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)

Immunoassays have been developed for human collagenase, stromelysin, tissue inhibitor of metalloproteinases (TIMP) and TIMP complexed with both of the active enzymes. Selection of antibodies of defined specificity enabled measurement of both the pro and active forms of the metalloproteinase. Free TIMP was quantified by the selection of a monoclonal antibody which did not recognise TIMP when complexed with metalloproteinases. Detection of enzyme-inhibitor complexes was achieved by capturing the TIMP component of the complex and revealing the metalloenzyme using specific antibodies.
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PMID:Immunoassays for the detection of human collagenase, stromelysin, tissue inhibitor of metalloproteinases (TIMP) and enzyme-inhibitor complexes. 196 12

Growth plate cartilage from normal and vitamin D-phosphate deficient (-VDP) rats was cultured to study the production of collagenase and tissue inhibitor of metalloproteinases (TIMP) in vitro. All tissues secreted latent collagenase into the medium at a constant rate during the 5 days in culture. Microdissected-VDP growth plates, containing predominatly hypertrophic cells, released up to 8-fold more collagenase into the medium than either intact-VDP or normal growth plates. TIMP was also secreted during the culture, but its rate of production was not as dependent on tissue type as collagenase. The tissue level of collagenase and TIMP before culture was compared with that found in conditioned medium and remnant tissue after culture. During the 5 day culture period microdissected-VDP growth plates, containing predominatly hypertrophic cells, produced 3-times more collagenase/microgram DNA over the starting level than either intact-VDP or normal growth plates. TIMP was never found in tissues after they had been cultured, but was present in all tissues before culture except those containing predominatly hypertrophic cells. The amount of TIMP required to block collagenase was calculated. Growth plates in culture produced enough TIMP to block all collagenase found in the medium and remnant tissue, while extracts of uncultured intact -VDP growth plates, and those divided to contain hypertrophic cells, had an excess of collagenase over TIMP. The results suggest that hypertrophic cells produce far more collagenase than other cells in the growth plate, but all cell types have about the same capacity to synthesize TIMP. As a result, increased collagenase synthesis by hypertrophic cells may surpass increases in TIMP synthesis and lead to collagen removal. This would allow for thinning of the longitudinal septa and expansion of the hypertrophic cells.
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PMID:Production of collagenase and tissue inhibitor of metalloproteinases (TIMP) by rat growth plates in culture. 196 14

Degradation of fibrillar collagens is a central process in joint destruction in rheumatoid arthritis. Collagenase responsible for the collagenolysis has been immunolocalized on the extracellular matrix components at the cartilage/pannus junction in the rheumatoid joint, but very little is known about cellular source of the proteinase. In this paper monospecific antibodies against collagenase and tissue inhibitor of metalloproteinases (TIMP) were applied to rheumatoid and normal synovium to identify cells synthesizing and secreting the enzyme and its inhibitor. By treating the specimens with the monovalent ionophore, monensin, both collagenase and TIMP could be immunolocalized in hyperplastic synovial lining cells in rheumatoid synovium, but not in the cells of normal synovium. Dual immunolocalization studies demonstrated that the majority of the lining cells (approximately 64%) produce both collagenase and TIMP, while approximately 3% of the cells were positive only for collagenase, and 11% only for TIMP. Neither collagenase nor TIMP was immunolocalized on the extracellular matrix components in the synovia examined. These data suggest that synovial lining cells in rheumatoid arthritis secrete both collagenase and TIMP into the joint cavity. The role of collagenase in joint destruction in rheumatoid arthritis is discussed with reference to the regulation of the activity by TIMP.
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PMID:Immunohistochemical demonstration of collagenase and tissue inhibitor of metalloproteinases (TIMP) in synovial lining cells of rheumatoid synovium. 198 May 61

The differentiation of F9 and PSA-1 embryonal carcinoma cells to embryoid bodies composed of a mixture of parietal and visceral endoderm was accompanied by changes in their secretion of metalloproteinases. Differentiation was induced by retinoic acid and dibutyryl cyclic AMP (for F9 cells) or by removing cells from a substrate of feeder cells to alter cell-cell interaction and adhesion (for PSA-1 cells). The embryoid bodies attached to gelatin-coated dishes, and the parietal endoderm cells spread out over the matrix. The differentiated cells secreted specific gelatin- and casein-degrading proteinases, including enzymes that comigrated with proenzyme forms of collagenase and stromelysin. Total proteinase activity as well as specific collagenase activity increased with the time of differentiation. All of the gelatin- and casein-degrading proteinases detectable by substrate gel zymography were inhibited by inhibitors of metalloproteinases but not by inhibitors of serine or cysteine proteinases, indicating that they were metalloproteinases. Both cell lines showed increased collagenolytic activity, which was activated by treatment with plasmin. In addition, both cell lines showed increased secretion of specific metalloproteinase inhibitors, including tissue inhibitor of metalloproteinases, with differentiation. Analysis of mRNA from undifferentiated and differentiated F9 cells by RNA blot analysis or reverse transcription coupled with the polymerase chain reaction showed that increased expression of genes for collagenase, stromelysin and tissue inhibitor of metalloproteinases is associated with differentiation of these cells. These results suggest that the expression of extracellular matrix-degrading metalloproteinases and their inhibitors is developmentally regulated during the differentiation and spreading of the parietal endoderm.
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PMID:Expression of extracellular matrix-degrading metalloproteinases and metalloproteinase inhibitors is developmentally regulated during endoderm differentiation of embryonal carcinoma cells. 208 60

