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)

A surgical model of EstoRex ultrasound destroyer operating at a frequency of 60 KHz, power of 6 W, and vibration amplitude at the tip of the tool of 15 microns was used to make incisions on rat liver. 5 to 7 s or 24 hr after surgery the specimens of the wound wall were fixed and further processed for electron microscopy and histochemical visualization of glucose-6-phosphatase at the ultrastructural level. In a separate series 2 mm-thick strips of the tissue were excised from the liver, processed by the destroyer for 45 s, and then exposed to a digestion treatment with mixture of trypsin and chymotrypsin for 24 hr at 37 degrees C or in solution of cathepsin L for 60 hr at 25 degrees C. The results showed that ultrasound caused not only thermal but also nonthermal ultrastructural and histochemical alterations, due probably to cavitation and viscous stresses. The ultrasound wound did not contain any proteolytically resistant material. Since ultrasound-processed tissue turned out to be highly susceptible to proteolytic digestion we suggest that the ultrasound destroyer, unlike Nd:YAG laser surgical instrument, would be a promising surgical tool with respect to wound cleaning and healing.
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PMID:[Morphofunctional characteristics of wound inflicted by an ultrasonic destroyer]. 133 73

The complete amino acid sequence of bovine spleen cathepsin S has been determined. The single-chain protein contains 217 residues and has a Mr of 23,682. The primary structure was determined by sequencing of native protein and the peptides obtained by proteolytic cleavage with beta-trypsin, papaya proteinase IV and by chemical cleavage with cyanogen bromide. Comparison of the amino terminal sequences of the heavy and the light chain of bovine cathepsin L with that of bovine cathepsin S clearly indicates that the enzymes are structurally different.
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PMID:The complete amino acid sequence of bovine cathepsin S and a partial sequence of bovine cathepsin L. 204 74

Eight different di- and tripeptidyl aldehyde derivatives, each having at its C-terminus an aldehyde analog of L-norleucine, L-methionine, or L-phenylalanine with a preceding L-leucine residue, were synthesized and tested for their inhibitory effects on several serine and cysteine endopeptidases. These compounds showed almost no inhibition of trypsin, and only weak inhibition of alpha-chymotrypsin and cathepsin H, while they exhibited marked inhibition of cathepsin B less than calpain II congruent to calpain I less than cathepsin L, being stronger in this order. The mode of inhibition of these cysteine proteinases was competitive for the peptide substrate used and inhibitor constants (Ki) were calculated from the Dixon plot. The best inhibitors found were: 4-phenyl-butyryl-Leu-Met-H for calpain I (Ki, 36 nM) and calpain II (Ki, 50 nM); acetyl-Leu-Leu-nLeu-H for cathepsin L (Ki, 0.5 nM); acetyl-Leu-Leu-Met-H for cathepsin B (Ki, 100 nM).
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PMID:Inhibitory effect of di- and tripeptidyl aldehydes on calpains and cathepsins. 207 36

Many unexpected biological functions as bioreactants of the intracellular proteases and their endogenous inhibitors have been found recently. Chymase and tryptase in histamine granules of mast cells and basophile cells play an important role in the process of IgE-mediated degranulation and in the formation of an allergic inflammation profile. Furthermore, the relationship between membrane proteases and their endogenous inhibitor has been taken up as a key and key-hole relation which plays an important role for special recognition apparatus of biological information like the relation of peptide hormones (growth factors) and their specific receptors. Amino acid sequences of the active site of trypstatin are homologous with the neutralizing epitope beta of gp120 of AIDS virus (HIV-1). The trypstatin and anti-tryptase M antibody inhibited syncytium formation in HIV infected Molt 4, clone 8 cells. Therefore, the relationship between tryptase M with trypstatin and the recognition site of epitope beta of HIV-1 with the receptor of helper T-cells are the common keys. The precursor of Alzheimer's deposition protein contains a Kunitz-type trypsin inhibitor domain. The A4-precursor proteins are located in axons of pyramidal neurons in brain and secretory granules of chromaffin cells in adrenal medulla. Those may be secreted into the extracellular milieu. We propose that the A4 inhibitor inhibits a special type of tryptase in the brain and disturbs the complete degradation of secreted A4-precursor protein causing amyloid deposition in alzheimer disease by abnormal proteolysis. Human c-Ha-ras p21 shows 58% homology with cystatin beta, an endogenous inhibitor of cathepsin. Actually, p21 inhibits cathepsin L specifically, but not cathepsin H, papain and cathepsin B. However, the metabolic significance of this inhibitory activity is still unknown.
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PMID:New biological functions of intracellular proteases and their endogenous inhibitors as bioreactants. 220 23

