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)

We described earlier the facilitated purifications of the trypsin and aminopeptidase components present in Pronase (Vosbeck, K. D., Chow, K. -F., and Awad, W. M., Jr. (1973) J. Biol. Chem. 248, 6029-6034). A partially resolved protein mixture left over after one of the steps in that procedure was passed through a Sephadex G-75 column. By this means, a component with carboxypeptidase activity was separated from associated serine endopeptidases. Further purification of this exopeptidase to apparent homogeneity was acheived by refiltration through the same Sephadex column and by CM-cellulose chromatography. A single protein band was observed after acrylamide gel electrophoresis; analysis by sedimentation equilibrium using the meniscus depletion method gave a molecular weight of 30,300. This enzyme demonstrates activity against Nalpha-benzyloxycarbonylglycyl-L-leucine and hippuryl-D,L-phenyllactate; no activity was found against Nalpha-acetyl-L-tyrosine ethyl ester, Nalpha-benzoyl-D,L-arginine-p-nitroanilide, or L-leuckne-p-nitroanilide. The maximum activity lies between pH values of 7 and 8; the enzyme is stable between pH values of 6 and 10. At room temperature 1,10-phenanthroline inactivates the enzyme completely whereas EDTA has no effect. Of the many cations tested, only Co2+, Ni2+, or Zn2+ restores activity to the 1,10-phenanthroline-treated enzyme; Co2+ provided 3 times the native activity. The metal in the native protein was found to be zinc. These findings are similar to those recorded with bovine pancreatic carboxypeptidase A, and suggest the possibility that the present enzyme may ge genetically related to the mammalian protein, as in previously noted examples of homology of three Pronase endopeptidases to pancreatic serine enzymes.
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PMID:Proteolytic enzymes of the K-1 strain of Streptomyces griseus obtained from a commercial preparation (Pronase). Purification and characterization of the carboxypeptidase. 0 Mar 99

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

It is proposed that all peptide hormones and releasing factors are biosynthesized in the form of precursor molecules which are biologically inactive. Enzymic activation may take place by hydrolytic cleavage to release a terminal COOH group or by transmidation to form a COOH-terminal amide. Studies with pituitary prohormones and hormones are providing data that support this hypothesis. Evidence has been obtained that the 91 residue beta-lipotropin (beta-LPH) is the prohormone of beta-melanotropin (beta-MSH). The specificity of the pituitary enzymes involved in release of the hormone was demonstrated by the isolation of five constituent fragments of LPH, which were obtained in homogeneous form from the pituitary gland of the pig. The enzymes have specificities similar to trypsin and carboxypeptidase B; carboxypeptidase A and aminopeptidase activities do not appear to be involved. Mild digestion of beta-LPH by trypsin in vitro has confirmed the susceptibility of the peptide bond on the carboxy side of the paired basic residues at positions 59 and 60, adjacent to the COOH-terminus of beta-MSH, and tryptic digestion of a model peptide demonstrated the same specificity. The paired basic residues at positions 39 and 40 adjacent to the NH2-terminus of beta-MSH were more resistant to tryptic attack, both in LPH and in a model peptide. In the gland it is apparent that LPH is cleaved on the carboxy side of the paired lysyl residues at positions 39 and 40, whereas in the synthetic peptide cleavage takes place in between these residues. The activating enzyme may differ from trypsin; alternatively, explanation may be found in the conformation of the prohormone. Prediction of secondary indicates that both pairs of basic residues lie adjacent to beta-bends on the surface of the molecule and occupy sites accessible to enzymic attack. It seems likely that alpha-MSH and corticotropin (ACTH) share a common pro hormone. The release of ACTH could involve cleavage of a -Gly-Ser- bond in the prohormone to expose the NH2-terminus of the hormone. With alpha-MSH, a concerted acetylation and cleavage may take place to form the N-acetylserine residue; the COOH-terminus may be released as an amide by direct transamidation of a -Val-Gly- bond in the prohormone. Release of either hormone would be accompanied by the release of contiguous fragments of the prohormone. We have isolated two novel polypeptides from pig pituitary in substantial quantity and have determined the primary structures. They may represent fragments of a prohormone to alpha-MSH or ACTH.
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PMID:Prohormones of beta-melanotropin (beta-melanocyte-stimulating hormone, beta-MSH) and corticotropin (adrenocorticotropic hormone, ACTH): structure and activation. 18 Dec 27

The composition of extracellular proteinases from Actinomyces fradiae 0072 and their effect on proteins and synthetic substrates were studied. The enzyme preparation was found to have keratinolytic, caseinolytic, collagenolytic, collagenase, trypsin-like, carboxy- and aminopeptidase activities. Five low molecular weight proteinases capable to hydrolyse keratin, casein, azocollagen were obtained via fractionation of the enzyme preparation on DEAE-cellulose and Sephadex columns. Proteinases from Act. fradiae and aminopeptidase with a molecular weight of 31,000 were shown to be different enzymes. In hydrolysis of L-leucyl-2-naphthylamide the Michaelis constant and Vmax of the enzyme were found to be 3.02 X 10(-3) M and 0.35 X 10(2) micronM/ml-min, respectively.
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PMID:[Characteristics of extracellular proteolytic enzymes of Actinomyces fradiae 0072]. 19 35

