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)

Our previous work indicated that energy transduction, as measured by myocyte respiration, was inhibited by hydrogen peroxide, but the mitochondrial membrane potential was relatively unaffected. Therefore, we determined in the present study the critical steps in mitochondrial energy transduction by measuring the sensitivity to hydrogen peroxide of NADH-CoQ reductase, ATP synthase, and adenine nucleotide translocase in situ in myocytes. Adult rat heart cells were isolated using collagenase and incubated in the presence of 0.1-10 mM hydrogen peroxide for 30 min. Activities of NADH-CoQ reductase and oligomycin-sensitive ATP synthase were assayed enzymatically with sonicated myocytes, and adenine nucleotide translocase activities were determined by atractyloside-inhibitable [14C]ADP uptake of myocytes, permeabilized by saponin. The NADH-CoQ reductase and ATP synthase activities were inhibited to 77% and 67% of control, respectively, following an exposure to 10 mM hydrogen peroxide for 30 min. The adenine nucleotide translocase activities were inhibited in a concentration- and time-dependent manner and by 10 mM hydrogen peroxide to 44% of control. The dose-response relationship indicated that the translocase was the most susceptible to hydrogen peroxide among the three enzymes studied. Combined treatment of myocytes with 3-amino-1,2,4-triazole, 1,3-bis(2-chloroethyl)-1-nitrosourea and diethyl maleate (to inactivate catalase, to inhibit glutathione reductase activity, and to deplete glutathione, respectively) enhanced the sensitivity of translocase to hydrogen peroxide, supporting the view that the cellular defense mechanism is a significant factor in determining the toxicity of hydrogen peroxide. The results indicate that hydrogen peroxide can cause dysfunction in mitochondrial energy transduction, principally as the result of inhibition of adenine nucleotide translocase.
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PMID:Effects of hydrogen peroxide on mitochondrial enzyme function studied in situ in rat heart myocytes. 821 72

The backbone dynamics of specific residues in two collagen-like triple-helical peptides with (X-Y-Gly)n sequences have been investigated using two-dimensional inverse-detected 15N NMR relaxation measurements and hydrogen-exchange experiments. One peptide, (POG)10, has the highest possible imino acid content and is considered to be a very stable prototype of a triple helix. The second peptide, (POG)3ITGARGLAGPOG(POG)3 (denoted T3-785), models an imino acid poor region of type III collagen and contains 12 residues from near the unique collagenase cleavage site. 15N relaxation parameters and hydrogen-exchange data were obtained for a glycine residue in the center of (POG)10 and for the tripeptide unit Gly-Leu-Ala in the middle of T3-785. Analysis of the relaxation data of the rodlike triple-helical peptides required the assumption of anisotropic overall motion, and the model-free approach of Lipari and Szabo (1982) was used to derive overall motional parameters and the order parameter, S2, that describes the amplitudes of the internal motion. First the mobilities of the Gly, Leu, and Ala residues in peptide T3-785 were compared. Both hydrogen-exchange methods and relaxation measurements indicated that the residue in the Y position (Ala) is more mobile than residues in the Gly and X positions (Leu). The slower exchange rates of Gly and Leu compared to that of Ala are consistent with the two-hydrogen-bonded model for the triple helix. Then the backbone mobilities of the central Gly residue were compared for the two peptides (POG)10 and T3-785. In this case, 15N relaxation measurements give different results from hydrogen exchange. The glycine residues in the trimer form of both T3-785 and (POG)10 have high values for the order parameter (near 0.85), suggesting similar small-amplitude internal motions and rigid backbones in both peptides. In contrast to the similar values of the order parameters, hydrogen-exchange data indicate that the central Gly exchanges at a faster rate in the trimer form of T3-785 than in (POG)10. These results suggest that a Gly in the imino acid rich environment of (POG)10 is dynamically different from a Gly in the imino acid poor environment of T3-785 and that the difference lies in the slower motion related to stability, rather than the faster motion on the picosecond time scale. This sequence-dependent difference in dynamical properties may have important consequences for recognition processes in collagen.
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PMID:Backbone dynamics of (Pro-Hyp-Gly)10 and a designed collagen-like triple-helical peptide by 15N NMR relaxation and hydrogen-exchange measurements. 824 Nov 86