Limited proteolysis of T-kininogen by heterologous and homologous endopeptidases (bovine trypsin, human leukocyte elastase, rat submaxillary gland endopeptidase k, and rat mast cell chymase) produced similar fragmentation. Amino-terminal sequence analysis of whole T-kininogen lysates and purified proteolytic fragments identified four susceptible regions which contained all the preferential cleavage sites for these proteinases. Two of these susceptible regions were close to the junction between heavy chain cystatin-like domains, the third was in the kinin-containing region, and the fourth was close to the carboxyl terminus of the T-kininogen light chain. There was only one primary site for each proteinase in the kinin-containing region, which explains why catalytic amounts of these proteinases did not release immunoreactive kinin from this kininogen. However, preferential cleavage of T-kininogen close to the junction between cystatin-like domains released fragments which, provided they included cystatin-like domains 2 and/or 3, strongly inhibited papain and cathepsin L. The fragments were inhibitory even when parts of the amino-terminal ends of the domains were lacking. The highly conserved glycyl residue, thought to be involved in the inhibitory reactive site of cystatin-like inhibitors, was not required in purified domain 3 for inhibition of cathepsin L.
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PMID:Limited proteolysis of T-kininogen (thiostatin). Release of comparable fragments by different endopeptidases. 264 33

Cathepsins B and L were purified from human kidney. SDS/polyacrylamide-gel electrophoresis demonstrated that cathepsins B and L, Mr 27000-30000, consist of disulphide-linked dimers, subunit Mr values 22000-25000 and 5000-7000. The pH optimum for the hydrolysis of methylcoumarylamide (-NHMec) substrates (see below) is approx. 6.0 for each enzyme. Km and kcat. are 252 microM and 364s-1 and 2.2 microM and 25.8 s-1 for the hydrolysis of Z-Phe-Arg-NHMec (where Z- represents benzyloxycarbonyl-) by cathepsins B and L respectively, and 184 microM and 158 s-1 for the hydrolysis of Z-Arg-Arg-NHMec by cathepsin B. A 10 min preincubation of cathepsin B (40 degrees C) or cathepsin L (30 degrees C) with E-64 (2.5 microM) results in complete inhibition. Under identical conditions Z-Phe-Phe-CHN2 (0.56 microM) completely inhibits cathepsin L but has little effect on cathepsin B. Incubation of glomerular basement membrane (GBM) with purified human kidney cathepsin L resulted in dose-dependent (10-40 nM) GBM degradation. In contrast, little degradation of GBM (less than 4.0%) was observed with cathepsin B. The pH optimum for GBM degradation by cathepsin L was 3.5. Cathepsin L was significantly more active in degrading GBM than was pancreatic elastase, trypsin or bacterial collagenase. These data suggest that cathepsin L may participate in the lysosomal degradation of GBM associated with normal GBM turnover in vivo.
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PMID:Human kidney cathepsins B and L. Characterization and potential role in degradation of glomerular basement membrane. 284 49

Conditions for extraction of rat brain soluble and particulate cysteine proteinase inhibitors (CPIs) were compared and an optimal one was selected to isolate low- and high-molecular-weight forms active toward papain or brain cathepsins B/L. The different forms were purified by affinity chromatography on alkylated papain, and identified on sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels by use of Schiff's reagent, or by immunoblots using antisera to monomer or polymeric forms of human urinary cystatin c, to a human plasma histidine-rich glycoprotein (HRG), or to rat plasma T-kininogen. In particulates containing nuclei (P1) or synaptosomes (P2) the predominant CPI was an 80-kDa glycoprotein cross-reacting to anti-HRG and shown to be a T-kininogen by treatment with TPCK-trypsin, and subsequent bioassay of the released kinins. The levels found in rat brain were approximately 0.5 nmol/g wet weight. The higher-molecular-weight CPI potently inhibited cathepsin L hydrolysis of Leu-enkephalin at the Gly2-Gly3 bond with a Ki 10(-10) M. In contrast the low-molecular-weight CPIs were present in postmicrosomal fractions (S3) and cross-reacted with anti-cystatin c, but not with anti-HRG, anti-lysozyme, anti-beta protein amyloid peptide, or anti-T-kininogen. The low-molecular-weight forms were present at approximately 1-1.5 nmol/g wet weight and resembled "cerebrocystatin" purified previously from rat brain cytosol by M. Kopitar, F. Stern, and N. Marks [1983) Biochem. Biophys. Res. Commun. 112, 1000-1006.).
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PMID:Diversity of rat brain cysteine proteinase inhibitors: isolation of low-molecular-weight cystatins and a higher-molecular weight T-kininogen-like glycoprotein. 326 47