Several classes of proteolytic enzymes were used to gain an insight into the biochemical composition of the antiotensin II (ATII) receptor prepared from bovine adrenal cortices. Exposure of the receptor fractions to trypsin reduced their capacity to bind [3H]ATII. Phospholipases A2 and C similarly inhibited the [3H]ATII binding process, while phospholipase D had no effect. Binding was stimulated following addition of phosphatidylcholine but inhibited by lysophosphatidylcholine. Neuraminidase had no influence on [3H]ATII affinity for binding, while beta-galactosidase reduced binding of the radioligand. Concanavalin A did not displace [3H]ATII bound to receptor fractions. Very little aminopeptidase activity was detected in the receptor fraction, relative to the homogenate. The data suggest that the ATII recognition sites contain protein moieties, while phospholipids may play an essential role in ATII binding. Galactose units may form a part of the ATII receptor not directly associated with the binding site. The peptidase studies indicate that ATII probably cannot be hydrolyzed to its des-Asp1 metabolite at or near the site of binding.
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PMID:Enzymatic modifications of bovine adrenocortical angiotensin II receptors. 22 26

The proteases of the larvae of the webbing clothes moth, Tineola bisselliella, were investigated because of this organism's phylogenetic rank as a member of the lower invertebrates, its unique position as one of the relatively few organisms that can digest keratin and its importance as a serious fabric pest. Both the number and nature of different proteolytic enzymes present were investigated and the various activities partially fractionated by ammonium sulphate precipitation and chromatography on DEAE-cellulose and Sephadex G200 columns. A complex mixture of peptidases and proteinases has been found in extracts of whole larvae and has been shown to be associated with the larval digestive tract. The proteinases include metal-chelator-sensitive proteinases (metalloproteinases) and serine proteinases but no SH-proteinases or acid proteinases. The serine proteinases include both trypsin-like and chymotrypsin-like activities. Four major and three minor anionic trypsin-like enzymes and a single major cationic trypsin-like enzyme have been detected. Only a single anionic chymotrypsin-like enzyme appears to be present. The trypsin-like enzymes are unaffected by the naturally occurring proteinase inhibitors, chicken ovomucoid, soybean trypsin inhibitor and lima bean trypsin inhibitor, while the chymotrypsin-like enzyme is inhibited by soybean trypsin inhibitor only. The enzymes resemble the serine proteinases from microorganisms in their pH stability. The peptidases include both aminopeptidase and carboxypeptidase activities and both are present in multiple forms. Sixteen aminopeptidase bands have been detected and all are present in individual larvae. They are not inhibited completely by reagents specific for any of the common active sites, and have different specificity requirements. Two carboxypeptidases have been detected on acrylamide gels and have been completely separated on DEAE-cellulose. No evidence could be found for the existence of any of these proteases as inactive precursors.
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PMID:Resolution of proteases in the keratinolytic larvae of the webbing clothes moth. 24 Mar 46

Porcine enteropeptidase (EC 3.4.21.9) purified from acetone powders of fresh duodenal fluid shows a molecular weight, as determined on Ultragel AcA-34, of 190000. Enteropeptidase has been solubilised from pig intestinal mucosa using 1% (v/v) Triton X-100. When Triton X-100 extracts of freeze-dried mucosa after partial fractionation on DEAE-cellulose were chromatographed on Sephadex G-200, the bulk of the activity eluted in the void volume rather than with an expected Ve/V0 ratio of about 1.24 corresponding to a molecular weight of around 200000. Gel filtration of aqueous mucosal extracts obtained in the absence of Triton X-100 showed two regions of enzymic activity in approximately equal proportions, one in the void volume, and the other with the expected Ve/V0 ratio of 1.24, whereas the Triton X-100 extracts of the residue from the above extract showed the presence of only the macromolecular species of enteropeptidase. This species was excluded from Sepharose 4B. It was confirmed that aminopeptidase was also extracted by Triton X-100 in a molecular form which was excluded from Sepharose 4B. The results suggest that Triton X-100 extracts enteropeptidase with a membrane component attached and in agreement with this it was found that proteolysis rapidly converted the macromolecular form to a stable smaller molecular species corresponding in size to that found in solution in the duodenal fluid. There was full recovery of the enzymic activity following this conversion. Papain and trypsin brought about an almost complete conversion to the smaller form of enteropeptidase whereas chymotrypsin, pancreatin and an intestinal peptidase preparation were only partially effective. It is concluded that membrane bound enzymes such as enteropeptidase and aminopeptidase are bound to the intestinal brush border membrane in a similar manner and are not actively secreted into the lumen but rather are largely released or solubilised by the combined action of the bile and pancreatic secretions.
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PMID:Identification of a mucosal form of enteropeptidase in triton X-100 extracts of porcine duodenal mucosa. 55 56

