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)

Three periarticular connective tissues from normal rabbits were examined for collagenolytic activity. Enzyme activity was secreted by cultures of anterior cruciate ligament (ACL), medial collateral ligament (MCL) and patellar tendon (PT). A lag period of six days or more was often observed prior to the detection of active collagenase. We attributed this to the presence of an excess of inhibitor in the early days of culture. We quantitated the amount of enzyme and inhibitor produced in 13 days. The levels of collagenase in the ACL and MCL were comparable. The PT, however, consistently secreted more enzyme than the two periarticular (ACL and MCL) ligaments. The reaction products were analyzed for all three collagenases and compared to those generated by the rabbit skin enzyme. We observed the characteristic TCA and TCB collagen fragments for MCL and PT enzymes. Collagen cleavage by the ACL cultures resulted in a product with a molecular weight intermediate between the alpha 2 chain and the TCA piece. These data suggest that quantitative and qualitative differences exist in the ability of these similar connective tissues to degrade collagen.
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PMID:Collagenase production by rabbit ligaments and tendon. 285 Jan 34

We obtained monoclonal antibodies specific for human type II collagen and characterized them using human collagen type I, II, III and V and tropocollagen A (3/4) (TCA) and tropocollagen B (1/4) (TCB) fragments of type II collagen which were obtained by digestion with tadpole collagenase. These antibodies were of the IgG2a class and specific for the conformational determinant of TCA fragment of type II collagen. When injected intravenously into DBA/1J mice, one of the monoclonal antibodies induced arthritis, which was characterized by early onset, mildness in severity and preferential localization mainly in the peripheral joints of the lower extremities. These results suggest that, at least, one of the arthritogenic determinants of type II collagen for collagen-induced arthritis of mice exists in the three quarter region from the N-terminus of type II collagen.
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PMID:Characterization of monoclonal antibody specific for human type II collagen: possible implication in collagen-induced arthritis. 299 57

Calf skin and rat tendon type I, bovine cartilage type II, and human amnion type III collagens have been radiolabeled by reaction with [3H]acetic anhydride, [3H]formaldehyde, and succinimidyl 2,3-[3H]propionate. All three reactions produce collagens with high specific activities that are suitable for use as substrates in collagenase assays. The identity of the radiolabel and the labeling indices do not alter the molecular weights or thermal stabilities of the collagens or the solubilities of the collagens or gelatins in dioxane-water mixtures at 4 degrees C. However, in contrast to native or sparsely labeled collagens, those with 40 or more lysine + hydroxylysine residues labeled per molecule do not undergo fibrillogenesis in the presence of 0.2-0.4 M NaCl in the 4-35 degree C temperature range. Thus, the modification reactions not only serve to introduce the radiolabel, but also to keep the collagens soluble over a wide range of temperatures and concentrations. The TCA, TCB fragments produced on partial reaction of each collagen type with tissue collagenases can be selectively denatured by a 10-minute incubation under specific conditions and the intact collagens selectively precipitated by addition of 50% v/v dioxane. This serves as the basis for soluble collagenase assays. The effect of labeling index on the properties of the collagens has been investigated and the results establish the range of conditions over which these collagens can be used as substrates for soluble versus fibrillar collagenase assays.
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PMID:Properties of radiolabeled type I, II, and III collagens related to their use as substrates in collagenase assays. 302 5

