EC:3.4.24.3 - FACTA Search

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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During experiments studying dietary effects on phosphorylation/dephosphorylation of MAP-2 we found that incubation of microtubules with alkaline phosphatase resulted in extensive proteolysis of MAP-2 but not of tubulin or Tau proteins. In the absence of tubulin, when microtubule-associated proteins (MAPs) were incubated with alkaline phosphatase, MAP-2 was not proteolyzed. This suggests that binding to tubulin induces a conformational change in MAP-2 which makes it more susceptible to proteolysis. The proteolysis of MAP-2 by alkaline phosphatase was prevented by inhibitors of serine proteases, suggesting that the commercial preparation of the enzyme is contaminated by a serine protease and/or that the enzyme also has a weaker proteolytic activity. In addition, selective proteolysis of MAP-2 can be obtained with the metalloprotease collagenase. Brain homogenates are shown to contain a Ca(2+)-dependent protease which selectively degrades MAP-2 bound to tubulin. These results suggest that selective proteolysis of tubulin-bound MAP-2 could play a role in the regulation of microtubule dynamics in response to extracellular signals.
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PMID:The susceptibility of MAP-2 to proteolytic degradation increases when bound to tubulin. 150 6

Two clones were isolated by screening a shrimp hepatopancreas cDNA library with a DNA fragment obtained by PCR amplification using two oligonucleotides based on the partial protein sequence of Penaeus vanameii chymotrypsin purified earlier. One of these clones, PVC 7 contains a complete cDNA coding for a serine protease. The deduced amino acid sequence shows the existence of a 270 residue-long preproenzyme containing a highly hydrophobic signal peptide of 14 amino acids. This suggests the existence of a putative zymogen form of the enzyme containing a 30 amino acid-long peptide which is cleaved to give a mature protein of 226 residues. A highly preferred codon usage is observed for this protein. The other obtained cDNA was found to encode the less predominant variant of the protein. Sequence alignments show that shrimp chymotrypsin is highly homologous with crab collagenase (77% homology taking into account the same amino acid at the same position, and 83% homology taking into account amino acids with conserved function) and that it is more similar to mouse trypsin (41% homology of strictly conserved amino acids) than to hornet chymotrypsin (35% homology).
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PMID:Molecular cloning of a cDNA that encodes a serine protease with chymotryptic and collagenolytic activities in the hepatopancreas of the shrimp Penaeus vanameii (Crustacea, Decapoda). 151 90

Chinese hamster ovary (CHO) cells were examined for production of an enzyme that nicked the polypeptide chain of the heat-labile enterotoxin from enterotoxigenic Escherichia coli between the A1 and A2 fragments of its A subunit. Serum-free culture medium prepared each day after CHO cell inoculation was concentrated 100 times and its proteolytic activity for formation of the A1 fragment was examined by Western blotting with anti-LT A antibody. The A subunit was detected in culture medium on day 6 after cell inoculation, although not in media on day 1 or 3, indicating that CHO cells produced a nicking enzyme. This nicking enzyme had an optimal pH of about 7.5 and an apparent Mr. of 120,000, as seen by Superose 12 TM gel filtration with an FPLC system. The activity of this enzyme was strongly inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride, but not by p-chloromercuribenzoic acid, EDTA or ethyleneglycol bis (beta-aminoethylether)-N,N-N',N'-tetraacetic acid, suggesting that this enzyme was a serine protease. The activity was not stimulated by plasminogen or fibrin. These findings suggest that the nicking enzyme was different from proteases such as elastase, collagenase and plasminogen activator, which are probably also secreted by fibroblast-like CHO cells.
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PMID:Chinese hamster ovary cells produce an enzyme that nicks heat-labile enterotoxin from enterotoxigenic Escherichia coli. 157 34

