Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Obstructive lymphedema is a pathologic condition resulting in the accumulation and stagnation of serum proteins in the lymphatics and interstitial spaces. In a canine model of obstructive lymphedema, one limb was rendered lymphedematous, and various biochemical parameters were determined in this and an unaffected control limb. Both lymph and interstitial fluid had significantly decreased acid proteinase activity (comprising mostly cathepsin D-like enzymes) and neutral proteinase activity (comprising metallo, sulfhydryl, and serine proteinases, and collagenase). Possible reasons for these decreases could be: (1) saturation of macrophages and their surrounding environment with whole or partially digested proteins, or (2) elevation in the levels of circulating inhibitors like alpha 2-macroglobulin. The lymphedematous skin was significantly thicker than control skin and had elevated levels of collagen. However, unlike some fibrotic conditions, the relative proportions of types I, III, and V collagen, as determined by pepsin solubilization and neutral salt fractionation of the collagen fibrils, were similar to those found in normal skin. It is speculated that a decrease in the breakdown of collagen by collagenase and a continuing synthesis of collagen by fibroblasts led to an imbalance in favor of collagen deposition in the skin.
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PMID:Protein metabolism and fibrosis in experimental canine obstructive lymphedema. 244 62

Oval cells emerging in rat liver at the early period of 3-methyl-4-dimethylaminoazobenzene treatment constitute a mixed epithelial cell compartment with respect to alpha-fetoprotein (AFP) and cytokeratin differential expression, and include a subpopulation which exhibits a phenotype intermediate between ductular cells and hepatocytes (Germain et al., Cancer Res., 45:673-681, 1985). In the present study we have examined the developmental potential of ductular oval cells in primary culture and after in vivo transfer. The use of monoclonal and polyclonal antibodies directed against cytokeratins of Mr 39,000 (CK39), 52,000 (CK52), and 55,000 (CK55) and vimentin, and also monoclonal antibodies against exposed surface components of oval cells (BDS7) and normal hepatocytes (HES6) allowed us to establish the ductular phenotype of the oval cells. A highly enriched preparation of oval cells was obtained by perfusion/digestion of the liver with collagenase, treatment of the cell suspension with trypsin and DNase, selective removal of hepatocytes by panning using the anti-HES6 antibody, and cell separation by isopyknic centrifugation in a Percoll gradient. The procedure yielded about 8 x 10(7) cells, of which 95% expressed CK39, CK52, and BDS7, 84% gamma-glutamyl transpeptidase, and 5% albumin and AFP. The primary response of cultured oval cells to various combinations of growth and differentiation promoting factors was evaluated with respect to their capacity to initiate DNA synthesis as measured by [3H]thymidine labeling from day 1 to 3, and/or to produce albumin and AFP and express tyrosine aminotransferase. Culture in the presence of either serum or clot blood extract resulted in a low proliferative activity with less than 5% of the nuclei being labeled. Over a 5-day period, fusion of a large portion of the oval cells led to multinucleated cells. When the cells were cultured in the presence of an elaborate combination of supplements [minimum essential medium containing 1 mM pyruvate, 0.2 mM aspartate, 0.2 mM serine, 1 mM tyrosine, 1 mM proline, 1 mM phenylalanine and supplemented with 20% clot blood extract, 10 ng/ml oxidized bile acids, 17 microM bilirubin, 10 ng/ml cholera toxin, 1 microM dexamethasone, 2.5 micrograms/ml insulin, 50 mM beta-mercaptoethanol, and 5 micrograms/ml transferrin (medium MX)], the labeling index increased to around 30% and the level of cell fusion greatly decreased. The addition of dimethyl sulfoxide further enhanced the initiation of DNA synthesis, while sodium butyrate acted as an inhibitor.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Promotion of growth and differentiation of rat ductular oval cells in primary culture. 244 46

Previous observations (Stolle, C.A., Pyeritz, R.E., Myers, J.C., and Prockop, D.J. (1985) J. Biol. Chem. 260, 1937-1944) indicated that fibroblasts from a proband with dominantly inherited Ehlers-Danlos syndrome type IV synthesized type III procollagen with a structural defect near the collagenase cleavage site at amino acid 781 and near the trypsin-sensitive site at 789. The type III procollagen was unusually sensitive to proteinases and cleaved by trypsin into a three-quarter fragment at 0 degrees C. Here we demonstrate that the mutation in the type III procollagen gene is a single base mutation that converts the codon for glycine at amino acid 790 of the alpha 1(III) chain to a codon for serine. The mutation probably makes the procollagen molecule unusually sensitive to proteases because it causes local unfolding of the triple helix and exposes the adjacent arginine residue. The results provide the first indication that not all glycine substitutions in the triple helices of fibrillar collagens are equivalent in terms of their effects of the biological function of the molecule.
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PMID:A single base mutation that substitutes serine for glycine 790 of the alpha 1 (III) chain of type III procollagen exposes an arginine and causes Ehlers-Danlos syndrome IV. 249 73