A study in the properties of hydrolytic enzymes and the processes of hydrolysis relized by them is a main trend in the department activity. Special attention is paid to the studies in hydrolases of microbial origin. Methods are developed for obtaining the proteolytic and cellulolytic complexes synthetized by the Aspergilla and Actinomyces. New, nonstudied (or little studied) individual enzymes are isolated from the proteolytic complexes proteinases form Asp. flavus, Asp. oryzae, Str. griseus; carboxypeptidase from Str. griseus. LGG-aminopeptidase from Asp. flavus. The presence of dipeptidases of different types is shown. The methods for cystallization of pepsin, alpha-chemotrypsin, trypsin, protease from Str. griseus, alpha-amylase from Asp. cryzae are developed and improved. The properties of the isolated enzymes are studied--their substrate specifity, elements, of chemical structure, effect of activators and inhibitors, metal ions, etc. Special attention is paid to studies in stability and conditions of enzymic proteins stabilization. On the basis of studies in the field of preparative enzymology as well as in stabilization and denaturation of the enzymes, seven preparations (or new methods of their production) are worked out for application to medicine. The studies in the process of gelatin hydrolysis with protease of Str. griseus made it possible to develop a new technique for silve regeneration by means of the preparation "proteinase-1". The enzymic-antibiotic preparation "protezym" proved to be effective when feeding sucking pigs and broilers.
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PMID:[Studies in the field of hydrolytic enzymes]. 81 33

The derivative of the trypsin-kallikrein inhibitor (Kunitz), TKI+, was prepared with the reactive-site peptide bond Lys-15-Ala-16 hydrolyzed. This was achieved by selective borohydride reduction of the Cys-14-Cys-38 disulfide bond, followed by tryptic cleavage of the reactive-site peptide bond, air reoxidation of the half-cystine residues, and purification by ion-exchange chromatography. The derivative corresponds to the hypothetical 'modified' inhibitor TKI+, which so far could not be obtained from virgin inhibitor by a direct modification reaction (partial proteolysis). The derivative isolated was homogeneous as revealed by amino acid analysis, disc electrophoresis, inactivation by carboxypeptidase B, and inactivation by sodium borohydride reduction. The inhibitory activity of the sodium-borohydride-reduced inhibitor was fully recovered after air reoxidation. The site of cleavage in the inhibitor was confirmed by performic acid oxidation and subsequent isolation of the two corresponding peptides containing residues 1-15 and 16-58 of the entire polypeptide chain. From several aminopeptidases tested only aminopeptidase K rapidly cleaved Ala-16 and Arg-17 from the modified inhibitor and at a reduced rate Ile-18. Des-(Ala16,Arg17)-inhibitor and des-Ala16-inhibitor are both lacking a strong inhibitory activity against bovine trypsin. This indicates a decrease in the association constant by factor of at least 10(8)-10(10). The reactive-site-modified inhibitor is not subject to further enzymic breakdown and therefore is a permanent inhibitor of trypsin. However, the modified inhibitor forms the inactive complex much slower than virgin inhibitor. In the modified inhibitor the hydrolyzed peptide bone was resynthesized to yield virgin inhibitor by forming the complex with trypsin and subjecting the complex to kinetic control dissociation. This proves that the bond Lys-15--Ala-16 is at the reactive site of this inhibitor. Preparation of a modified and still active inhibitor (Kunitz) is in agreement with the general model proposed for the interaction of proteinase-inhibitor--proteinase interactions. This presents new evidence that this model is generally applicable.
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PMID:Preparation and characterization of the active derivative bovine trypsin-kallikrein inhibitor (Kunitz) with the reactive site lysine-15 -- alanine-16 hydrolyzed. 94 16

A method is described for the purification of human enterokinase from accumulated duodenal fluid by affinity chromatography using p-aminobenzamidine as the ligand. Resolution was greatest when glycylglycine was substituted as the spacer arm. Purification was not a one-step procedure, and some contamination, principally by the alpha-glucosidases, remained. Their removal was completed by immunoadsorption using antisera raised to enterokinase-free material containing these enzymes, prepared as a by-product of the purification procedure. The final preparation had an activity of 4260 nmol of trypsin/min per mg and was free of other enzymic activity tested. Amino acid and sugar analyses of the highly purified enzyme indicated an acidic glycoprotein containing 57% sugar (neutral sugars 47%, amino sugars 10%). The apparent mol.wts. and Stokes radii of human and pig enterokinase were 296 000 and 316 000, and 5.65 and 5.78 nm respectively. Two isoenzymes were identified for human enterokinase and three for the pig enzyme. Human enterokinase demonstrated a resistance to reduction of disulphide linkages and to sodium dodecyl sulphate binding, which may be related to the need for it to retain its integrity in the digestive environment of the upper small intestine. Antisera to highly purified pig and human enterokinases specifically inhibited enterokinase activity. Immuno-inhibition of intestinal aminopeptidase, maltase and glucoamylase by homologous antisera was not observed.
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PMID:The purification of human enterokinase by affinity chromatography and immunoadsorption. Some observations on its molecular characteristics and comparisons with the pig enzyme. 94 36


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