EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The kinin-forming enzyme of rat brain was studied by bioassaying kinin using a rat uterus. The enzyme released a kinin from the partially purified kininogen of rat plasma. The activity is exclusively distributed in the mitochondrial fraction and was detected in the pH range of 2.5-4.0 (optimally at pH 3.0). The enzyme was potently inhibited by pepstatin, but not by aprotinin. Released kinin was extracted by n-butanol and it was purified using Amberlite CG-50 absorption and CM-cellulose column chromatography. The elution profile of kinin from the CM-cellulose column did not coincide with that of bradykinin, Lys-bradykinin or Met-Lys-bradykinin. Isolated kinin was inactivated by treatment with chymotrypsin, but not with trypsin. In addition to the contractile activity on rat uterus, the kinin caused contraction of guinea pig ileum, with the response being potentiated by the presence of bradykinin-potentiator B. It also relaxed a rat duodenum, decreased rat blood pressure, and increased the vascular permeability in guinea pigs. Relative potencies of kinin on these pharmacological activities did not coincide with those of bradykinin. From these results, it is concluded that a kinin-forming enzyme is present in the rat brain. It is a cathepsin D-like enzyme, and furthermore, the enzyme releases a kinin-like peptide from the plasma kininogen fraction.
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PMID:Kinin-forming enzyme in rat brain mitochondria fraction and biological activity of a kinin released from rat plasma kininogen by this enzyme. 674 70

A protein from Drosophila melanogaster which inhibits bovine alpha-chymotrypsin activity was purified using an extensive extraction procedure. SP-Sephadex column chromatography and affinity column chromatography. The inhibitor has an estimated molecular weight of approx. 12 000 and is extremely pH and heat stable. It did not exhibit any inhibitory activity against trypsin from numerous sources nor mosquito larval chymotrypsin but did inhibit adult mosquito chymotrypsin. Chymotrypsin-like activity has not been found in Drosophila and therefore the function of the inhibitor is unknown. Preliminary work indicates that it effectively inhibits cathepsin D activity from a nematode parasite and rabbit liver.
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PMID:Purification and partial-characterization of a protease inhibitor from Drosophila melanogaster. 676 47

Circular dichroism spectra, thermal transition profiles and proteolytic susceptibility showed that different regions in the multidomain protein fibronectin exhibit different sensitivity against urea denaturation. A 70-kDa fragment obtained by cathepsin D treatment which comprises the N-terminal part of the fibronectin chains, exhibited in 8M urea a spectrum, at 20 degrees C, identical to that of the native fragment and its thermal unfolding was shifted to lower temperatures by only 10 degrees C. The central portions of the fibronectin chains were remarkably unfolded under the same conditions as clearly demonstrated by the spectra and transition profiles of a cathepsin D-raised 125/140-kDa fragment which originates from this region. When fibronectin or its fragments were exposed to 4 or 8M urea at 4 degrees C and the urea subsequently dialysed off, the spectra and transition curves recorded were very similar to those of the native proteins. Nevertheless, this treatment introduced local conformational changes which resulted in the creation of three new cleavage sites for chymotrypsin. The most prominent one was found to be located in the central part of the middle region and no sites were created in the N-terminal 70-kDa region. In the conjunction with sequence information [Petersen et al. (1983) Proc. Natl. Acad. Sci. USA 80, 137-141] it may be concluded that the disulfide rich domains, made up by regions of internal homology of types I and II in the N-terminal portion of fibronectin, exhibit a remarkable conformational stability, whereas the disulfide free middle region which contains type III domains, is much less stable. Some domains in this region are particularly sensitive to urea denaturation and are irreversibly affected already by 4M urea at 4 degrees C. Therefore, the use of high urea concentrations for the elution of fibronectin from affinity columns may lead to an at least partially irreversible unfolding of some domains and a loss of functions associated with these structural elements.
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PMID:Discrimination of different domains in fibronectin on the basis of their stability against urea denaturation. 687 82