Schistosomal egg granulomas spontaneously secrete fibrogenic factors, suggesting that there exists a molecular link between granulomatous inflammation and hepatic fibrosis in schistosomiasis. To further assess this possibility, we compared elaboration of fibrogenic factors by egg granulomas isolated from Schistosoma mansoni-infected euthymic mice that develop substantial liver fibrosis, with those elaborated by similarly infected congenitally athymic mice that develop minimal fibrosis. Conditioned medium from cultures of granulomas from euthymic mice stimulated fibroblast proliferation, chemotaxis, and synthesis of collagen, collagenase, tissue inhibitor of metalloproteinases, and hyaluronate, whereas those prepared from cultures of granulomas isolated from athymic mice were relatively or absolutely deficient in such activities. These observations provide a correlation between the presence of fibrosis in vivo and the production of fibrogenic factors and reinforce our hypothesis that granuloma-derived fibrogenic factors play a role in the pathogenesis of liver fibrosis in schistosomiasis. Furthermore, the results of this study suggest a central role of T lymphocytes in the fibrogenic process.
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PMID:Fibroblast stimulation in schistosomiasis. IX. Schistosomal egg granulomas from congenitally athymic mice are deficient in production of fibrogenic factors. 215 67

To investigate the effects of mechanical deformation on matrix degradation in fibrous joints, coronal suture explants from neonatal rabbits were stressed in vitro for 24 hours in an established tooth-movement model system. The metalloproteinase collagenase (CL) and its inhibitor, TIMP (tissue inhibitor of metalloproteinases), were immunolocalized in two ways by a two-step indirect technique: (1) extracellularly by immunoprecipitation at the site of secretion, and (2) intracellularly by incubation of the explants with the ionophore monensin. Immunoprecipitates of CL and TIMP were distributed throughout the sutural and periosteal tissues of nonstressed explants. In stressed explants, however, CL immunoprecipitates were predominantly associated with an area of rounded cells between the bone ends. In explants treated with monensin a significant increase in the number of CL-positive cells was observed in this cellular area; active enzyme was suggested by the demonstration of CL bound to collagen. Extracellular TIMP was not seen within the area of rounded cells of stressed explants, but intracellular TIMP was detectable; this suggests that insufficient TIMP was available to immunoprecipitate with anti-TIMP, probably because it had become irreversibly complexed with active CL. Since the area of rounded cells corresponds to the site of increased cell proliferation in this and other animal models of tooth movement, these data suggest that collagenase production and cell proliferation might be correlated. We speculate that matrix degradation is an essential prerequisite for cell proliferation as it creates room to accommodate an increase in cell population.
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PMID:Immunolocalization of collagenase and tissue inhibitor of metalloproteinases (TIMP) in mechanically deformed fibrous joints. 215 35

Molecular cloning has revealed that erythroid potentiating activity (EPA) and tissue inhibitor of metalloproteinases (TIMP) represent two distinct activities of a single protein. We have studied the expression of the EPA/TIMP gene at the mRNA and protein levels during 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-induced megakaryoblastic differentiation of K562 human chronic myeloid leukemia cells. Northern hybridization analysis showed that the EPA/TIMP mRNA was increased within 3 hours of TPA-induction and reached maximal levels (about 50-fold induction) during the first day of treatment. The expression of mRNAs for two major metalloproteinases, collagenase-I and stromelysin, were activated in parallel in the differentiation-induced K562 cells. The increase of EPA/TIMP mRNA correlated with increased EPA/TIMP protein biosynthesis and secretion: the TPA-induced cells secreted substantially enhanced amounts of metabolically labeled proteins, of which EPA/TIMP represented up to 50% after the first day of treatment (over 100-fold induction). The induction of EPA/TIMP mRNA was associated with its increased transcription. EPA/TIMP induction required continuous protein synthesis, being completely inhibited by addition of the protein synthesis inhibitor cycloheximide simultaneously with TPA, but only partially inhibited in a time-dependent manner if cycloheximide was added after TPA. Unlike in other cells tested, the jun and c-fos transcription factor mRNAs showed a prolonged biphasic induction response in K562 cells during TPA treatment. This response was associated with enhanced activity of a transfected recombinant reporter plasmid containing binding sites for the jun/fos transcription factor complex (AP-1) similar to the TPA-responsive element (TRE) sequence we found in the EPA/TIMP gene promoter. We suggest that the induction of EPA/TIMP and several other genes specific for the differentiating K562 cells may be a consequence of the sustained activation of immediate early genes encoding transcription factors, such as jun and c-fos.
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PMID:Increased erythroid potentiating activity/tissue inhibitor of metalloproteinases and jun/fos transcription factor complex characterize tumor promoter-induced megakaryoblastic differentiation of K562 leukemia cells. 215 16

