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1.
A metalloprotease that digests cartilage proteoglycan optimally at pH 5.3 has been purified (4400-fold) to homogeneity from 20-g samples of human articular cartilage containing about 100 micrograms of enzyme. This enzyme was cleanly separated from a related neutral metalloprotease with an optimum pH of 7.2. The acid metalloprotease displays 40% of its maximum activity at pH 7.2 and so has significant activity at physiological pH. The protease is calcium-dependent and indirect evidence suggests that it may contain zinc at its active center. It occurs largely in a latent form that can be activated by aminophenylmercuric acetate. The apparent Mr of the latent form is 55,000 and of the active form, 35,000. The isoelectric point is at pH 4.9. The protease activity is inhibited by chelators, Z-phenylalanine, ovostatin, and tissue inhibitor of metalloproteinase from human articular cartilage. It differs from metalloproteinases such as enkephalinase and kidney brush-border protease in its failure to be strongly inhibited by phosphoramidon and Zincov. It cleaves the proteoglycan monomer of bovine nasal cartilage to fragments of approximately 140,000 Da. It cleaves the B chain of insulin at Ala14-Leu15 and Tyr16-Leu17. A survey of 26 cartilage extracts indicates this enzyme is elevated to about 3 times the normal level in human osteoarthritic cartilage and that the tissue inhibitor of metalloproteinase is only slightly diminished. Preliminary evidence points to the presence of a similar acid metalloprotease activity in human polymorphonuclear leukocytes.  相似文献   

2.
Pig articular cartilage was maintained in culture for 3 days with and without porcine interleukin 1. The proteoglycans remaining in the cartilage and those released into the medium were analysed by using radioimmunoassays for the hyaluronate-binding region, link protein and keratan sulphate. In interleukin 1-treated cultures after 3 days there was 38% release of total glycosaminoglycans into the medium, 18% release of binding region, 14% release of link protein and 20% release of keratan sulphate epitope, whereas in control cultures the proportions released were much less (16, 9, 10 and 7% respectively). Characterization of the proteoglycans in the media after 1.5 days and 3 days of culture showed that interleukin 1 promoted the release of proteoglycan of large average size and also the release of link protein and of low-Mr binding region which was unattached to proteoglycan. Both the link protein and binding region released were able to bind to exogenously added hyaluronate, whereas the proteoglycan in the medium was not. The proteoglycans extracted from cultured cartilage were similar to those from fresh cartilage: they contained a high proportion of aggregating proteoglycans and some low-Mr binding region. The proportion of this binding region extracted from the interleukin 1-treated cartilage was increased. The presence of interleukin 1 in the cultures therefore appeared to increase the rate of proteolytic degradation of proteoglycan in the matrix and to lead to a more rapid loss of intact binding region, of link protein and of large proteoglycan fragments into the medium.  相似文献   

3.
Cartilage proteoglycan aggregates were subjected to degradation by a metalloproteinase, capable of degrading proteoglycan, released from cartilage in culture. This proteinase was demonstrated to be immunologically identical with fibroblast stromelysin. An early release of hyaluronic acid-binding region and large glycosaminoglycan-attachment regions was observed. With increasing time the glycosaminoglycan-attachment regions were digested into smaller fragments and the hyaluronic acid-binding regions accumulated. The degradation of link proteins also occurred concomitantly with these events. Link proteins were converted into a component of similar size to that of the smallest native link protein component. N-Terminal sequence analysis of the three human link protein components indicated that they are all derived from the same protein core, which is closely homologous to that of the rat chondrosarcoma link protein. The two larger link proteins (Mr 48,000 and 44,000) contain the same N-terminal sequence, but they differ by the apparent presence of an N-linked oligosaccharide at residue 6 of the largest link protein component. The smallest link protein (Mr 41,000), however, has an N-terminal sequence equivalent to that commencing at residue 17 in the larger link proteins. It was found that the cartilage metalloproteinase cleaves link proteins in human neonatal cartilage proteoglycan aggregates at the His-16-Ile-17 bond, the same position at which the smallest link protein component appears to be derived naturally from the two larger link protein components. These results suggest that stromelysin secreted by chondrocytes can account for the increased accumulation of hyaluronic acid-binding regions and much of the degradation of link protein observed during aging within human articular cartilage.  相似文献   