The TSH-responsive adenylate cyclase system was studied using porcine thyroid cells in a primary monolayer culture. Isolated porcine thyroid cells treated with collagenase were inoculated into 96 wells at the density of 5 X 10(4) viable cells/0.25 ml Ham F-12 containing 10% fetal bovine serum and cultured for 4 days in a humidified atmosphere with 5% CO2. Adenylate cyclase activities in the cells treated or non-treated with protein synthesis inhibitor were assayed in Hanks/20 mM Hepes buffer (pH 7.4) containing 1% BSA, 1 mM IBMX and various stimulants at 37 degrees C for 30 or 60 min. The reaction was stopped by adding ice-cold TCA, and cAMP content in the extract was measured by radioimmunoassay after treatment with water-saturated ether. The cultured thyroid cells had an adenylate cyclase system responsive to TSH, cholera toxin and forskolin. TSH (50 mU/ml) stimulated the activity about eight fold over the basal activity. Cholera toxin (1 microgram/ml) and forskolin (100 microM), however, were much stronger activators of the adenylate cyclase system. In the cells pretreated with cyclo-heximide (5 micrograms/ml) up to 24 hours, cAMP formation by TSH was potentiated 200 approximately 170% compared to that in non-treated cells, suggesting a suppression of an inhibitory mechanism dependent upon new protein synthesis. In contrast, forskolin (100 microM)-stimulation was greatly reduced to 30% of the control after 24-hour treatment. Cholera toxin (1 microgram/ml)-stimulation was significantly lessened or slightly reduced by the treatment. Although the ability of forskolin to act synergistically with TSH or cholera toxin was observed in non-treated cells, it was clearly unaffected and demonstrated in the cells treated with protein synthesis inhibitor. The mechanism(s) and site(s) of forskolin action still remain unclear. However, these observations are compatible with a two-site model of forskolin action. The direct activating site of forskolin appears to reside in a protein which is closely associated with the catalytic unit of adenylate cyclase system and has a relatively shorter half-life than other components of the system. The potential action of forskolin may reside in a more stable complex of an activated stimulatory guanine nucleotide binding component and catalytic unit of the adenylate cyclase system. Based on these results, it is likely that the primary monolayer culture of porcine thyroid cells is a good model to investigate the adenylate cyclase system in the thyroid, and that forskolin may potentiate the TSH-mediated stimulation of adenylate cyclase.
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PMID:[Adenylate cyclase system responsive to thyroid stimulating hormone (TSH) of porcine thyroid cells in primary monolayer cultures. Potential effect of forskolin on TSH-mediated adenylate cyclase stimulation]. 303 Aug 31

The effects of triamcinolone hexacetonide (TH) on the synthesis of collagen and noncollagen proteins were tested in mandibular condylar cartilage of newborn mice. Four-day-old ICR mice received a single i.p. injection of TH at doses ranging from 0.4 to 4.0 mg/kg body weight. Hydrocortisone, deoxycorticosterone, dexamethasone, and progesterone were administered at a dose of 4.0 mg/kg. Test animals and nontreated and vehicle-treated controls were sacrificed after 24, 48, and 72 hours and were processed for electron microscopy. Additional animals were injected with 5 microCi of 3H-proline 2 hours before sacrifice. The specimens were extracted with 5% TCA containing 1 mM proline followed by 5% TCA, acetone, and ether, homogenized and digested with purified bacterial collagenase, and the amounts of radioactivity in collagenase digestible (CDP) and noncollagen proteins (NCP) were determined. The present results revealed that triamcinolone led to a significant dose-dependent decrease in the protein content of the tissue that lasted for 3 days (12-14% at the dose of 4 mg/kg). The incorporation of 3H-proline into CDP was reduced by 39, 57, and 42% at 24, 48, and 72 hours, respectively whereas the incorporation into NCP was reduced by 20, 35, and 23%, respectively. When compared with other steroids, dexamethasone revealed a similar inhibitory effect, whereas hydrocortisone and deoxycorticosterone had no significant effect. Progesterone, on the other hand, showed a transient (24 hours) stimulatory effect on the synthesis of collagen synthesis (21%, P less than 0.05). Electron microscopy showed an atypical arrangement of collagen fibers and accumulation of large aggregates of collagen that filled the entire matrical space between cartilage cells.
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PMID:Triamcinolone impairs the synthesis of collagen and noncollagen proteins in condylar cartilage of newborn mice. 312 68

