Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A small uterine metalloproteinase of the rat has been shown by amino acid and cDNA sequencing to be orthologous to human pump-1. Both proteinases are now designated as matrilysin or matrix metalloproteinase 7. The properties of purified uterine metalloproteinase and recombinant pump-1 were compared. Their specificities on substrates (gelatins, fibronectin, transferrin, elastin, Azocoll, and (7-methoxycoumarin-4-yl)acetyl-Pro-Leu-Gly-Leu-(3,[2, 4-dinitrophenyl]-L-2, 3-diaminopropionyl)-Ala-Arg-NH2) are similar and distinct from those of the stromelysins and gelatinases. The two matrilysins have similar sensitivity to hydroxamate and pseudopeptide inhibitors. Rat matrilysin selectively cleaves the alpha 2(I) chain of rat gelatin, producing major cuts at Gly713-decreases-Ile714, Gly775-decreases-Leu776, and Gly809-decreases-Ile810. Rat matrilysin produces maximum activation of latent human interstitial collagenase 1 (pro-matrix metalloproteinase 1) when added in the presence of 4-aminophenylmercuric acetate (APMA) by cleaving the Gln80-decreases-Phe81 bond. Rat and human matrilysin do not directly activate latent rat collagenase 3 (matrix metalloproteinase 13) and do not enhance its activation when added together with APMA. Autoactivation of collagenase 3 in the presence of APMA results in cleavage at Val81-decreases-Tyr82 corresponding to the Gln80-decreases-Phe81 cleavage in collagenase 1. Thus collagenase 3 is capable of maximal autoactivation, whereas collagenase 1 is dependent upon another matrix metalloproteinase in order to be activated to its full potential.
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PMID:Characterization of rat uterine matrilysin and its cDNA. Relationship to human pump-1 and activation of procollagenases. 760 62

Interleukin-1 beta is believed to contribute to the pathophysiology of rheumatoid arthritis by activating collagenase gene expression. We have used a cell culture model of rabbit synovial fibroblasts to examine the molecular mechanisms of IL-1 beta-mediated collagenase gene expression. Stimulation of rabbit synovial fibroblasts with 10 ng/ml recombinant human IL-1 beta resulted in a 20-fold increase in collagenase mRNA by 12 h. Transient transfection studies using collagenase promoter-CAT constructs demonstrated that proximal sequences responded poorly to IL-1 beta, possibly due to insufficient activation of AP-1 by this cytokine. More distal sequences were required for IL-1 beta responsiveness, with a 4700 bp construct showing approximately 5-fold induction above control. To examine post-transcriptional mechanisms, transcript from a human collagenase cDNA was constitutively produced by the simian virus 40 early promoter. IL-1 beta stabilized the constitutively expressed human transcript. Furthermore, mutation of the ATTTA motifs in the 3' untranslated region of the human gene also stabilized the transcript. Finally, the rabbit collagenase 3' untranslated region destabilized a constitutively transcribed chloramphenicol acetyltransferase transcript. These data indicate that in addition to activating transcription, IL-1 beta increases collagenase transcript stability by reversing the destabilizing effects of sequences in the 3' untranslated region.
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PMID:Regulation of collagenase gene expression by IL-1 beta requires transcriptional and post-transcriptional mechanisms. 798 35