It has been found that two active in neutral medium thiol proteinases from bovine spleen, cathepsin L and cathepsin H, bring about rapid and irreversible inactivation of alpha 1-proteinase inhibitor (alpha 1PI)--one of the major plasma inhibitors of serine proteinases. The activity of the enzymes studied did not change upon the interaction with alpha 1PI. With stoichiometric proteinase/inhibitor ratio, the inactivation of alpha 1PI under the effect of cathepsin L was instantaneous, while under the effect of cathepsin H it occurred within 30-60 min. The products of alpha 1PI inactivation had an inhibitory effect on the rate of its reaction with cathepsin L. alpha 1PI inactivation under the action of cathepsin L and cathepsin H was accompanied by the decrease in the molecular mass of the inhibitor from 54 kDA to 46 kDa. This was, probably, caused by the hydrolysis of the peptide bond formed by NH2 group of threonine. The 46 kDa fragment did not undergo further degradation. It did not bind to immobilized trypsin but retained antigenic properties. The results obtained show that the limited proteolysis is a mechanism of the inhibitor inactivation. It is suggested that under some conditions thiol proteinases, upon their release from the cell, participate in the control of effective alpha 1PI concentration.
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PMID:[Inactivation of blood plasma alpha 1-proteinase inhibitor as affected by 2 splenic thiol proteinases active in a neutral medium]. 329 92

Previous attempts to liberate T kinin from T kininogen [Moreau et al. (1986) Eur. J. Biochem. 159, 341-346; Gutman et al. (1988) Eur. J. Biochem. 171, 577-582] have shown that complete fragmentation of the precursor molecule into inhibitory peptides was achieved before any vasoactive peptide was released, suggesting a possible physiological significance for this phenomenon. In this study, cysteine-proteinase-inhibiting properties of rat T kininogen and of its proteolytic fragments issuing from trypsin and submaxillary gland endopeptidase k hydrolysis, have been investigated using rat lysosomal cathepsins B, H and L, papain and bovine calpains I and II. All three lysosomal cathepsins were inhibited by T kininogen but tighter interactions were observed with cathepsin L and papain. Though higher Ki values were obtained for cathepsins B and H, rate constants for association were found to have high and almost similar values (in the 10(6) M-1 s-1 range) whatever the enzyme used. Proteolytic fragments also inhibited cathepsin L and papain very strongly and even better than the entire molecule for some of them, but no significant inhibition of cathepsins B and H was observed. Bovine calpains were not inhibited by T kininogen nor by its proteolytic fragments. From the results of this kinetic analysis, which indicates that both the association and the dissociation of lysosomal cysteine proteinases with T kininogen may occur rapidly, an hypothesis has been put forward on the possible in vivo functioning of T kininogen as a proteinase inhibitor.
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PMID:Cysteine-proteinase-inhibiting function of T kininogen and of its proteolytic fragments. 335 89

We point out that human low-Mr kininogen contains three cystatin-like sequences, rather than two, as had previously been thought. The protein was purified by affinity chromatography on carboxymethyl-papain-Sepharose, and subjected to limited proteolysis by trypsin and chymotrypsin. Fragments were isolated, and three corresponding to the individual cystatin-like domains were identified. By comparison with the known amino acid sequence of the protein they were numbered 1 to 3 from the N-terminus. Domain 1 was not found to have any inhibitory activity for cysteine proteinases, which is consistent with the absence of residues that are highly conserved in inhibitors of the cystatin superfamily, and have previously been suggested to be essential for activity. Domain 2 was a good inhibitor of chicken calpain, and also papain and cathepsin L. Domain 3 showed negligible inhibition of calpain, but inhibited papain and cathepsin L strongly. The probable arrangement of disulphide bonds in the heavy chain of low-Mr kininogen is deduced from the homology with the cystatins and other evidence contained in the present paper.
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PMID:Human low-Mr kininogen contains three copies of a cystatin sequence that are divergent in structure and in inhibitory activity for cysteine proteinases. 352 86


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