4.
In order to elucidate the mechanism of cartilage degradation in osteoarthritis (OA), we established a cell assay system. Under the stimulation of all-trans retinoic acid (ATRA), the human chondrosarcoma cell line HCS-2/8 increased proteoglycan release from inactivated bovine nasal cartilage (BNC) and the results suggested the involvement of membrane-bound metalloproteinase(s). Therefore, we focused on the induction of a disintegrin and metalloproteinase (ADAM) superfamily upon ATRA stimulation. Of all ADAMs tested, only ADAM28 was induced by ATRA in HCS-2/8 cells and also in human primary chondrocytes. We found that transfection of ADAM28 or its alternatively spliced soluble form augmented proteoglycan release in the cell assay; however, a mutant soluble form in which a portion of the disintegrin domain was deleted did not have proteoglycan-releasing activity, implying the importance of the domain for enzyme localization and substrate recognition for cartilage degradation in OA.  相似文献   

5.
Human articular chondrocytes in monolayer culture and fragments of human articular cartilage were treated with recombinant human interferon gamma (IFN-gamma) both alone and in combination with interleukin 1 (IL-1). IFN-gamma alone inhibits metalloproteinase production, as measured in the caseinase assay, and decreases glycosaminoglycan release from cartilage fragments in culture. The synthesis of DNA, as measured by [3H]thymidine incorporation, is stimulated by IFN-gamma. Similar effects are seen in the presence of IL-1. Thus, IFN-gamma opposes the stimulatory effect of IL-1 on caseinase production and decreases IL-1-stimulated cartilage degradation, as measured by glycosaminoglycan release. In contrast, IFN-gamma has no effect on IL-1-stimulated prostaglandin production, and acts synergistically with IL-1 to cause a large stimulation of DNA synthesis. These results show that IFN-gamma has a number of effects on articular chondrocytes in-vitro and suggest a possible role for IFN-gamma in limiting cartilage degradation in inflammatory joint conditions.  相似文献   

6.
Retinoic acid (RetA) and interleukin-1alpha (IL-1) together can induce a reproducible release of proteoglycan fragments from bovine nasal cartilage in culture. However, release of collagen fragments with either agent alone is often variable. In this study over 70% of the total collagen was released from bovine nasal cartilage in culture by day 14 when RetA and IL-1 were combined. This release was accompanied by the appearance of collagenolytic activity in the culture medium that cleaved collagen specifically at the (1/4)/(3/4) position. Tissue inhibitor of metalloproteinases (TIMP) activity was present at day 7 but low or absent in media from resorbing tissue at day 14. The breakdown of cartilage collagen could be prevented by the addition of BB-94, a specific metalloproteinase inhibitor. These results suggest that RetA promotes the early release of TIMP from the tissue and that IL-1 stimulates pro-collagenase secretion which, when activated, exceeds the local concentration of TIMP. Thus in the later stages of culture collagen destruction occurs. Both MMP-1 and MMP-13 were detected and appear to be involved in IL-1 + RetA induced bovine cartilage destruction. However, for the first time, we also present evidence to suggest that MMP-13 is the predominant collagenase in this system.  相似文献   

7.
We show that purified human transforming growth factor-beta (1-10ng/ml) inhibits interleukin 1-stimulated loss of proteoglycan from cartilage in vitro. Inhibition is incomplete, as interleukin 1 retains the ability to cause a dose dependent stimulation of proteoglycan release in the presence of high levels of transforming growth factor-beta (100ng/ml) although both basal and interleukin 1-stimulated levels can be reduced by up to 50 per cent. This observation, together with its ability to stimulate proteoglycan synthesis and to stimulate proteinase inhibitor production, suggests a possible role for transforming growth factor-beta in limiting cartilage proteoglycan loss in inflammatory conditions such as rheumatoid arthritis.  相似文献   