Interstitial connective tissue fragments are known to be chemotactic for neutrophils and these have been implicated in mediating the migration of inflammatory cells to the lung following injury. In the present studies, we determined if degradation products of collagen also induced chemotaxis and functional activation of alveolar macrophages. For these studies, we used bovine dermal collagen digested with bacterial collagenase or cyanogen bromide and small molecular weight synthetic polypeptides containing proline (Pro), glycine (Gly), and hydroxyproline (Hyp). We found that collagenase or cyanogen bromide digests of native collagen, as well as synthetic polypeptides containing Pro and Gly in the pentameric (Pro-Pro-Gly)5 form, were potent chemoattractants for rat alveolar macrophages inducing migration in the nanomolar concentration range. We also found that native and synthetic collagen peptides stimulated the release of superoxide anion and hydrogen peroxide, as well as elastase and gelatinase release from alveolar macrophages. These effects were dose and time dependent, reaching a maximum after 72 h with 0.1 to 1 microM peptides. In contrast to chemotaxis, synthetic peptides containing Hyp also stimulated reactive oxygen intermediate and elastase release from the cells. Although the pentameric and decameric forms of the synthetic peptides were equally effective in stimulating elastase release, (Pro-Pro-Gly)5 and (Pro-Hyp-Gly)5 peptides were more active in inducing a respiratory burst. We also determined if alveolar macrophages were activated for cytotoxicity by collagen peptides. Treatment of the macrophages with native collagen digests or (Pro-Pro-Gly)5 was found to induce cytotoxicity of these cells towards both transformed and nontransformed rat-derived targets.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of alveolar macrophages by native and synthetic collagen-like polypeptides. 829 81

For the collagenases PMNL-CL and FIB-CL, the presence of the N-terminal Phe79 correlates with an increase in proteolytic activity. We have determined the X-ray crystal structure of the recombinant Phe79-Gly242 catalytic domain of human neutrophil collagenase (PMNL-CL, MMP-8) using the recently solved model of the Met80-Gly242 form for phasing and subsequently refined it to a final crystallographic R-factor of 18.0% at 2.5 A resolution. The PMNL-CL catalytic domain is a spherical molecule with a flat active site cleft separating a smaller C-terminal subdomain from a bigger N-terminal domain, that harbours two zinc ions, namely a 'structural' and a 'catalytic' zinc, and two calcium ions. The N-terminal segment prior to Pro86, which is disordered in the Met80-Gly242 form, packs against a concave hydrophobic surface made by the C-terminal helix. The N-terminal Phe79 ammonium group makes a salt link with the side chain carboxylate group of the strictly conserved Asp232. Stabilization of the catalytic site might be conferred via strong hydrogen bonds made by the adjacent, likewise strictly conserved Asp233 with the characteristic 'Met-turn', which forms the base of the active site residues.
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PMID:Structural implications for the role of the N terminus in the 'superactivation' of collagenases. A crystallographic study. 830 85