To further understand the mechanism of PTH effects on bone and bone cells, we have analyzed the effect of PTH on specific protein phosphorylation in cells isolated from neonatal mouse calvaria. Four populations of cells (I-IV), isolated by sequential digestion with chromatographically purified bacterial collagenase isozymes and neutral proteinase, were cultured overnight. Alkaline phosphatase activity was greater than acid phosphatase activity in all four populations. PTH stimulated cyclic AMP production in all four populations, although the effect was greatest in populations II and III. Cultured cells were treated with PTH for up to 15 minutes. Cytosolic and membrane fractions were obtained and assayed for in vitro protein phosphorylation. No hormonal effects were found in membrane fractions. In cytosol fractions, treatment of the population II cells for 10-15 minutes with 0.1 microM PTH decreased the subsequent protein phosphorylation of an 85,000 Mr protein. In contrast, PTH treatment increased in vitro phosphorylation of both the 85,000 and 35,000 Mr proteins in population III cells. Phosphorylation of the 35,000 Mr protein was cyclic AMP-dependent. All of the phosphoproteins appeared to be phosphorylated solely on serine or threonine residues except the 85,000 Mr protein which may also contain significant amounts of phosphotyrosine. Therefore, some of the effects of PTH are cyclic AMP-mediated and other effects may be mediated through tyrosine phosphorylation. These data indicate that PTH has differential effects on in vitro protein phosphorylation in two separable populations of isolated neonatal mouse calvarial cells and support a hypothesis that multiple osteoblastlike cells exist in vivo.
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PMID:Differential effects of parathyroid hormone on protein phosphorylation in two osteoblastlike cell populations isolated from neonatal mouse calvaria. 249 26

Recent reports have demonstrated that a series of probands with severe osteogenesis imperfecta had single base mutations in one of the two structural genes for type I procollagen that substituted amino acids with bulkier side chains for glycine residues and decreased the melting temperature of the triple helix. Here we demonstrate that the type I procollagen synthesized by cultured fibroblasts from a proband with a severe form of osteogenesis imperfecta consisted of normal molecules and molecules over-modified by post-translational reactions. The thermal stability of the intact type I collagen was normal as assayed by protease digestion under conditions in which a decrease in thermal stability was previously observed with eight other substitutions for glycine in the alpha 1(I) chain. In contrast, the thermal stability of the one-quarter length B fragment generated by digestion with vertebrate collagenase was decreased by 2-3 degrees C under the same conditions. Nucleotide sequencing of cDNAs and genomic DNA established that the proband had a substitution of A for G in one allele of the pro alpha 1(I) gene that converted the codon for alpha 1-glycine 844 to a codon for serine. The results also established that the alpha 1-serine 844 was the only mutation that could account for the decrease in thermal stability of the collagenase B fragment. There are at least two possible explanations for the failure of the alpha 1-serine 844 substitution to decrease the thermal stability of the collagen molecule whereas eight similar mutations decreased the melting temperature. One possibility is that the effects of glycine substitutions are position specific because not all glycine residues make equivalent contributions to cooperative blocks of the triple helix that unfold in the predenaturation range of temperatures. A second possible explanation is that substitutions of glycine by serine have much less effect on the stability of protein than the substitutions by arginine, cysteine, and aspartate previously studied.
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PMID:Substitution of serine for alpha 1(I)-glycine 844 in a severe variant of osteogenesis imperfecta minimally destabilizes the triple helix of type I procollagen. The effects of glycine substitutions on thermal stability are either position of amino acid specific. 251 Nov 92