A monoclonal antibody (MBP-322) that recognizes two small collagenous, apatite-binding (SCAB) proteins associated with the mineral phase of fetal bone, has been prepared. The SCAB proteins, which are quantitatively extracted from bone with EDTA, have been shown by immunotransfer analyses to have MrS of 28K and 25K and both were selectively degraded by bacterial collagenase. Amino acid analysis of the collagenase-digested protein revealed a hypro:pro:gly ratio of approximately 0.5:1:0.7 for both proteins and indicated that one-third of the protein could have a collagen-like sequence. The SCAB proteins, unlike other collagens and collagen fragments tested bound quantitatively to hydroxylapatite in the presence of 4M guanidine hydrochloride and appear to be unique to bone. The antibody, however, was not specific for the SCAB proteins and showed comparable immunoreactivity against denatured alpha 1 chains of types I, II and III collagens and the alpha 2 chains of types I and V collagens but not type IV collagen nor native collagens I-V. The epitope was further localized to the CB6 fragment in the alpha 1(I) chain and the CB5 fragment of alpha 1(III) chain, and was present in both the TCA and TCB fragments of alpha 2(I). Despite the immunological reactivity, the properties of the SCAB proteins were not consistent with their being derived from known collagen types. Immunocytochemical staining of permeabilized bone cells with MPB-322 showed a perinuclear, punctate staining pattern in most cells with some cells showing specific nuclear staining. In non-permeabilized cells, the antibody stained various sized spherical particles, many of which were closely associated with the cell surface. Immunoblots of cell proteins revealed a number of immunoreactive proteins sensitive to collagenase digestion including two proteins with MrS similar to the SCAB proteins. The MBP-322 antibody appears useful for identifying sequence homology in various collagens, and for recognizing denatured collagen and specific collagen fragments in tissues, as well as being important for the further characterization of the SCAB proteins.
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PMID:Characterization of a monoclonal antibody recognizing small collagenous proteins in fetal bone. 330 Nov 83

Osteoclasts are the principal resorptive cells of bone, yet their capacity to degrade collagen, the major organic component of bone matrix, remains unexplored. Accordingly, we have studied the bone resorptive activity of highly enriched populations of isolated chicken osteoclasts, using as substrate devitalized rat bone which had been labeled in vivo with L-[5-3H]proline or 45Ca, and bone-like matrix produced and mineralized in vitro by osteoblast-like rat osteosarcoma cells. When co-cultured with a radiolabeled substrate, osteoclast-mediated mineral mobilization reached a maximal rate within 2 h, whereas organic matrix degradation appeared more slowly, reaching maximal rate by 12-24 h. Thereafter, the rates of organic and inorganic matrix resorption were essentially linear and parallel for at least 6 d when excess substrate was available. Osteoclast-mediated degradation of bone collagen was confirmed by amino acid analysis. 39% of the solubilized tritium was recovered as trans-4-hydroxyproline, 47% as proline. 10,000 osteoclasts solubilized 70% of the total radioactivity and 65% of the [3H]-trans-4-hydroxyproline from 100 micrograms of 25-50 micron bone fragments within 5 d. Virtually all released tritium-labeled protein was of low molecular weight, 99% with Mr less than or equal to 10,000, and 65% with Mr less than or equal to 1,000. Moreover, when the 14% of resorbed [3H]proline-labeled peptides with Mr greater than or equal to 2,000 were examined for the presence of TCA and TCB, the characteristic initial products of mammalian collagenase activity, none was detected by SDS PAGE. In addition, osteoclast-conditioned medium had no collagenolytic activity, and exogenous TCA and TCB fragments were not degraded by osteoclasts. On the other hand, osteoclast lysates have collagenolytic enzyme activity in acidic but not in neutral buffer, with maximum activity at pH 4.0. These data indicate that osteoclasts have the capacity to resorb the organic phase of bone by a process localized to the osteoclast and its attachment site. This process appears to be independent of secretion of neutral collagenase and probably reflects acid protease activity.
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PMID:Isolated osteoclasts resorb the organic and inorganic components of bone. 345 13