Lung cell culture may be useful as an in vitro alternative to study the susceptibility of the lung to various toxic agents. Lungs from female Wistar rats were enzymatically digested by recirculating perfusion through the pulmonary artery with a sequence of solutions containing deoxyribonuclease, chymopapain, pronase, collagenase, and elastase. Lung tissue was microdissected and resuspended and the cells obtained were washed by centrifugation. By this isolation method, 2 x 10(8) cells per rat lung were obtained with an average viability of 97%. Lung cells cultured in medium containing antibiotics and serum maintained a viability of > 70% for 5 d. Rat primary lung cells were exposed to various toxic agents and their viability was assessed by formazan production capacity after 18 h of incubation. Compared to rat and mouse hepatocyte cultures (EC50 = 5.8 mM), rat primary lung cells were much more susceptible to hydrogen peroxide (EC50 = 0.6 mM). All cell types were equally sensitive to the more potent toxicant tert-butylhydroperoxide (EC50 = 0.1 mM). Paraquat was more toxic to lung cells (EC50 = 0.03 mM) than to rat (EC50 = 2.8 mM) and mouse (EC50 = 0.2 mM) hepatocytes. In contrast, rat lung cells were less sensitive to sodium nitroprusside (EC50 = 2.6 mM) compared to rat (EC50 = 0.2 mM) and mouse (EC50 = 0.03 mM) hepatocytes. Nitrofurantoin and menadione (at EC50 = 0.04 mM and 0.006 mM, respectively) were more toxic to rat lung and liver cells than to murine hepatocytes (EC50 = 0.2 mM and 0.04 mM, respectively). Our findings demonstrate the applicability of this rat primary lung cell culture for studying the effects of lung toxicants.
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PMID:Isolation and characterization of rat primary lung cells. 856 79

The study aimed to assess the effect of lipopolysaccharide (LPS) in vivo (from Escherichia coli, 2 mg/kg body weight intraperitoneally) on the production and elimination of hydrogen peroxide (H2O2) in rat hepatic endothelial and Kupffer cells. Twenty-two hours after the injection of LPS, hepatic cells were isolated by collagenase and pronase digestion followed by centrifugal elutriation, and cell-associated H2O2 was determined by flow cytometry analysis using 2',7'-dichloroflorescin diacetate (DCF-diacetate). LPS treatment did not alter the basal or phorbol myristate acetate-stimulated levels of H2O2-related fluorescence in endothelial cells; however, it doubled phorbol myristate acetate-stimulated fluorescence in Kupffer cells. Administration of varying concentrations of H202 (range, 10(-7) - 10(-4) mol/L) in vitro caused a significantly delayed increase in fluorescence in endothelial cells from endotoxemic rats as compared with cells from saline-injected animals. The 50% effective concentration of H202 was found at 1.1 x 10(-6) and 8.1 x 10(-6) mol/L on endothelial cells after saline and LPS treatment, respectively. No differences were detected in H2O2-stimulated fluorescence between resting and LPS-stimulated Kupffer cells. Administration of varying glucose concentrations in vitro significantly decreased the H2O2-stimulated fluorescence in endothelial and Kupffer cells from LPS-injected animals. Inhibition of nitric oxide synthase by in vitro administration of NG-monomethyl-L-arginine (L-NNMMA) did not alter the H2O2- or phorbol myristate acetate-stimulated responses in endothelial and Kupffer cells. As shown earlier, LPS stimulates the gene expression of GLUT1 glucose transporter, glucose-6-phosphate dehydrogenase (G6PD), superoxide dismutases, and glutathione peroxidase in hepatic endothelial cells. The present data indicate that the LPS-induced metabolic alterations are accompanied by an increased H2O2-detoxifying capacity in hepatic endothelial cells. This may represent a protective mechanism against exogenous oxidative stress caused by activated hepatic phagocytes during inflammation. Our observations are consistent with primed production of reactive oxygen species (ROS) in LPS-activated Kupffer cells.
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PMID:Endotoxin stimulates hydrogen peroxide detoxifying activity in rat hepatic endothelial cells. 878 44