The inhibitory effect of thermo- and acid-resistant inhibitor of trypsin, chymotrypsin and leukocyte proteinases (TASPI) from rabbit serum on the kininogenase activity of cathepsins D from different organs and tissues (human spleen and liver, chicken liver, spleen leukemic infiltrate from patients with myeloid leukemia) was revealed. The progressive mechanism of TASPI and cathepsins D complexation dependent on time and temperature was revealed. The rate constant of inhibition (ki) of chicken liver cathepsin D by TASPI at 37 degrees was 4,25.10(3)M-1 min-1. It was shown that the kininogenase activity of chicken liver cathepsin D was slightly inhibited by the basic pancreatic trypsin and kallikrein inhibitor from bovine organs (Kunitz type) and by soya bean trypsin inhibitor. The role of TASPI as regulator of cathepsins D activity under pathological conditions accompanied by lysosomal disintegration is discussed.
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PMID:[Inhibition of kininogenase activity of cathepsins D by acid-resistant proteinase inhibitor from rabbit serum]. 691 92

Inactive renin (prorenin) can be activated by certain proteases in human blood, of which a possible source in vivo is polymorphonuclear leukocytes (PMNs). We extracted enzyme from PMNs using methods established for the recovery of neutral and acid protease fractions, and tested their effectiveness on plasma prorenin in vitro. Neutral protease preparations, possessing mainly chymotrypsin and elastase activity, produce no activation of prorenin. Exogenous pancreatic alpha-chymotrypsin does activate plasma prorenin, but less effectively than trypsin. From the quantity of PMNs extracted for neutral protease, and its failure to activate protenin, we deduce that this enzyme preparation, like exogenous chymotrypsin, is qualitatively unimportant. In contrast, the extracted PMN acid protease fraction, believed to be rich in cathepsin D, exhibited high prorenin activating ability, suggesting both quantitative and qualitative importance. The low pH requirement of this acid protease (near pH 4.0), together with its inactivity at neutral pH, argues against an important systemic role in the conversion of prorenin. However, it may contribute to systemic activation in partnership with other enzymes, or else play a specialized local role in situations where PMN concentration and activity increase, and the pH is on the acid side.
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PMID:Activation of prorenin by proteases from polymorphonuclear leukocytes. 699 62

Two trypsin inhibitor types, PII and PI II, were isolated by affinity chromatography of a potato extract on a column of trypsin immobilized on Sepharose 4B. Fraction PI I afforded after ion exchange chromatography on SE-Sephadex two isoinhibitors, PI IA (Mr approximately 18 000; pI approximately 6.3) and PI IB (Mr approximately 19 500; pI approximately 7.2). The chromatography of fraction PI II on SE-Sephadex yielded three inhibitors of approximately equal molecular weight (Mr approximately 13 500), PI IIC (pI approximately 6.3), PI IID (pI approximately 7.7), and PI IIE (pI approximately 9.1). All the inhibitors isolated show a high activity toward trypsin, acrosin, and chymotrypsin. Unlike the two isoinhibitors of PI I, which practically do not inhibit kallikrein, inhibitors PI II show an effect on this enzyme. Neither the isoinhibitors of PI I nor inhibitors PI II are active toward cathepsin D.
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PMID:Polyvalent proteinase inhibitors from potatoes. Isolation and characterization of acrosin inhibitors from Solanum tuberosum. 704 Jan 19

Reduced turn-over of tau by calpains is a possible mechanism to facilitate the incorporation into paired helical filaments (PHFs) in Alzheimer's disease. The present study shows that the differently phosphorylated fetal tau isoforms are all rapidly proteolysed to an equal extent by human brain m-calpain. This result argues against the hypothesis that this type of fetal phosphorylation is involved in reducing tau turn-over by calpain in Alzheimer's disease. Adult and fetal tau fragments in vitro generated by m-calpain, but not trypsin, cathepsin D or chymotrypsin resemble the post-mortem in situ degradation patterns, suggesting a possible role for calpains in tau metabolism in vivo. Tau incorporated into PHFs was considerably more resistant to proteolysis by calpain which can help to explain the persistence of these structures in Alzheimer's disease.
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PMID:Differential sensitivity to proteolysis by brain calpain of adult human tau, fetal human tau and PHF-tau. 761 58