8.
Human articular cartilage contains very low levels of metalloprotease activity; the activity in 1 g of cartilage is approximately equivalent to the activity of 1 microgram of trypsin. Development of a sensitive assay, based on the digestion of radioactive proteoglycan, has made it possible to study protease activity in 1-2-g specimens of cartilage. Cartilage was extracted with Tris buffer in the cold and with Tris buffer containing 10 mM CaCl2 at 60 degrees C. The extracts were passed through Sepharose 6B; two major and two minor metalloprotease activities were detected. A neutral metalloprotease activity, pH optimum 7.4, was found as a latent form of Mr = 56,000. It could be activated with aminophenylmercuric acetate or trypsin with a resultant decrease of Mr to 40,000. An acid metalloprotease, pH optimum 5.3, also occurred as a latent form of Mr = 50,000. Activation converted this to Mr = 35,000. Removal of calcium ions by dialysis reduced the activity of the neutral enzyme by 80-85% and of the acid enzyme by 100%. Both activities were restored by 10 mM Ca2+. Both enzymes were completely inhibited by 1 mM o-phenanthroline in the presence of excess calcium. This inhibition was overcome by 1 mM Zn2+ and, to a lesser extent, by Co2+. These proteases may be important in the metabolism of the cartilage matrix and in its destruction in osteoarthritis.  相似文献   

9.
1. Homogenates of rat uteri removed 1 and 2 days post partum were centrifuged at 6000 g. Both pellets and supernatants degraded Azocoll, a general proteinase substrate, at pH 7.5. More than 80% of the total activity was in the pellet fraction. 2. Part of the pellet activity was in a latent form. Trypsin and 4-aminophenylmercuric acetate (a thiol-blocking agent) both activated this latent form, indicating that it is an enzyme--inhibitor complex. An endogenous serine proteinase activated part of the latent enzyme during the assay. 3. The enzyme activity was low before parturition and after involution; it was highest during the first 2 days post partum, when the largest losses of uterine wet weight and matrix macromolecules occur. 4. Up to 70% of the enzyme in the pellets was extracted by heating at 60 degrees C for 4 min in 0.1 M-CaCl2/0.05 M-Tris/HCl, pH 7.5. Approx. 30% of the extracted enzyme was still latent. 5. The extracted enzyme was a metalloproteinase, since it was inhibited completely by 1,10-phenanthroline, but not by inhibitors of thiol or serine proteinases. 6. The enzyme was further purified 15--30-fold by gel chromatography and precipitation with (NH4)2SO4. The apparent molecular weight, estimated by gel filtration, was 24000 for the latent form and 12000 for the active form. The pH optimum was 7--7.5. 7. The enzyme also degraded cartilage proteoglycan. This activity was studied by viscometry and the products were analysed by analytical ultracentrifugation. The major product had a mol.wt. of approx. 100000. The sites of cleavage were in the protein core, since no free oligosaccharides were detected. 8. This neutral metalloproteinase is distinct from uterine collagenase and from a uterine metal-dependent endopeptidase that hydrolyses a heptapeptide related to collagen.  相似文献   

10.
A Mr 95,000 matrix metalloproteinase (MMP) produced by rat mammary carcinoma cells has been isolated and characterized. The MMP was secreted in a proteolytically inactive form that was free from bound tissue inhibitor of metalloproteinases. The enzyme was highly glycosylated as evident from an apparent drop of Mr from 95,000 to 83,000 after treatment with N-glycanase. Rotary shadowing electron micrographs of purified proenzyme preparations revealed a uniform set of ellipsoidal molecules. Treatment of the proenzyme with 1% SDS resulted in generation of catalytic activity and exposed a cryptic unpaired Cys residue. The latent proenzyme may be activated in at least three additional ways: either spontaneously upon storage, by treatment with organomercurials, or by limited proteolysis by trypsin. Each mode of activation yielded a distinct pattern of cleavage of the enzyme. The activated enzyme cleaved gelatin (denatured type I collagen) and native type IV and V collagen at 30-37 degrees C. Noncollagenous proteins including alpha 1-proteinase inhibitor, casein, and fibrinogen also were cleaved. The rat mammary carcinoma cell line that produces the Mr 95,000 MMP is composed of two distinct (epithelial- and myoepithelial-like) cell types. The enzyme is expressed constitutively by the epithelial cells. This suggests that expression of the Mr 95,000 MMP is regulated differently from that of interstitial collagenase, which is produced by the epithelial cells only in response to specific inductive factor(s) from the myoepithelial-like cells. Monoclonal antibodies raised against the purified latent Mr 95,000 form of the enzyme bind specifically to the Mr 95,000 MMP and have been used to localize the enzyme to the Golgi region and cytoplasmic granules of the epithelial cells.  相似文献   