We have previously reported that hydrogen peroxide, an active oxygen species and a cellular oxidant, induces c-Fos and c-Jun mRNA expression and DNA synthesis in vascular smooth muscle cells and that these events require arachidonic acid release and metabolism through the lipoxygenase pathway. Here we have identified the eicosanoids that mediate the hydrogen peroxide-induced growth-related events in these cells. Hydrogen peroxide stimulated the production of 12- and 15-hydroperoxyeicosatetraenoic acids in vascular smooth muscle cells. Both 12- and 15-hydroperoxyeicosatetraenoic acids induced the expression of c-Fos and c-Jun protein and increased activating protein 1 (AP-1) activity, as measured by AP-1-DNA binding and AP-1-dependent human collagenase promoter-driven chloramphenicol acetyltransferase reporter gene transcription. Hydrogen peroxide and arachidonic acid also induced the expression of c-Fos and c-Jun protein and AP-1 activity. Nordihydroguaiaretic acid, an inhibitor of the lipoxygenase pathway, significantly inhibited both hydrogen peroxide and arachidonic acid-stimulated c-Fos and c-Jun protein expression and AP-1 activity. Together, these findings suggest that hydrogen peroxide induces the production of eicosanoids and that the eicosanoids are potential mediators of the oxidative stress-stimulated growth-related events in vascular smooth muscle cells.
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PMID:Role of hydroperoxyeicosatetraenoic acids in oxidative stress-induced activating protein 1 (AP-1) activity. 891 Mar 70

Bovine atelocollagen and high molecular weight fully deacetylated chitosan, depending on the conditions, can form complexes whether by means of purely electrostatic interactions or by hydrogen bonding. In the first case the maximum proportion of chitosan in the complex is relatively low (approximately 10%) and then it is difficult to conclude whether chitosan prevents collagen digestion by collagenase or not. On the contrary, in the case of the second kind of complex, chitosan induces a strong protection toward the specific enzyme. If we consider the mechanical properties of polyanion/polycation complexes, chitosan brings softening rather than hardening to the system and the complex behaves like some polymer blends.
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PMID:Collagen and its interactions with chitosan, III some biological and mechanical properties. 893 41

We describe the effects of an ethanol-extracted fraction of berries of Ampelopsis brevipedunculata (Maxim.) Trautv. (Vitaceae), a plant used in folk medicine to treat liver disease, on the synthesis of non-collagenous proteins and collagen by rat collagen-producible cells such as dermal fibroblasts and liver non-parenchymal Ito cells. The generation of superoxide and hydroxyl radical was assessed by measuring the reduction of cytochrome c and the formation of thiobarbituric acid-reactive substances from deoxyribose, respectively. The synthesis of non-collagenous proteins and collagen as evaluated by measuring the extent of [3H]tryptophan incorporation into a total protein fraction of culture products and the [3H]proline-incorporating rate into a collagenase-digestible protein fraction, respectively. Both types of cells promptly synthesized only collagen in response to a dialyzable fraction of the extract. Major activity to generate oxygen free radicals accumulated in the dialyzable fraction whereas activity to decrease ferrous iron-mediated generation of the radicals accumulated in an undialyzable fraction of the extract. Stimulation of collagen synthesis was caused by superoxide because addition of superoxide dismutase but not pyruvate, an antioxidant of hydrogen peroxide, or dimethyl sulfoxide, an antioxidant of the hydroxyl radical, abrogated the stimulatory effect. The extract may arrest the progress of liver injury mediated by oxygen free radicals generated in the presence of ferrous iron.
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PMID:Ampelopsis brevipedunculata (Vitaceae) extract stimulates collagen synthesis through superoxide generation in the serum-free cultures of rat dermal fibroblasts and Ito cells. 914 56

The crystal structure of fiddler crab collagenase complexed with the dimeric serine protease inhibitor ecotin at 2.5 A resolution reveals an extended cleft providing binding sites for at least 11 contiguous substrate residues. Comparison of the positions of nine intermolecular main chain hydrogen bonding interactions in the cleft, with the known sequences at the cleavage site of type I collagen, suggests that the protease binding loop of ecotin adopts a conformation mimicking that of the cleaved strand of collagen. A well-defined groove extending across the binding surface of the enzyme readily accommodates the two other polypeptide chains of the triple-helical substrate. These observations permit construction of a detailed molecular model for collagen recognition and cleavage by this invertebrate serine protease. Ecotin undergoes a pronounced internal structural rearrangement which permits binding in the observed conformation. The capacity for such rearrangement appears to be a key determinant of its ability to inhibit a wide range of serine proteases.
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PMID:Crystal structure of an ecotin-collagenase complex suggests a model for recognition and cleavage of the collagen triple helix. 915 20


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