Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.17 (MMP-3)
3,419 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The tissue inhibitor of metalloproteinases (TIMP, M(r) 30,000) is secreted by many cell and tissue types and has been shown to inhibit most secreted mammalian metalloproteinases. In matrix and tissue invasion assays, the inactivation or removal of TIMP enhances invasiveness. However, many of the cells that secrete TIMP also secrete other metalloproteinase inhibitors. By analysis of medium conditioned by various endothelial, mesenchymal, and neural cells on SDS-.substrate-polyacrylamide-inhibitor gels (reverse zymograms), we have detected at least three other distinct inhibitors of metalloproteinases (IMPs). Some or all of these IMPs have been detected in secretions of mouse, rabbit, sheep, and human cells and are all smaller in apparent molecular size than TIMP (IMP-1, M(r) 26,000; IMP-2, M(r) 21,000; IMP-3, M(r) 18,000). These IMPs are not proteolytic degradation products of TIMP nor do they represent nonglycosylated TIMP. The IMPs do not cross-react in the native or denatured state with any of several anti-TIMP antibodies. The IMPs appear to be regulated independently of each other and of TIMP. In vitro, the complex consisting of one of the IMPs, or TIMP, and a metalloproteinase can be dissociated into functional inhibitor and metalloproteinase. Whether this characteristic is significant in vivo is not known. IMP-2 has been purified from several sources and shares sequence homology with TIMP, suggesting that the IMPs and TIMP may constitute a gene family. The most significant characteristic of IMP-2 is that it appears to preferentially inhibit, on a mole:mole basis, the M(r) 68,000 gelatinase rather than collagenase or stromelysin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Secreted inhibitors of metalloproteinases (IMPs) that are distinct from TIMP. 148 40

Extracellular matrix (ECM) remodeling accompanies cell migration, cell-cell interactions, embryo expansion, uterine implantation and tissue invasion during mammalian embryogenesis. We have found that mouse embryos express mRNA transcripts for collagenase, stromelysin and the tissue inhibitor of metalloproteinases (TIMP) and secrete functional ECM-degrading metalloproteinases, including collagenase and stromelysin. These metalloproteinases are inhibitable by TIMP and are regulated during peri-implantation development and endoderm differentiation. The involvement of a controlled proteolytic reaction, dependent on metalloproteinases, during the implantation of mouse embryos is suggested by the secretion of proteinases by trophoblast during its invasive phase and by the reciprocal expression of TIMP in the maternal deciduum. Exogenous TIMP affects the migration of parietal endoderm cells during blastocyst outgrowth in vitro. Taken together, these data suggest that metalloproteinases function in cell-ECM interactions during mammalian development.
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PMID:Expression and function of matrix metalloproteinases in development. 148 58

Inflammation of the periodontium leads to connective tissue degradation and eventual tooth loss. The regulation of matrix metalloproteinases (MMPs) has been studied to determine their role in these processes and also during tissue remodelling. Analysis of gingival crevicular fluid has revealed the presence of collagenase and gelatinase that, in the acute stages of periodontal disease, are derived predominantly from polymorphonuclear leukocytes. These MMPs appear to be intimately associated with tissue destruction since the levels of the active forms of these enzymes obtained from either crevicular fluid or mouthrinse samples correlate with tissue destruction and, therefore, provide a sensitive means of demonstrating disease activity. Transforming growth factor-beta, an important regulator of connective tissue remodelling, has been implicated in the rapid remodelling of periodontal tissues. TGF-beta promotes tissue matrix formation by stimulating both the synthesis of matrix proteins (collagen, fibronectin and SPARC) and proteinase inhibitors (TIMP, PAI-1) and by decreasing the synthesis of MMPs, but not the 72 kDa-gelatinase. Nuclear run-on analyses have shown that TGF-beta reduces collagenase and stromelysin synthesis by suppressing gene transcription without altering mRNA stabilities. In contrast, the transcription of the gelatinase and TIMP genes was increased by TGF-beta, which also increased gelatinase mRNA stability. Remodelling of alveolar bone involves interaction between osteoblasts and osteoclasts. Osteoblasts, under the influence of osteotropic hormones (vit D3, PTH and retinoic acid), produce MMPs which appear to function in the removal of soft tissue that precludes access of osteoclasts to the mineralized tissue surface. Rat osteoblastic cells produce MMPs with activity on native collagen, native collagen 3/4-fragments and gelatin and, in addition, two forms of TIMP activity. The 3/4-collagen endopeptidase, purified to apparent homogeneity, also has significant collagenase and gelatinase activities and an amino terminal sequence almost identical to human 72 kDa-gelatinase. The production of this enzyme was stimulated by TGF-beta, which suppresses bone resorption, and by osteotropic hormones which stimulate bone resorption, supporting a bifunctional role for the gelatinase in connective tissue remodelling. Although there is strong evidence for the involvement of MMPs in the resorption of bone and in the inflammation-mediated destruction of periodontal tissues, the role of MMPs in the remodelling of mature soft connective tissues remains equivocal.
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PMID:Matrix metalloproteinases in periodontal tissue remodelling. 148 60