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

Collagenase is secreted from neutrophils as a latent or proenzyme. In an effort to understand the mechanism of collagenase activation in inflammation, human peripheral neutrophils (PMNs) were isolated and incubated with the tumor promotor, phorbol myristate acetate (PMA), which induces the neutrophils to degranulate and secrete proteinases. Neutrophil media were then treated with various activators or inhibitors of collagenase and other proteinases, and the collagenase activity was measured. A serine proteinase secreted from neutrophils, cathepsin G, was found to activate latent collagenase, but it was also found to require activation itself. Both hypochlorous acid (HOCl) and oxidized glutathione (GSSG) were tested for their collagenase-activating ability and were found to be successful only in the presence of active cathepsin G. A specific cathepsin G inhibitor (0.5 mM Z-Gly-Leu-Phe-CH2Cl) prevented the activation of latent collagenase by HOCl. To confirm these results, purified neutrophil cathepsin G was incubated with a neutrophil proteinase mixture which contained latent collagenase. The collagenase was shown to be activated upon incubation with purified cathepsin G. These results indicate that cathepsin G is a key mediator in neutrophil collagenase activation.
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PMID:Activation of neutrophil collagenase by cathepsin G. 254 91

The existing forms of neutral proteases present in inflamed human gingiva were examined. Neutral 2 M K Cl extracts of inflamed human gingival tissue were fractionated by gel filtration on Sephacryl S-200 and the fractions were assayed for collagenase, trypsin-, chymotrypsin-, and elastase-like proteases. Apparent molecular weights of 80-85 kDa were obtained for trypsin-, chymotrypsin-, and elastase-like proteases, and 70-75 kDa for latent collagenase. Further fractionation of high molecular weight proteases on Con A-Sepharose revealed that, unlike collagenase, chymotrypsin- and elastase-like proteases, the trypsin-like protease was bound by the affinity column. Native human placental type IV (basement membrane) collagen was degraded by chymotrypsin-like and elastase-like proteases but not by the trypsin-like protease. This degradation was inhibited by phenylmethyl sulfonyl fluoride and EDTA. The serine proteases also degraded efficiently denatured type I collagen. No correlation of the activities of trypsin-like protease and the other proteolytic enzymes was found in extracts of 18 individual gingival specimens. Significant correlation, however, was noted between collagenase and gelatinase. The gingival culture studies showed that, while the highest activity of the trypsin-, chymotrypsin-, and elastase-like enzymes were measured in medium during first days of the culture, collagenase and gelatinase activities increased up to the fourth day of culture and stayed high until the end of the culture. These results suggest that the neutral proteases that may participate in the periodontal tissue destruction are produced by different cell types of gingiva.
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PMID:Characteristics of neutral proteases present in inflamed human gingiva. 255 68

In an effort to understand the mechanism of collagenase activation in inflammation, human peripheral neutrophils were isolated and incubated with the tumor promoter, phorbol myristate acetate (PMA), which induces the neutrophils to degranulate and secrete proteinases. Neutrophil media were then treated with HOCl with or without various proteinase inhibitors then collagenase activity was measured. Added HOCl was able to activate latent collagenase. However, a serine proteinase, cathepsin G, was found to be necessary for collagenase activation to occur by HOCl. The results indicate that cathepsin G is a key mediator in neutrophil collagenase activation and that HOCl under certain conditions leads to the activation of cathepsin G or the stimulation of cathepsin G's ability to activate neutrophil collagenase.
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PMID:Hypochlorous acid (HOCl) activation of neutrophil collagenase requires cathepsin G. 255 76

Pz-peptidase was purified from rabbit muscle by acid precipitation of tissue homogenate followed by cation- and anion-exchange chromatography, gel chromatography, and immunoadsorption. In analytical gel chromatography, one single peak of protein with corresponding Pz-peptidase activity was obtained. The enzyme had an apparent Mr of 74,000 in sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and was eluted at pH 4.8 in chromatofocusing. No metals were detectable in the protein by neutron activation analysis. Purified Pz-peptidase hydrolyzed Dnp-Pro-Leu-Gly-Pro-Trp-D-Lys (Km 7.2 microM) most effectively in the presence of 5 mM 2-mercaptoethanol and 10 mM CaCl2. No inhibition was observed with inhibitors of serine proteinases, aspartic proteinases, or metalloproteinases, apart from some nonspecific reversible inhibition by 1,10-phenanthroline. The activation by Ca2+ was reversed by EDTA. The enzyme was not inhibited by E-64, cystatin, or leupeptin, but was irreversibly inactivated by iodoacetate, iodoacetamide, and N-ethylmaleimide. It was therefore concluded that rabbit muscle Pz-peptidase is not a typical member of any of the four recognized catalytic classes of proteinases, but may be an atypical cysteine endopeptidase. The peptidase was not bound by alpha 2-macroglobulin. No hydrolysis of gelatin or fibronectin by the enzyme was detected, nor was there any activation of latent collagenase.
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PMID:Purification and characterization of Pz-peptidase from rabbit muscle. 267 41


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