Transforming growth factor (TGF) beta1 is an autocrine regulator of bone cell function. We demonstrated that TGF beta1 enhances bone collagen synthesis, but its effects on collagen degradation are not well characterized. We tested the effects of TGF beta1 on rat collagenase 3 expression in cultures of osteoblast-enriched cells from fetal rat calvariae (Ob cells). Treatment with TGF beta1 at 0.4 nM decreased steady state collagenase mRNA levels after 2 to 24 h. This dose-dependent effect was observed at TGF beta1 concentrations of 4 pM to 1.2 nM, and was accompanied by decreased levels of immunoreactive procollagenase. The protein synthesis inhibitor cycloheximide increased collagenase transcripts, but did not prevent the effect of TGF beta1 on collagenase mRNA levels. TGF beta1 accelerated the decay of collagenase mRNA in transcriptionally arrested Ob cells. In addition, TGF beta1 decreased the levels of collagenase heterogeneous nuclear RNA and the rate of collagenase gene transcription in Ob cells. TGF beta1 enhanced the expression of tissue inhibitors of metalloproteinases (TIMP) 1 and 3 and caused a modest decrease of TIMP 2 mRNA levels. In conclusion, TGF beta1 decreases interstitial collagenase transcripts and protease levels in Ob cells by transcriptional and post-transcriptional mechanisms, and this effect may contribute to its actions on bone matrix.
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PMID:Transforming growth factor beta1 inhibits collagenase 3 expression by transcriptional and post-transcriptional mechanisms in osteoblast cultures. 900 43

Interleukin-6 (IL-6), a cytokine produced by skeletal cells, increases bone resorption, but its effects on collagenase expression are unknown. We tested the effects of IL-6 and its soluble receptor on collagenase 3 expression in osteoblast-enriched cells from fetal rat calvariae (Ob cells). IL-6 caused a small increase in collagenase mRNA levels, but in the presence of IL-6-soluble receptor (IL-6sR), IL-6 caused a marked increase in collagenase transcripts after 2-24 h. In addition, IL-6sR increased collagenase mRNA when tested alone. IL-6 and IL-6sR increased immunoreactive collagenase levels. Cycloheximide and indomethacin did not prevent the effect of IL-6 and IL-6sR on collagenase mRNA levels. IL-6 and IL-6sR did not alter the decay of collagenase mRNA in transcriptionally arrested Ob cells and increased the levels of collagenase heterogeneous nuclear RNA and the rate of collagenase gene transcription in Ob cells. IL-6 and IL-6sR increased collagenase 3 mRNA in MC3T3 cells but only modestly in skin fibroblasts. IL-6 and IL-6sR enhanced the expression of tissue inhibitor of metalloproteinases 1. In conclusion, IL-6, in the presence of IL-6sR, increases collagenase 3 synthesis in osteoblasts by transcriptional mechanisms. This effect may contribute to the action of IL-6 on bone matrix degradation and bone resorption.
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PMID:Interleukin-6 and its soluble receptor cause a marked induction of collagenase 3 expression in rat osteoblast cultures. 911 85

Insulin-like growth factor (IGF) I is an autocrine regulator of bone remodeling which inhibits bone collagen degradation and interstitial collagenase 3 mRNA levels. The mechanism of this inhibitory effect on collagenase 3 expression is not known. We tested the effects of IGF I on collagenase 3 gene expression in cultures of osteoblast-enriched cells from 22 day fetal rat calvariae (Ob cells) to determine whether transcriptional or posttranscriptional mechanisms were involved in the regulation of the collagenase 3 gene. IGF I at 10-100 nM caused a dose-dependent decrease in collagenase mRNA and protein levels. IGF I did not modify the half-life of collagenase 3 mRNA in transcriptionally arrested Ob cells, whereas it decreased the levels of interstitial collagenase 3 heterogeneous nuclear RNA. In addition, IGF I decreased the rates of transcription of the collagenase gene and the activity of a 2.1 kilobase collagenase 3 promoter construct transiently transfected into Ob cells. In conclusion, IGF I decreases the expression of collagenase 3 mRNA by transcriptional mechanisms.
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PMID:Insulin-like growth factor I inhibits the transcription of collagenase 3 in osteoblast cultures. 932 23

