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)

The ovarian mesothelium (OM) represents the tissue of origin of ovarian epithelial cancer. To gain insight into the regulation of this tissue, OM organoids and submesothelial ovarian stromal cells (SC) were isolated from New Zealand White rabbits by a stepwise tissue dispersal technique, while granulosa cells (GC) were aspirated from mature follicles (14 +/- 4 groups/animal). OM and SC dispersal were sequentially accomplished by: a) 1-h incubation in collagenase type I (300 U/ml), gentle scraping of the ovarian surface, and 1 g sedimentation of OM organoids (equivalent to 0.93 +/- 0.40 x 10(6) cells/animal) on 5% bovine serum albumin (BSA); b) 2-h incubation in pronase-collagenase (0.5%-300 U/ml) under periodical resuspension and gentle scraping of SC (1.40 +/- 0.25 x 10(6)/animal) from OM-denuded ovaries. After a week-long in vitro expansion, OM cells (OMC) were cultured alone and with SC or GC within monocameral vessels or bicameral transfilter vessels in serumless, fibronectinrich (4 micrograms/ml) HL-1 medium. After 7 d of contact cell-cell interaction, cytokeratin-positive OMC became surrounded by fibroblastoid, vimentin-positive SC or by cytokeratin and vimentin-weakly positive GC. Filter-bound OMC humorally interacting with underlying SC or GC displayed a biphasic, epithelioid and spindle, morphology with universal cytokeratin expression. Bromo-2'-deoxyuridine (BrdU) immunoperoxidase revealed mean cell proliferation indices of 14.88% for OMC cultured alone, 11.21% and 19.39% for OMC cultured with GC or SC in monocameral dishes, and 15.25% or 22.47% for OMC cultured in bicameral vessels over GC or SC, respectively. This model provides an experimental tool for investigating the unexplored role of stromal-mesothelial interaction in OM pathobiology.
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PMID:Ovarian mesothelial and extramesothelial cells in interactive culture. 779 49

The initial objective of this study was to establish a placental cell culture system in which the secretion of mouse growth hormone-releasing factor (mGHRF) could be examined during a several-day period. To determine when during pregnancy placental cells begin to express mGHRF, Northern blot analysis was carried out on total RNA from placentas collected on Days 6, 9, 11, 13, 15, 17, and 18 of pregnancy. Mouse GHRF mRNA could be detected as early as Day 11 of pregnancy. Its steady-state levels increased to maximum values on Days 15-17 and then declined slightly on Day 18. Placentas from Day 12 of pregnancy were selected for cell culture. The basal zone and labyrinth were dispersed in collagenase, and the cells were fractionated on a Percoll gradient. Two bands of cells were selected for further study. Both released significant amounts of immunoreactive mGHRF during a 5-day culture period. Effects of prolonged exposure of the cells to 8-bromo-cAMP and to agents that elevate intracellular cAMP concentration were then examined. Treatment of the cells with 0.5 mM 8-bromo-cAMP resulted in a significant decrease in the mGHRF concentration of the medium by the second day of culture. Mouse GHRF secretion was also inhibited by treatment of the cells with 100 ng/ml cholera toxin or 0.1 mM forskolin. The effect of 8-bromo-cAMP was concentration-dependent, with 0.1 mM being the lowest concentration that was active. 8-Bromo-cAMP treatment also reduced the steady-state level of mGHRF mRNA in the cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mouse placental cells secrete immunoreactive growth hormone-releasing factor. 788 98

To determine whether cAMP regulates mouse placental lactogen-I (mPL-I) and mPL-II secretion at midpregnancy in vitro, mouse placental tissue from day 9 of pregnancy was dispersed with collagenase, cells were fractionated on a Percoll gradient, and the purified trophoblast cells were plated in a serum-free medium. The cells were then incubated with various agents that increased the intracellular cAMP level for 5 days. 8-Bromo-cAMP stimulated mPL-I secretion, but inhibited mPL-II secretion in a time- and dose-dependent manner without changing the amount of newly synthesized trichloroacetic acid-precipitable proteins. Cholera toxin and forskolin, which increase intracellular cAMP accumulation, also regulated mPL-I and mPL-II secretion in the same manner. 8-Bromo-cAMP increased the intracellular mPL-I concentration, decreased the intracellular mPL-II concentration, and increased the immunoprecipitable newly synthesized mPL-I concentration in both the medium and cells. 8-Bromo-cAMP increased the expression of mPL-I messenger RNA and decreased the expression of mPL-II messenger RNA. The sequential reverse hemolytic plaque assay and double immunocytochemistry indicated that 8-bromo-cAMP regulates the subpopulation of giant cells containing and releasing mPL. These findings suggest that an increase in intracellular cAMP stimulates mPL-I secretion, but inhibits mPL-II secretion by changing the subpopulation of giant cells containing and releasing mPL.
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PMID:Cyclic adenosine-3',5'-monophosphate stimulates mouse placental lactogen-I (mPL-I) secretion but inhibits mPL-II secretion at midpregnancy. 789 49