Human mononuclear phagocytes have the capacity to participate directly in extracellular matrix turnover via the secretion of neutral proteinases. These neutral proteinases include the serine proteinases, elastase and cathepsin G and the metalloproteinases, interstitial collagenase, 92 kD type IV collagenase, 72 kD type IV collagenase and stromelysin. Mononuclear phagocytes also produce the counter-regulatory metalloproteinase inhibitor, TIMP (tissue inhibitor of metalloproteinases). We have studied the capacity of normal human mononuclear phagocytes and of the human monocytic tumor line U937 to elaborate proteinases and inhibitors. The serine proteinases, elastase and cathepsin G, are present only at the earliest stages of mononuclear phagocyte differentiation (U937 cells in the basal state, freshly isolated peripheral blood monocytes) and are stored within intracellular granules. As human mononuclear phagocytes differentiate (U937 cells exposed to phorbol esters, human monocytes cultured in vitro), the cellular content of these serine proteinases declines rapidly. Accompanying the acquisition of a more differentiated state, the ability for regulated secretion of the neutral metalloproteinases is attained. This capacity is acquired in a sequential manner, with secretion of the 92 kD type IV collagenase observed at earlier states of differentiation while release of stromelysin requires a fully differentiated and LPS (lipopolysaccharide)-stimulated alveolar macrophage. Interstitial collagenase and 72 kD type IV collagenase are synthesized at intermediate stages of differentiation. In comparison to human fibroblasts, human mononuclear phagocytes produce approximately 10-30% of the interstitial collagenase, 10% of the stromelysin and 1-2% of the 72 kD type IV collagenase on a per cell basis. Synthesis of the 92 kD type IV collagenase is restricted to the inflammatory cell (but also occurs in neutrophils and keratinocytes).
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PMID:Neutral proteinase expression by human mononuclear phagocytes: a prominent role of cellular differentiation. 148 61

Stromelysin/Transin is a member of the matrix metalloprotease gene family. This metalloprotease is synthesized as a preproenzyme with a predicted size of 53,977 Da including a 17 amino acid signal peptide. Prostromelysin is secreted from normal and transformed cells in two forms with apparent molecular masses on NaDodSO4 gels of 60 and 58-kDa. The minor 60-kDa species contains N-linked oligosaccharide(s). Stromelysin consists of three domains the amino terminal propeptide(s) domain contains the tribasic amino acid sequence RRK which is important in the proteolytic activation of this zymogen by trypsin-like serine proteases. The second domain consists of the catalytic domain which contains the zinc binding site. The carboxyl-terminal hemopexin domain has no known function and can be removed without a loss of enzymatic activity. Stromelysin has a broad range of substrate specificity including proteoglycans, casein, fibronectin, laminin, native type IV and IX collagen and gelatin but not type I collagen. In the presence of trypsin or plasmin, catalytic amounts of this enzyme can also fully activate interstitial fibroblast collagenase. We have developed a panel of monoclonal antibodies against stromelysin which will be useful for the tissue localization of the various species of this enzyme in tissues. In addition, we have demonstrated that either human rIL-1 (alpha) or rTNF (alpha) can stimulate the expression of this enzyme in cultured bovine articular cartilage at least 10-fold. Based on western blot analysis, the zymogen form of the enzyme was the major enzyme species detected in either the media or cartilage matrix compartments of cytokine treated cultures.
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PMID:Primary structure and function of stromelysin/transin in cartilage matrix turnover. 148 63