The degradation of fibrillar type II collagen is a major feature of cartilage destruction in rheumatoid arthritis (RA). Since collagenase 3 is produced by chondrocytes and preferentially degrades type II cartilage collagen, it seemed likely that this enzyme would have a prominent role in the destruction of rheumatoid joints. Using immunolocalization techniques, we have examined and compared the production and distributions of collagenase 1 and collagenase 3 in cells and tissues derived from rheumatoid knee arthroplasties. Primary cultures of chondrocytes stimulated with interleukin-1 beta showed that most of the cells produced collagenase 1, whereas only a minority (approximately 5-10%) produced collagenase 3; a few chondrocytes demonstrated the co-ordinate production of both enzymes. Primary cultures of rheumatoid synoviocytes produced collagenase 1, but not collagenase 3. Both enzymes were demonstrated in the rheumatoid lesion. Collagenase 1 was more commonly observed in both synovium and cartilage (22 of the 28 specimens), was especially prominent at cartilage erosion sites, and most of the positive specimens demonstrated extracellular enzyme. By contrast, collagenase 3 was observed less frequently (7/28 specimens) and was produced by relatively few chondrocytes and synovial cells, this usually being much less than that observed for chondrocytes of osteoarthritic cartilage. These observations suggest different regulatory mechanisms for the production of collagenases 1 and 3 in the rheumatoid lesion, and demonstrate that the distribution and production of collagenase 1 are far more prevalent than those for collagenase 3.
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PMID:Comparative immunolocalization studies of collagenase 1 and collagenase 3 production in the rheumatoid lesion, and by human chondrocytes and synoviocytes in vitro. 948 53

The response of human T lymphocytes to various stimuli includes the expression of the matrix metalloproteinase (MMP) genes stromelysin 2, gelatinase A and gelatinase B. The proteins encoded by these genes could confer the capacity to degrade macromolecular components of the extracellular matrix (ECM), and to shed transmembrane proteins such as tumor necrosis factor (TNF), TNF receptor, Interleukin-6 receptor and Fas ligand. To identify further MMP genes transcribed in T lymphocytes exposed to phorbol 12-myristate 13-acetate and a calcium ionophore, we combined reverse transcription and polymerase chain reaction using primers specific for conserved domains and detected collagenase 3 transcripts, first described in a human breast cancer. However, when the sequence of the complementary DNA was compared, additional 23 nucleotides were found in the 5' nontranslated region of the lymphocyte messenger RNA (mRNA). Northern blot analysis revealed 2 major inducible mRNA species of 1.9 and 2.8 kilobases, whose levels were lower than those of stromelysin 2. The observation that activated T lymphocytes transcribe several MMP genes, including a collagenase, indicates that the effector functions of these cells include enzymatic activities towards most constituents of the ECM, as well as some transmembrane proteins relevant to inflammation and apoptosis.
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PMID:A matrix metalloproteinase gene expressed in human T lymphocytes is identical with collagenase 3 from breast carcinomas. 956 63

The assay for the cross-linked carboxyterminal telopeptide of type I collagen (ICTP) has been shown to reflect increased type I collagen degradation in such pathological conditions as bone metastases and rheumatoid arthritis, but to be rather insensitive to the changes in physiological bone collagen turnover (e.g., induced by estrogen or bisphosphonate treatment). To determine the reasons for this discrepancy we localized the antigenic determinant recognized by the ICTP assay and studied the effects of two major osteoclastic proteinases, cathepsin K (EC 3.4.22.38) and matrix metalloproteinase-9 (MMP-9; gelatinase B; EC 3.4.24.35), on immunoreactivity. The antigenic determinant was shown to reside within the hydrophobic phenylalanine-rich regions of the carboxyterminal telopeptides of the two alpha1 chains of human type I collagen, situated between the triple helical domain and the lysine-derived trivalent cross-link. This conclusion was based on differences between the amino acid sequences and cross reactivities of the corresponding human and bovine antigens before and after proteolytic treatments with chymotrypsin. A trivalent cross-link is necessary for providing such a structure, because the divalently cross-linked and monomeric natural and synthetic peptides from the same region, but containing only one phenylalanine-rich sequence, showed poor immunoreaction. Recombinant human cathepsin K cleaved the trivalently cross-linked ICTP structure at two sites between the phenylalanine-rich region and the cross-link, destroying the reactivity with ICTP antibodies. On the contrary, the treatment of isolated ICTP by the matrix metalloproteinases MMP-9 (gelatinase B), MMP-1 (collagenase 1), or MMP-13 (collagenase 3) had no effect on the immunoreaction. Our results indicate that the increased circulating concentrations of ICTP found in several clinical situations are most likely produced by matrix metalloproteinases, whereas cathepsin K-mediated, osteoclastic bone resorption destroys ICTP antigenicity.
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PMID:Immunochemical characterization of assay for carboxyterminal telopeptide of human type I collagen: loss of antigenicity by treatment with cathepsin K. 1071 80