To get a better understanding of the possible role of proteases in the pathogenesis of fungal keratitis, the extracellular proteases of a clinical isolate of Aspergillus flavus, from a severe case of keratitis, were identified and partially characterized. This strain, designated CU226/88, was grown with a variety of substrates as nitrogen sources, under conditions that would be expected to derepress the production of extracellular proteases. When grown on minimal medium with milk protein as a nitrogen source, the fungus appeared to produce primarily a metalloprotease, which has a zinc cofactor. When grown with insoluble collagen or elastin as a nitrogen source, a serine protease and cysteine protease, as well as the metalloprotease, are produced. Strain CU226/88 can grow with collagen, but not elastin, as the sole source of carbon as well as nitrogen. It is possible that the collagenase activity is a mediator of the severe corneal destruction caused by this isolate.
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PMID:Extracellular proteases of Aspergillus flavus. Fungal keratitis, proteases, and pathogenesis. 217 95

The role of human neutrophil proteases in the further degradation of the native triple-helical characteristic cleavage products 3/4- and 1/4-collagen fragments generated by neutrophil interstitial collagenase from native type I collagen was studied. Purified human neutrophil collagenase did not further degrade the characteristic collagen fragments whether they were in triple-helical (native collagen) or random-coil (gelatin) conformation. Neutrophil extract treated with 1 mM phenylmercuric chloride (PMC) degraded native type I collagen at +37 degrees C producing multiple protein bands. Neutrophil extract at +18 degrees C in the presence of the serine protease inhibitors phenylmethylsulfonyl fluoride and banzamidine did not degrade native type I collagen. Inclusion of PMC to active latent collagenase caused neutrophil extract to degrade native type I collagen to 3/4- and 1/4-fragments. In addition, native 3/4- and 1/4-fragments were further degraded in a time-dependent manner by PMC-treated neutrophil extract. Both native 3/4- and 1/4-collagen fragments were degraded by specific rather than by multiple cleavage. Further fragmentation was inhibited by divalent cation chelators EDTA and 1,10-phenanthroline. The results indicate the presence of latent metalloprotease(s), as distinct from collagenase, gelatinase and serine proteases, that are capable of further degrading by specific cleavage both native 3/4- and 1/4-collagen fragments generated by collagenase in human neutrophils. The enzyme(s) may augment the action of collagenase and other neutral proteases in connective tissue destruction associated with the etiopathogenesis of periodontal diseases.
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PMID:Identification of protease(s) capable of further degrading native 3/4- and 1/4-collagen fragments generated by collagenase from native type I collagen in human neutrophils. 254 68

Human skin collagenase activity was examined against type III collagens, in both soluble and fibrillar form, from different animal species. In either form, human, dog, and cat type III were degraded 10- to 30-fold faster than was that from guinea pig and nearly 100-fold more readily than chick type III. These differences in susceptibility were mirrored by essentially identical differences in the rate of trypsin cleavage of the same substrates. Human, dog, and cat type III were cleaved most rapidly by trypsin, guinea pig III more slowly, and chick III was completely resistant to the serine protease. Arrhenius plots, relating enzyme activity to temperature, revealed differences in the various type III substrates consistent with their collagenase and trypsin susceptibilities. Human, dog, and cat type III collagens yielded nonlinear plots, with accompanying activation energies which decreased at temperatures above 26 degrees C; guinea pig type III displayed a plot which deviated only slightly from linearity while the plot for chick type III was completely linear. These data strongly suggest that type III collagens display substantial variability in the stability of the helix at or near the collagenase cleavage site. The susceptibility of these type III substrates as reconstituted fibrils was also examined. The relative rates of degradation of these substrates by collagenase, and by trypsin, were the same as those observed in solution. The absolute rates of degradation of collagen in fibrillar form, however, were massively lower than predicted by extrapolation from solution values. This reduction in rate is even greater for type III than for type I collagens. Thus, whereas in solution type III substrates are cleaved much faster than type I collagens, in fibrillar form these differences are less than 2-fold. These data, together with values for activation energies and deuterium isotope effects on type III fibrillar substrates, reinforce the concept that helical integrity near the collagenase cleavage site is a major specifier of the rate of collagenase activity. Furthermore, the data suggest that the exclusion of water accompanying the tight packing of monomers into fibrils presents a major energy barrier to collagenase activity, which is particularly large for type III collagen.
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PMID:Degradation of monomeric and fibrillar type III collagens by human skin collagenase. Kinetic constants using different animal substrates. 298 30