The effect of various concentrations of fluoride (F-) on cell proliferation, matrix formation and mineralization was examined in hamster molar tooth germs in premineralizing and mineralizing stages. The exposure lasted 16 h (mineralizing stages) and 24 h (premineralizing stages) and the F- levels ranged from 2.63 microM to 2.63 mM; [3H]-thymidine, [3H]-proline, 45Ca and 32PO4 were used as markers for cell proliferation, matrix formation and mineralization, respectively. The proline-labelled amelogenins were isolated by sequential extraction with water and formic acid and their nature examined by SDS-urea-polyacrylamide electrophoresis. Digestion by collagenase was used to assess the amount of proline incorporated into collagens. F- in concentrations up to 1.31 mM inhibited neither biosynthesis of DNA and amelogenins, nor synthesis of collagens and their hydroxylation. Amelogenins extracted from F- induced, non-mineralizing enamel matrix had the same electrophoretic mobility and the same degree of phosphorylation as amelogenins from normal, mineralizing enamel. However, F- increased the uptake of 45Ca and TCA-soluble 32P dose-dependently, starting with 52 microM. Thus, interference with secretion of enamel matrix by F- takes place at much lower concentrations than required to inhibit biosynthesis of enamel matrix.
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PMID:Short-term effects of fluoride on biosynthesis of enamel-matrix proteins and dentine collagens and on mineralization during hamster tooth-germ development in organ culture. 385 37

The presence of collagenase bound to collagen extracted and purified from several animal and human sources by a standard procedure has been confirmed by different methods. Polyacrylamide (10%) gel electrophoresis at pH 8.1 of intact or "spontaneously"degraded neutral salt soluble collagen results in the separation of two components: the upper one says at the origin and represents collagen or collagen ragments, whereas the lower protein component contains no collagen, often preserves specific collagenolytic activity, and migrates as a single band in SDS/polyacrylamide electrophoresis. With lower polyacrylamide gel concentration the electrophoretic separation of the two components is less clear. Removal of the lower protein component from collagen solutions by two different methods (TCA-ethanol purification cycles and pepsin digestion) results in concomitant loss of their "spontaneous" instability. Eluates of the lower protein component stimulate the heterologous production of a monospecific antibody capable of inhibiting the collagenolytic activity of homologous crude collagenase preparations. It is suggested that collagen-bound collagenase is not an artifact of the extraction procedure but rather a physiological reality, probably corresponding in the living animal to the enzyme closely associated with extracellular collagen fibers, revealed by immunohistochemical methods.
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PMID:Collagen-bound collagenase. 625 23

Two metallo-proteinases of human neutrophil leucocytes, collagenase and gelatinase, were studied. Collagenase specifically cleaved native collagen into the TCA and TCB fragments, whereas gelatinase degraded denatured collagen, i.e. gelatin, and the TCA fragments produced by collagenase. On subcellular fractionation by zonal sedimentation, collagenase was found to be localized in the specific granules, separate from gelatinase, which was recovered in smaller subcellular organelles known as C-particles. Neither enzyme was present in the azurophil granules, which contain the two major serine proteinases of neutrophils, elastase and cathepsin G. Collagenase and gelatinase were separated by gel filtration from extracts of partially purified granules. Both enzymes were found to occur in latent forms and were activated either by trypsin or by 4-aminophenylmercuric acetate. Gelatinase was also activated by cathepsin G, which, however, destroyed collagenase. Both enzymes were destroyed by neutrophil elastase. Activation resulted in a decrease by 25 000 in the apparent mol. wt. of both latent metallo-proteinases.
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PMID:The latent collagenase and gelatinase of human polymorphonuclear neutrophil leucocytes. 626 56


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