11.
The metalloproteinase 'gelatinase' stored in the granules of pig polymorphonuclear leucocytes has been purified in the latent form. The enzyme is secreted as an Mr 97,000 proenzyme that can be activated in the presence of 4-aminophenylmercuric acetate (APMA) by self-cleavage to generate lower-Mr species, of which an Mr 88,000 form was the most active. Trypsin-initiated activation generated different Mr gelatinases of much lower specific activity. Activation was slowed but not prevented by the presence of the tissue inhibitor of metalloproteinases, TIMP. The activated gelatinase formed a stable complex (Mr 144,000) with TIMP, in a Zn2+- and Ca2+-dependent manner, and complex formation was inhibited by the presence of the substrate gelatin. Similar to the human granulocyte gelatinase, the organomercurial-activated pig enzyme degraded gelatin and TCA and TCB fragments of type I collagen, as well as elastin and types IV and V collagen. The degradation of type IV collagen was shown, both by polyacrylamide-gel electrophoresis and by electron microscopic analysis, to generate 3/4 and 1/4 fragments as described for mouse tumour type IV collagenase. Furthermore, an antiserum raised to mouse type IV collagenase recognized the pig granulocyte gelatinase. An antiserum to the pig polymorphonuclear leucocyte gelatinase recognized other high-Mr gelatinases, including those from human granulocytes, pig monocytes and rabbit connective tissue cells, but not the Mr 72,000 enzyme from connective tissue cells. These data suggest that there are two distinct major forms of gelatinolytic activity that also cause specific cleavage of type IV collagen. These enzymes are associated with a wide variety of normal connective tissue and haemopoietic cells, as well as many tumour cells.  相似文献   

12.
A metalloproteinase similar or identical to stromelysin was shown to co-purify with interstitial collagenase from the rat mammary carcinoma cell line, BC1. The mixture of BC1 metalloproteinase and collagenase degraded casein, gelatin, fibronectin, fibrinogen, laminin, proteoglycan and type IV collagen, in addition to types I and II collagen. Using SDS-PAGE and zymography, the Mr of both enzymes was 51.10(3). During storage, the 51.10(3) protein converted to fragments of Mr 34.10(3) and 24.10(3), and isoelectric points of 4.6-5.3 and 5.7-6.0, respectively. The fragments were separated from the intact (Mr 51.10(3) enzymes by DEAE-Sepharose chromatography, but intact metalloproteinase and collagenase activities resisted separation by a range of chromatographic methods. The Mr 34.10(3) fragment retained the proteinolytic activities of the intact enzymes, excepting collagenase cleavage of collagen types I and II. The Mr 24.10(3) fragment had no proteinolytic activity, showed an increase in Mr of 6.10(3) upon reduction, in common with the intact enzymes, and also had similar chromatographic properties to the intact enzymes. The data presented are consistent with a pattern of breakdown which is common to both collagenase and the metalloproteinase, and suggest that both enzymes are comprised of two protein domains.  相似文献   

13.
The degradative actions of cathepsins L and B on human articular-cartilage proteoglycan aggregates were examined. Cathepsin L was found to be much more extensive than cathepsin B in degrading proteoglycan aggregates. It released products with size similar to that of single chondroitin sulphate chains, and a series of degraded link-protein fragments in the digestion mixtures. These proteolytically modified link-protein components (Mr 25,000 and 33,000) have similar Mr values to those of fragments observed in adult human cartilage. In contrast, cathepsin B exhibited a much more limited degradation on both proteoglycan subunits and link-protein components. Both cathepsins L and B generate multiple but distinct cleavage sites on human link proteins, and the hydrolysed bonds have been identified in the region between residues 18 and 29. Protein sequencing analysis of these modified link-protein components also provided evidence for the location of a second N-linked glycosylation site at residue 41 in human link proteins, in addition to that previously described at residue 6 on a proportion of the link proteins. Furthermore, it allows us to report the sequence of human link protein up to residue 65.  相似文献   