Collagenase activity in the bronchoalveolar lavage (BAL) of patients with adult respiratory distress syndrome (ARDS) was measured against Type I collagen (17 patients) and against Type III collagen (13 patients). Serine protease activity was also measured against Type III collagen (13 patients). Type I collagenase activity was detectable in 12 of 17 and Type III collagenase was detectable in 12 of 13 patients with ARDS. The 10 control subjects had no detectable Types I or III collagenase activity. Total and differential white cell counts were analyzed in the lavage fluid. Although the total counts did not differ between patients with ARDS and control subjects, the percentage of neutrophils was increased more than 25-fold and the percentage of macrophages was reduced almost 10-fold in the ARDS patients. Serial collagenase activity was followed in 1 ARDS survivor. In this patient Type III collagenase activity peaked before the Type I collagenase activity or serine protease activity reached their maximums. Both the latter enzyme activities paralleled the total recoverable cells in the BAL.
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PMID:Collagenase in the lower respiratory tract of patients with adult respiratory distress syndrome. 298 85

Specificity of the collagenase from the larvae Hypoderma lineatum, a serine protease related to trypsin, has been investigated by using native collagen and non-collagenous substrates. At 25 degrees C and neutral pH the degradation of collagen by the larval enzyme in solution results in a 52% loss of specific viscosity, without loss of helicity. Electron microscopy of segment-long-spacing crystallites of the digest shows the occurrence of one cleavage region between bands 41 and 44 whereas Edman degradation indicates several cleavage loci in this region. Hypoderma collagenase differs from proteinases I and II from the crab Uca pugilator, which catalyse cleavages in multiple regions of the collagen molecule, and also from vertebrate collagenases, which cleave collagen only between residues 775 and 776. Apart of specific action on collagen, Hypoderma collagenase degrades the oxidized chain B of insulin; the major cleavage occurs at the Leu15-Tyr16 bond followed by two minor cleavages at the Arg22-Gly23 and Lys29-Ala30 bonds. The larval enzyme has no action on synthetic peptide substrates of trypsin or chymotrypsin.
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PMID:Specificity of the collagenase from the insect Hypoderma lineatum. 299 28

Latent and active collagenase were extracted from human polymorphonuclear leukocytes. Separation of the two forms of the enzyme was performed by gel filtration on Sepharose 6 B. The latent form of the enzyme was detected from chromatographic fractions after a brief treatment with trypsin or exposure of the fractions to the sulfhydryl reagent phenylmercuric chloride. Latent enzyme eluted before active enzyme from the column, indicating a higher apparent molecular weight. Partially purified latent enzyme exhibited an apparent molecular size of 70-75 kDa as estimated by gel filtration. A value of 50-55 kDa was obtained for active enzyme. Without activation the latent enzyme did not degrade soluble collagen substrate. This was demonstrated by a quantitative viscometric assay and also by sodium dodecyl sulfate polyacrylamide gel electrophoresis, when no typical cleavage products of collagen could be seen. Latent enzyme could not be obtained unless serine protease inhibitors were present during the extraction and purification procedures. The effects of the activators trypsin, phenylmercuric chloride, phenylmethyl sulfonyltrypsin, and N-ethylmaleimide on the latent human polymorphonuclear leukocyte collagenase were studied. Contrary to the suggestion that inactive proteases activate latent human polymorphonuclear leukocyte collagenase, the inactive phenylmethyl sulfonyl-trypsin could not activate latent collagenase.
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PMID:Partial purification and characterization of latent human leukocyte collagenase. 299 23

Medullasin, a serine protease in bone marrow cells, resembles elastase, but is essentially devoid of elastinolytic activity. The protease revealed elastinolytic activity when small amounts of other proteases such as trypsin, papain, chymotrypsin, or collagenase coexisted in the incubation mixture. In vitro treatment of human monocytes with medullasin caused an increment of their cytostatic activity. Since medullasin failed to increase the cytostatic activity in the supernatant of monocytes, the enhancement of cytostatic activity of monocytes by medullasin is considered to be not mediated through the production of soluble factors from monocytes.
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PMID:Role of medullasin in granulocytes in biophylaxis. Elastinolytic activity and the potentiation of cytostatic activity of human monocytes. 306 Jan 33

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