Injury results in altered hepatocyte protein synthesis including the production of acute-phase reactants. Evidence suggests that these hepatocyte products regulate macrophage function; however, their role in liver macrophage-mediated hepatocyte dysfunction following a second insult is poorly characterized. We hypothesize that IL-6-stimulated hepatocyte products alter liver macrophage responses to lipopolysaccharide, contributing to enhanced hepatocyte dysfunction. To test this hypothesis, hepatocytes, obtained by liver collagenase digestion, were treated with rIL-6 (murine, 300 units/ml) for 24 hr, and then liver macrophages, obtained by perfusion and pronase digestion, were added to establish cocultures. Cocultures were then stimulated with endotoxin (LPS, Escherichia coli O111:B4, 10 micrograms/ml) and hepatocyte dysfunction was assessed by determining secretory protein synthesis ([35S]methionine labeling, trichloracetic acid precipitation, and SDS-PAGE) and energy metabolism [mitochondrial respiration using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) dye]. Cultures of hepatocytes alone stimulated with IL-6, LPS, or sequential IL-6 followed by LPS demonstrate no difference in total secretory protein synthesis or mitochondrial respiration. In contrast, hepatocyte-liver macrophage cocultures demonstrate significantly reduced total secretory protein synthesis following sequential IL-6 followed by LPS ([35S]methionine cpm x 10(3): control, 33.8 +/- 8.5; LPS, 25.8 +/- 6.3; IL-6/LPS, 15.7 +/- 6.4; P < 0.05 vs control). This effect is specific to IL-6 since sequential TNF-alpha followed by LPS did not result in significant suppression of secretory protein synthesis. One-dimensional SDS-PAGE of labeled coculture secretory proteins demonstrates qualitative changes following sequential insult in vitro compared to controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sequential insult enhances liver macrophage-signaled hepatocyte dysfunction. 804 Nov 36

Bone proteins in alveolar bone of mandibles from young adult rabbits (3-month-old) were extracted with 4.0 M guanidine hydrochloride (GuHCl), followed by 0.5 M ethylenediaminetetraacetate, and again with 4.0 M GuHCl (G2-ext). The proteins in the G2-ext were fractionated on a gel-filtration column, followed by an anion-exchange column in the presence of 7.0 M urea. A 28-kDa protein was isolated from the G2-ext. The purified 28-kDa protein showed intense staining with silver on SDS-PAGE slab-gel under reducing conditions. This protein was digested with bacterial collagenase, and a 19-kDa fragment appeared on the gel. However, the protein was not susceptible to reduction with cyanogen bromide. The protein did not bind to hydroxyapatite crystals in the presence of 7.0 M urea, and also did not bind to some lectins. On SDS-PAGE under non-reducing conditions, the protein migrated as two bands; a new band appeared at approximately the 85-kDa region in addition to the original 28-kDa band. The amino acid compositions of the protein were similar to those of the alpha 1-pN-propeptide of type I procollagen obtained from other tissues.
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PMID:Characteristics of a 28-kDa collagenous protein extracted with guanidine from EDTA-demineralized rabbit alveolar bone. 815 87

This study was designed to investigate whether the changes in lysine hydroxylation known to occur in hypertrophic tendon occur randomly or at specific lysine residues in the type I collagen molecule. Peptides corresponding to the two known major cross-linking sites of type I collagen (a lysine (or hydroxylysine) at position 9N cross-linked to a hydroxylysine at 930 and a lysine (or hydroxylysine) at position 16C cross-linked to a hydroxylysine at position 87) were prepared by collagenase digestion, size fractionation, and separation by high performance liquid chromatography from normal chicken tendon and from chicken tendon subjected to increased tensile load as a result of muscle hypertrophy. The ratio of the difunctional cross-links dihydroxylysinonorleucine to hydroxylysinonorleucine in normal tendon is 0.75:1; this ratio is increased to 6:1 in hypertrophic tendon. The dihydroxylysinonorleucine to hydroxylysinonorleucine ratio is increased to the same extent in samples of the purified cross-linked peptides derived from both the N-terminal and C-terminal lysine aldehyde residues. On the other hand, the relative hydroxylysine content of preparations of the pooled larger helical peptides obtained by cyanogen bromide digestion of normal and hypertrophic tendons was essentially identical. These results demonstrate that there is a specific increase in hydroxylation of only the N- and C-terminal non-helical lysine residues that participate in the formation of the reducible difunctional cross-links of type I collagen in hypertrophic tendon, while the extent of hydroxylation of lysine residues in the helical regions is not affected. The specific mechanism by which the enzyme lysyl hydroxylase acting on its substrate can distinguish between lysine residues destined to be in non-helical versus helical regions in a nascent collagenous peptide that has not yet attained its final secondary structure remains to be defined.
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PMID:Tendon hypertrophy is associated with increased hydroxylation of nonhelical lysine residues at two specific cross-linking sites in type I collagen. 824 92