14.
1. The destruction of articular cartilage in human rheumatoid and other arthritides is the result of diverse mechanical, inflammatory and local cellular factors. A tissue-culture model for studying cartilage-synovial interactions that may be involved in the final common pathway of joint destruction is described. 2. Matrix breakdown was studied in vitro by using bovine nasal-cartilage discs cultivated in contact with synovium. Synovia were obtained from human and animal sources. Human tissue came from patients with ;classical' rheumatoid arthritis, and animal tissue from rabbits with antigen-induced arthritis. 3. Cartilage discs increased their proteoglycan content 2-3-fold during 8 days in culture. Proteoglycan was also released into culture medium, approx. 70% arising from cartilage breakdown. 4. Synovial explants from human rheumatoid and rabbit antigen-induced arthritis produced equivalent stimulation of proteoglycan release. After an initial lag phase, the breakdown rate rose abruptly to a maximum, resulting in a 2-fold increase of proteoglycan accumulation in culture medium after 8-10 days. 5. High-molecular-weight products shed into culture media were characterized chromatographically and by differential enzymic digestion. Proteoglycan-chondroitin sulphate accounted for 90% of the released polyanion, and its partial degradation in the presence of synovial explants was consistent with limited proteolytic cleavage. 6. Rheumatoid synovium applied to dead cartilage increased the basal rate of proteoglycan release. Living cartilage was capable of more extensive autolysis, even in the absence of synovium. However, optimal proteoglycan release required the interaction of living synovium with live cartilage. These findings support the view that a significant component of cartilage breakdown may be chondrocyte-mediated.  相似文献   

15.
An endoglycosidase is described in isolated liver plasma membranes that brings about a rapid and selective degradation of membrane-associated heparan sulphate, pre-labelled biosynthetically with Na2(35)SO4. The enzyme attacked mainly the polysaccharide chains of a hydrophobic membrane proteoglycan and it had little effect on a proteoglycan that could be displaced from the membranes with 1.0 M-NaCl. The highest activity was measured in the pH range 7.5-8.0, and the enzyme was almost completely inhibited below pH 5.5. Breakdown of susceptible polysaccharide chains was fast, being complete in 20-30 min. The major oligosaccharide fraction (Mr approx. 6000) produced by the enzyme was considerably smaller than the intact heparan sulphate chains. Enzyme activity was retained in membranes solubilized in 1% (v/v) Triton X-100. The high pH optimum and plasma-membrane association distinguish this enzyme from other heparan sulphate-degrading endoglycosidases that have acid pH optima and may be of lysosomal origin. A plasma-membrane endoglycosidase could modulate cellular interactions mediated by heparan sulphate, and/or release biologically active fragments of the polysaccharide from the cell periphery.  相似文献   

16.
Adult human articular cartilage contains a hyaluronic acid-binding protein of Mr 60 000-75 000, which contains disulphide bonds essential for this interaction. The molecule can compete with proteoglycan subunits for binding sites on hyaluronic acid, and can also displace proteoglycan subunits from hyaluronic acid if their interaction is not stabilized by the presence of link proteins. The abundance of this protein in the adult accounts for the reported inability to prepare high-buoyant-density proteoglycan aggregates from extracts of adult human cartilage [Roughley, White, Poole & Mort (1984) Biochem. J. 221, 637-644], whereas the deficiency of the protein in newborn human cartilage allows the normal recovery of proteoglycan aggregates from this tissue. The protein shares many common features with a hyaluronic acid-binding region derived by proteolytic treatment of a proteoglycan aggregate preparation, and this may also represent its origin in the cartilage, with its production increasing during tissue maturation.  相似文献   

17.
Elevated fibronectin (Fn) and Fn fragment concentrations are found in the synovial fluid of osteoarthritic and rheumatoid arthritic patients. Fn has been shown to affect expression of chondrocytic matrix proteins, and Fn fragments have been shown to elevate gene expression of neutral proteinases in synoviocytes. For these reasons, we tested the effects of Fn fragments on protease release and resultant proteoglycan release from cartilage in serum-free bovine articular cartilage explant cultures. We have found that 1 microM amino-terminal 29- and 50-kDa gelatin-binding Fn fragments caused over a 50-fold enhancement of gelatinolytic and collagenolytic proteinase release with a 23-fold enhancement of proteoglycan (PG) release. Release was significant at fragment concentrations as low as 20 nM. An integrin-binding 140-kDa fragment mixture was the least active fragment, whereas native Fn had little activity. The relative activities of the fragments correlated with their relative abilities to bind to cartilage. The RGDS integrin-recognition peptide also caused release, although sequence mutants did not. PG release was blocked by actinomycin D, cycloheximide, and deoxyglucose. Fn fragment-mediated PG release was decreased in 10% serum by over 10-fold but was still 2-fold greater than in controls. In the presence of insulin-like growth factor-1, PG release was as great as without serum. We suggest that Fn fragments, as found in diseased synovial fluid, may contribute to protease-mediated damage to cartilage.  相似文献   