The status of bronchial cartilage degeneration in chronic bronchitis is unclear, and little is known about the chondrolytic mechanisms involved. The potential contributions of various inflammatory cells, chondrocytes and cartilage-degrading enzymes to cartilage atrophy have been examined. Bronchial cartilage specimens were obtained at autopsy from lobar secondary bronchi from chronic bronchitics and age-matched controls; each was examined by light microscopy and immunohistology for the distributions of mast cells, macrophages, eosinophils, collagenase 1, collagenase 3, and degradation products of cartilage collagen. Most bronchitic specimens showed hypertrophic chondrocytes, some of which were immunostained for collagenase 3, and occasionally for collagenase 1. Evidence for collagen degradation products was demonstrated around the lacunae of a proportion of chondrocytes, and both collagenases were also observed in the soft inflammatory tissues in close association with the cartilage surface, together with variable distributions of mast cells and macrophages. Such observations were generally absent or very much reduced in the control, non-bronchitic specimens. Degenerative changes, atrophy and loss of bronchial cartilage were common features of most chronic bronchitic specimens, this usually being related to intrinsic changes in the chondrocyte phenotype, including proliferative and matrix-degrading properties. Mast cells and macrophages were often observed in close association with the bronchial cartilage, suggesting that inflammatory cells may also contribute to the mechanisms of bronchial cartilage degradation and loss. These observations of bronchial cartilage degeneration were generally lacking in age-matched non-bronchitic control specimens.
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PMID:Bronchial cartilage atrophy in chronic bronchitis: observations on chondrolytic processes. 1073 81

The substrate specificity of human collagenase 3 (MMP-13), a member of the matrix metalloproteinase family, is investigated using a phage-displayed random hexapeptide library containing 2 x 10(8) independent recombinants. A total of 35 phage clones that express a peptide sequence that can be hydrolyzed by the recombinant catalytic domain of human collagenase 3 are identified. The translated DNA sequence of these clones reveals highly conserved putative P1, P2, P3 and P1', P2', and P3' subsites of the peptide substrates. Kinetic analysis of synthetic peptide substrates made from human collagenase 3 selected phage clones reveals that some of the substrates are highly active and selective. The most active substrate, 2, 4-dinitrophenyl-GPLGMRGL-NH(2) (CP), has a k(cat)/K(m) value of 4.22 x 10(6) m(-)(1) s(-)(1) for hydrolysis by collagenase 3. CP was synthesized as a consensus sequence deduced from the preferred subsites of the aligned 35 phage clones. Peptide substrate CP is 1300-, 11-, and 820-fold selective for human collagenase 3 over the MMPs stromelysin-1, gelatinase B, and collagenase 1, respectively. In addition, cleavage of CP is 37-fold faster than peptide NF derived from the major MMP-processing site in aggrecan. Phage display screening also selected five substrate sequences that share sequence homology with a major MMP cleavage sequence in aggrecan and seven substrate sequences that share sequence homology with the primary collagenase cleavage site of human type II collagen. In addition, putative cleavage sites similar to the consensus sequence are found in human type IV collagen. These findings support previous observations that human collagenase 3 can degrade aggrecan, type II and type IV collagens.
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PMID:Substrate specificity of human collagenase 3 assessed using a phage-displayed peptide library. 1090 30


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