Evidence has recently accumulated suggesting that osteoblasts play a direct role in bone resorption by producing collagenase. In this paper we describe studies carried out with explants of bone from osteopetrotic grey lethal (gl/gl) mice and show that despite the lack of osteoclastic activity the production of both active and latent collagenase and its specific inhibitor TIMP (tissue inhibitor of metalloproteinases) is similar to that of normal bones. Synthesis of collagenase was stimulated by the bone resorptive agent vitamin A (retinol); concomitantly, TIMP levels fell to zero and active enzyme was detected in the culture medium. This work supports the view that bone collagenase is produced by cells other than osteoclasts, since the response of the osteoblastic population to resorptive signals appears normal.
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PMID:Osteopetrotic (grey-lethal) bone produces collagenase and TIMP in organ culture: regulation by vitamin A. 216 Dec 16

Relaxin is believed to play a role in connective tissue remodeling during pregnancy (Bell, R.J., Eddie, L. W., Lester, A. R., Wood, E. C., Johnston, P.D., and Niall, H. D. (1987) Obstet. Gynecol. 69, 585-589; MacLennan, A. H. (1983) Clin. Reprod. Fertil. 2, 77-95). In the present study, normal human fibroblasts exposed to concentrations of a synthetic bioactive relaxin peptide from 0.1 to 10 ng/ml synthesized and secreted the metalloproteinase procollagenase, which was immunoprecipitable as a doublet of 52 and 57 kDa by a monoclonal antibody to human collagenase. The stimulation in procollagenase protein expression was reflected in an elevation in procollagenase mRNA levels. Media conditioned for 48 h by relaxin-treated fibroblasts (0.1 ng/ml) contained 1.7 units/ml activatable collagenase compared with 0.2 units/ml by untreated fibroblasts. In addition, relaxin caused a modest decrease in the levels of tissue inhibitor of metalloproteinases, as detected by reverse zymography and Northern analysis. Relaxin was also a potent modulator of the collagen secretory phenotype of these fibroblasts. Relaxin at 100 ng/ml down-regulated collagen secretion by 40%. When fibroblasts were treated simultaneously with cytokines such as transforming growth factor beta or interleukin 1 beta, which stimulated collagen synthesis to at least 9-fold of basal levels, relaxin at 100 ng/ml was able to down-regulate collagen expression by up to 88%. This decrease was reflected by changes at the mRNA level. These results indicate that relaxin can cause significant collagen turnover both by stimulating collagenase expression and by down-modulating collagen synthesis and secretion.
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PMID:Relaxin modulates synthesis and secretion of procollagenase and collagen by human dermal fibroblasts. 216 58

Connective-tissue cells produce a family of metalloproteinases which, once activated, can degrade all the components of the extracellular matrix. These potent enzymes are all inhibited by the tissue inhibitor of metalloproteinases (TIMP), and it was thought that the levels of this inhibitor controlled the extracellular activity of these enzymes. We recently detected a new metalloproteinase inhibitor present in culture media of WI-38 fibroblasts. The inhibitor, named 'large inhibitor of metalloproteinases' (LIMP), can be separated from TIMP by gel filtration on Ultrogel AcA 44, where it is eluted with an apparent Mr of 76,000. A portion of this inhibitor-containing peak binds to concanavalin A-Sepharose, indicating that at least some of the inhibitor contains carbohydrate. LIMP inhibits collagenase (MMP-1), stromelysin (MMP-3) and gelatinase (MMP-2) in a dose-dependent fashion. Collagenase forms tight-binding complexes with LIMP, which can be separated from free collagenase on gel-filtration columns. The complex is eluted with Mr 81,600 (AcA 44) or Mr 60,000 (Superose 12). This complex is larger than that formed between collagenase and TIMP, which has Mr 52,800 (Aca 44) or 41,000 (Superose 12). Polyclonal antibody to TIMP does not recognize LIMP by immunoblotting, and will not block the inhibition of collagenase by LIMP, showing that LIMP is not a multimeric form of TIMP. The role of this new inhibitor in connective-tissue breakdown studies and its relationship to previously described inhibitors of metalloproteinases is discussed.
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PMID:Identification of a new metalloproteinase inhibitor that forms tight-binding complexes with collagenase. 216 93


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