18.
A neutral proteinase, capable of degrading gelatin, has been found in both an active and a latent form in the medium from the culture of rat mesangial cells. The latent form had an Mr of 80,000-100,000 and could be activated with either 4-aminophenylmercuric acetate or prolonged incubation at neutral pH. The active form of the enzyme was extensively purified. The estimated Mr of the purified enzyme on gel filtration was approximately 200,000, indicating that the active enzyme formed aggregates. However, analysis by SDS/polyacrylamide-gel electrophoresis under reducing conditions showed two protein bands, with Mr 68,000 and 66,000. Both proteins were found to contain proteolytic activity when run on SDS/substrate gels. The enzyme was inhibited by EDTA and 1,10-phenanthroline, but not by inhibitors for cysteine, serine or aspartic proteinases. The enzyme did not digest fibronectin, bovine serum albumin, proteoglycan or interstitial collagen. The enzyme degraded pepsin-solubilized placental type V collagen at 31 degrees C, whereas similarly solubilized type IV collagen was only degraded at higher temperatures. In addition, the neutral proteinase degraded native soluble type IV collagen. It also had activity on insoluble type IV collagen of glomerular basement membrane. The above properties suggest that the mesangial neutral proteinase belongs to the gelatinase group of metalloproteinases and that it may play a role in the normal turnover of extracellular glomerular matrix.  相似文献   

19.
Metalloproteinase inhibitors were surveyed with the culture media of 19 kinds of human tumor cell lines, using transin (rat stromelysin) as the target enzyme. This survey showed that most of the cell lines more or less secreted inhibitor activity, and that a human hepatoma cell line, HLE, secreted an extremely high inhibitor activity into the culture medium. Two kinds of metalloproteinase inhibitors were purified from the serum-free conditioned medium of HLE cells. The major inhibitor, which showed a single protein band with a molecular weight (Mr) of 21,000 (21k) (nonreduced) or 24k (reduced) on SDS-polyacrylamide gel electrophoresis, was identified as TIMP-2 (tissue inhibitor of metalloproteinases-2) by the analysis of its N-terminal amino acid sequence. The other was immunologically identified as TIMP. Purified TIMP-2 inhibited the activities of transin, matrin (pump-1), Mr 72k gelatinase, and interstitial collagenase with 1:1 stoichiometry. When the latent precursor form (Mr 57k) of transin was incubated with p-aminophenylmercuric acetate as an activating reagent, TIMP-2 inhibited the conversion of the intermediate form (Mr 45k) into the mature enzyme (Mr 42k). This indicated that TIMP-2 regulates not only the activity of the mature enzyme but also the autolytic processing of the proenzyme. TIMP-2 also inhibited in vitro tumor invasion through reconstituted basement membrane (matrigel) in chemotaxis chambers, showing that the metalloproteinase inhibitors as well as the extracellular matrix metalloproteinases are involved in tumor invasion through basement membrane and other extracellular matrices.  相似文献   

20.
Human rheumatoid synovial cells in culture stimulated with the conditioned culture medium of rabbit macrophages secrete three distinct latent metalloproteinases. One of them, a proteinase that digests proteoglycan and other connective tissue matrix components, was purified as two active forms after activation with 4-aminophenylmercuric acetate. The two forms were homogeneous on sodium dodecyl sulfate-gel electrophoresis with Mr = 45,000 and Mr = 28,000, whereas the latent precursor was estimated to have Mr = 51,000 by gel permeation chromatography. Both active enzymes had optimal activity at pH 7.5-7.8 and were inhibited by EDTA and 1,10-phenanthroline but not by inhibitors for cysteine, serine, or aspartic proteinases. Removal of Ca2+ from the enzyme solution resulted in a complete loss of activity that could be fully restored by the addition of 1 mM Ca2+. The activity of the apoenzyme was restored by the addition of 0.5 mM Zn2+, 5 mM Co2+, or 5 mM Mn2+ in the presence of Ca2+ but not by each metal ion alone. The identical digestion patterns of reduced, carboxymethylated protein substrates indicated that both active forms of the enzyme have the same substrate specificity. The enzyme degraded cartilage proteoglycans, type I gelatin, type IV collagen, laminin, and fibronectin, and removed the NH2-terminal propeptides from chick type I procollagen. This enzyme may play a role in the normal turnover of the connective tissue matrix as well as in the joint destruction of chronic synovitis.  相似文献   

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