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

Streptococcus sanguis expresses a cell wall-bound protein that induces the activation and aggregation of platelets. This platelet aggregation-associated protein (PAAP) contains a collagen-like, platelet-interactive domain within a 23-kDa protein fragment. To isolate the minimal platelet-interactive domain, p23 PAAP was digested with collagenase, and the digest chromatographed to isolate fractions with activity inhibitory to S. sanguis-induced platelet aggregation. The active fraction was then digested with cyanogen bromide, the product chromatographed, and a smaller inhibitory peptide isolated. Finally, this fraction was digested with endoproteinase Lys-C, and the digest fractionated. After each step, inhibitory activity resolved into single chromatographic peaks of 13 kDa (p13 PAAP), 2.7 kDa (p2.7 PAAP), and a minimal 7-mer peptide, respectively. These PAAP fragments showed similar ID50 (19-28 nM), suggesting that each contained a single copy of the platelet-interactive domain. The minimal 7-mer peptide was purified by immunoaffinity chromatography and reverse phase high pressure liquid chromatography. The primary structure was determined to be Pro-Gly-Glu-Gln-Gly-Pro-Lys. This sequence conforms to the predicted structural motif of the platelet-interactive domains of types I and III collagen. This 7-mer peptide is therefore the platelet-interactive domain of the PAAP from S. sanguis. Its structure explains the molecular basis for immunological cross-reactivity and functional similarity to the platelet-interactive domains of collagens.
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PMID:The Streptococcus sanguis platelet aggregation-associated protein. Identification and characterization of the minimal platelet-interactive domain. 842 Sep 39

Interstitial collagenase (matrix metalloproteinase-1 [MMP-1]) plays an important role in extracellular matrix turnover. Myocardial MMP-1 may contribute to tissue remodelling in the heart. Little is known about collagenase and its regulation in the myocardium. To understand better the nature of this neutral proteinase in the rat myocardium, myocardial collagenase was purified to homogeneity. The purification procedure included a gel-filtration step on Sephacryl S-200 columns and substrate affinity chromatography on type I collagen-Sepharose. Under reducing conditions, collagenase was shown by SDS-PAGE to consist of a single polypeptide chain with a molecular mass of 54 kDa. Purified interstitial collagenase demonstrated a single lytic band on zymography. This band was inhibited by 1,10-phenanthroline (a metal chelator), which indicates that the 54 kDa protein is an MMP. Using a polyclonal antibody to proMMP-1, purified collagenase was characterized by immunoblot analysis. A single band of purified interstitial collagenase was observed on Western blot analysis. This indicated that the purified proenzyme was collagenase. Sequence analysis on cyanogen bromide-digested fragments of latent MMP-1 suggested that the active site sequence of rat myocardial MMP-1 is similar to that of the rat osteoblast collagenase, human skin fibroblast collagenase and Serratia proteinase. The substrate specificity of the purified collagenase was measured against fluorescent-labelled type I collagen. It was observed that after activation, purified collagenase was capable of degrading type I collagen in a time-dependent manner. The half-time for collagen degradation was estimated to be less than 30 s. These results suggest that collagenase is present in the normal adult rat myocardium and that collagen turnover may be regulated by this neutral metalloproteinase. A simple two-step purification protocol is demonstrated for interstitial collagenase. This procedure can be used for routine MMP-1 preparation from tissue sources.
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PMID:Myocardial collagenase: purification and structural characterization. 860 38

The cuticle collagen of the vestimentiferan Riftia pachyptila, an organism which is endemic to deep-sea hydrothermal vents, has several unusual properties including an extraordinary length (1.5 microns), a high thermal stability (37 degrees C) in spite of a low 4-hydroxyproline content and an atypically high threonine content (20 mol%). We have now purified the constituent chain of cuticle collagen and show that it contains about 40% carbohydrate, which is mainly galactose, indicating that the chain has a molecular mass of approximately 750 kDa. Several large (30 to 150 kDa) fragments, which all contained carbohydrate, could be produced by cleavage with endoproteinase Lys-C, bacterial collagenase and cyanogen bromide (CNBr). Edman degradation of these and several smaller fragments was used to determine about 3000 sequence positions comprising 60% of the total triple-helical sequence. This demonstrated mainly typical Gly-X-Y triplet repeats with a few imperfections and a longer N-terminal non-triplet sequence. Most of the 4-hydroxyproline was found in triplet position X, where it decreases the stability of the triple helix. About 40% of the Y positions could not be identified, which correlated with a low abundance of threonine in the sequence and the demonstration of threonine in these positions after deglycosylation of several peptides by treatment with hydrofluoric acid. Matrix-assisted laser desorption ionisation mass spectrometry of selected peptides indicated that the blocked threonine residues are occupied by chains of one, two or three hexoses (presumably galactose). These glycosylated threonine residues in Y positions are therefore likely to replace 4-hydroxyproline as the major contributor to triple helix stabilization. Studies with a synthetic (Gly-Pro-Thr)10 oligopeptide demonstrated a low thermal stability of its triple helix which emphasizes a crucial role of glycosylation for stabilization.
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PMID:Glycosylated threonine but not 4-hydroxyproline dominates the triple helix stabilizing positions in the sequence of a hydrothermal vent worm cuticle collagen. 875 92


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