from fluids called "sandwich affinity chromatography" is described. It is based on strong chelate binding of alpha 2-macroglobulin (alpha 2M) and its proteinase complexes to Zn2+-bis-carboxymethylamino-Sepharose (Zn chelate-Sepharose) and its ability to complex most active endoproteinases. The preferred performance minimizing unspecific protein adsorption is binding first alpha 2M to Zn chelate-Sepharose and then adsorbing the proteinase to the alpha 2M-Zn chelate-Sepharose using elevated salt concentrations. A suitable standard buffer, in which most proteases and alpha 2M are active and the protease-alpha 2M complex remains bound to Zn chelate-Sepharose, is 0.02 mol/liter sodium phosphate, pH 6.5, containing 0.15 mol/liter NaCl. As an example, the reaction of trypsin with alpha 2M-Zn chelate-Sepharose was studied. After saturating Zn chelate-Sepharose first with alpha 2M and then with trypsin under standard conditions, the bound alpha 2M equals the bound trypsin activity (measured with Chromozym TRY). The specific binding capacity of alpha 2M-Zn chelate-Sepharose for proteases was determined in this way to be 30-40 U trypsin, i.e., 0.40-0.54 mg/ml of gel. The balance and the fact that the bound trypsin is inaccessible to soybean trypsin inhibitor indicate that at these conditions no unspecific trypsin binding occurs. Chymotrypsin, thermolysin, elastase, bromelain, ficin, and papain are also bound at standard conditions but not exoproteases like carboxypeptidases A and Y. Advantages of the sandwich affinity chromatography are the simple loading procedure by adsorption, the high capacity of the gel material, and the possibility to reuse the Zn chelate-Sepharose after eluting reacted alpha 2M and reloading with new alpha 2M.
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PMID:Removal of endoproteinases from biological fluids by "sandwich affinity chromatography" with alpha 2-macroglobulin bound to zinc chelate-Sepharose. 620 48

In addition to trypsin, eight other proteolytic enzyme preparations were tested for their ability to assist simian rotavirus SA-11 plaque formation in MA-104 cells. When incorporated in the overlay (minimal essential medium and 0.7% Ionagar No. 2) in the concentrations per mL indicated, alpha-chymotrypsin (10 micrograms), elastase (0.5 micrograms), subtilisin (0.5 micrograms), pronase (2.5 micrograms) and pancreatin (25 micrograms) were as efficient as trypsin (5 micrograms) in helping SA-11 produce 3-4 mm diameter plaques after five days of incubation at 37 degrees C. No plaques were produced when pepsin (25 micrograms), papain (10 micrograms) or thermolysin (10 micrograms) was added to the overlay. Addition of soybean trypsin inhibitor to alpha-chymotrypsin-, pronase- or pancreatin-containing overlays completely inhibited virus plaque production. A similar effect was not seen with elastase or subtilisin.
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PMID:Proteolytic enzymes and rotavirus SA-11 plaque formation. 625 Jun 85


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