DMP 323 is a potent inhibitor of the protease of human immunodeficiency virus (HIV), with antiviral activity against both HIV type 1 and HIV type 2. This compound is representative of a class of small, novel, nonpeptide cyclic urea inhibitors of HIV protease that were designed on the basis of three-dimensional structural information and three-dimensional database searching. We report here studies of the kinetics of DMP 323 inhibition of the cleavage of peptide and HIV-1 gag polyprotein substrates. DMP 323 acts as a rapidly binding, competitive inhibitor of HIV protease. DMP 323 is as potent against both peptide and viral polyprotein substrates as A-80987, Q8024, and Ro-31-8959, which are among the most potent inhibitors of HIV protease described in the literature to date. Incubation with human plasma or serum did not decrease the effective potency of DMP 323 for HIV protease, suggesting that plasma protein binding is of a low affinity relative to that of HIV protease. DMP 323 was also assessed for its ability to inhibit the mammalian proteases renin, pepsin, cathepsin D, cathepsin G, and chymotrypsin. No inhibition of greater than 12% was observed for any of these enzymes at concentrations of DMP 323 that were 350 to 40,000 times higher than that required to inhibit the viral protease 50%.
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PMID:Potency and selectivity of inhibition of human immunodeficiency virus protease by a small nonpeptide cyclic urea, DMP 323. 797 96

Potato tubers contain a complex group of proteins of 20 to 24 kDa that exhibit homology to Kunitz-type proteinase inhibitors. We isolated three cDNAs and two genomic clones that encode members of the potato Kunitz-type proteinase inhibitor (PKPI) family. Comparison of the structures of these and other cloned genes indicated that genes of the PKPI family can be classified into three major homology groups, namely, A, B and C. The PKPI-A and -B genes exhibit higher homology to one another than to the PKPI-C genes. Determination of the N-terminal amino acid sequences of 18 polypeptides from the complex group of 20- to 24-kDa proteins that had been separated by column chromatography and subsequently gel electrophoresis revealed three different sequences that corresponded to PKPI-A, -B, and -C. PKPI-A genes include those coding for a cathepsin D inhibitor, while PKPI-B and -C genes include those coding for trypsin and/or chymotrypsin inhibitors and a subtilisin inhibitor. Precursors to PKPIs are synthesized with an N-terminal extra peptide that appears to contain, in addition to the signal peptide, a short propeptide with a highly conserved Asn-Pro-Ile-Xxx-Leu-Pro motif that is identical to the potential vacuolar-sorting determinant in the N-terminal propeptide of a precursor to sporamin of sweet potato. Expression of the PKPI-A and -B genes is differentially regulated: PKPI-A mRNA but not PKPI-B mRNA were induced in leaves after wounding or upon treatment with methyl jasmonate. Nuclear genes for PKPI-A and -B do not contain introns, and the homology between the two types of gene extends only 72 bp upstream from the site of initiation of transcription.
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PMID:A family of potato genes that encode Kunitz-type proteinase inhibitors: structural comparisons and differential expression. 806 93

The alternatively spliced type III connecting segment (IIICS) of fibronectin (Fn) contains an amino acid sequence, CS-1, which is recognized by the integrin receptor, alpha 4 beta 1. Plasma Fn inhibits alpha 4 beta 1-dependent binding of lymphocytes and monocytes to CS-1 containing Fn derivatives poorly, suggesting limited exposure of the CS-1 sequence in Fn. To test the availability of CS-1 in plasma Fn, an antibody was raised to the synthetic peptide CS-1. The CS-1 sequence was found to be minimally exposed in plasma Fn; and immobilization of Fn, a model of matrix deposition, caused only a modest increase in its exposure. Digestion of Fn with selected proteases, however, induced substantial expression of the CS-1 sequence. The acid protease cathepsin D generated fragments of 31-33.5 kDa from the COOH-terminal heparin-binding domain of Fn which possessed high immunoreactivity with anti-CS-1. Digestion of Fn with cathepsin B also resulted in the exposure of CS-1 sequence in a 140 kDa fragment. Although the digestion of Fn with neutral proteases (neutrophil elastase, cathepsin G, chymotrypsin, trypsin) generated fragments from the COOH-terminal heparin-binding domain of similar molecular weight as with cathepsin D, the exposure of CS-1 did not occur. Exposure of the CS-1 region by the cathepsins was supported by cell adhesion experiments; digestion of Fn with cathepsins D and B transformed inert plasma Fn to an effective inhibitor of adhesion of lymphoblastoid B and T cells (Ramos, Jurkat, Molt-4) to an immobilized CS-1 conjugate. These results suggest that exposure of the CS-1 sequence in plasma Fn by proteolysis with cathepsins D and B, enzymes implicated in several pathological processes, may serve a regulatory function in cell adhesion. The adhesive function of the CS-1 region in intact Fn appears to be suppressed by the native conformation of the molecule.
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PMID:Proteolysis regulates exposure of the IIICS-1 adhesive sequence in plasma fibronectin. 871 84

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