Type IV collagenase (gelatinase) is a 70,000 dalton neutral metalloproteinase that specifically cleaves type IV collagen in addition to degrading denatured collagen (gelatin). It is secreted in a latent proenzyme form that is converted proteolytically in the extracellular space to a 62,000 dalton active enzyme. The primary structure, enzymatic properties as well as gene structure, demonstrate that type IV collagenase is closely related with the other well characterized metalloproteinases, interstitial collagenase and stromelysin. However, the structure of type IV collagenase differs from the others in that it is larger and contains three internal repeats that resemble the type II domains of fibronectin. Also, initial characterization of the promoter region of the gene indicates that its regulation differs from the other proteinase genes. Type IV collagenase is presumably required for the normal turnover of basement membranes. Augmented activity is linked with the invasive potential of tumor cells and the enzyme is believed to play a major role in the penetration of basement membranes by metastatic cells. Measurements of enzyme activity and mRNA levels as well as immunostaining of a variety of tumor cells and tissues suggest that assays for the enzyme may have value in the follow-up of malignant growth.
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PMID:70 K type IV collagenase (gelatinase). 148 85

The uterus of the rat contains a small metalloproteinase that digests Azocoll and proteoglycan. The activity of this enzyme is elevated in the postpartum uterus and parallels the rate of breakdown of matrix proteoglycan (Sellers, A. and Woessner, J.F., Jr., Biochem. J. 189: 521, 1980). The enzyme has been purified to homogeneity. Its molecular weight is 28,000 for the latent form of the enzyme and 19,000 for the active form, as determined by SDS/PAGE. The enzyme has no action on collagens of type I, III, IV or V, but it does digest gelatins of these 4 types. Digestion of type I gelatin is most pronounced for the alpha-2 chain, which is cleaved to two major bands. The B chain of insulin is cleaved at Ala14-Leu15 and Tyr16-Leu17. Proteoglycan is degraded, but no action can be detected against elastin. Both zinc and calcium ions are required for activity. Low levels of phosphoramidon or Zincov are not inhibitory. Detailed comparisons with human gelatinase (matrix metalloproteinase 2) and stromelysin (matrix metalloproteinase 3) show that the uterine proteinase has a distinctive pattern of specificity. The properties match those of human Pump-1 as reported by Quantin et al., Biochemistry 28: 5327, 1989. It is proposed to designate this proteinase as matrix metalloproteinase 7.
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PMID:The small matrix metalloproteinase of the rat uterus. 148 88

A polymerase chain reaction (PCR)-based homology cloning strategy was used to define the spectrum of stromelysin-like matrix metalloproteinases (MMPs) synthesized by cultured glomerular mesangial cells (MC). Using this technique, cDNAs encoding an unusual, truncated member of the MMP family, punctuated (putative) metalloproteinase (PUMP-1), were exclusively isolated. Incubation with the cytokines interleukin 1 and tumour necrosis factor increased the abundance of PUMP-1 mRNA in mesangial cells. The mesangial PUMP-1 mRNA is processed in a tissue-specific manner, yielding a transcript containing repeated 3'-untranslated region ATTTA motifs commonly found in cytokines with limited mRNA stability. Polyclonal antibodies prepared against the C-terminal region of the PUMP-1 protein documented release of this enzyme by cultures of cytokine-stimulated MC and permitted identification of PUMP-1-expressing mesangial cells within clinical biopsy specimens of acute glomerulonephritis. These findings represent new molecular and clinical evidence that non-malignant cells process and secrete this unusual member of the MMP family in a cytokine-mediated, tissue-specific manner. Mesangial synthesis of PUMP-1 may contribute to the progression of injury during glomerular inflammatory states.
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PMID:Molecular characterization of a low-molecular-mass matrix metalloproteinase secreted by glomerular mesangial cells as PUMP-1. 149 27

Human cartilage link protein exists as three native components, while equine, bovine, and porcine cartilage link protein exist as two and Swarm rat chondrosarcoma link protein exists as only one component. These nonhuman link protein components represent intact protein structures, and there is little evidence for proteolytically modified forms in nonhuman tissues. In human cartilage, the proteolytic production of modified link proteins increases with age, whereas high amounts of such products were not seen in the nonhuman tissues. However, the small amounts of link protein fragments that were observed in the nonhuman cartilages were of a similar size to their human counterparts. On digestion of human proteoglycan aggregate with stromelysin, rapid modification of the link protein components occurred, whereas the aggregates from nonhuman cartilages showed incomplete cleavage of their link protein components. The relative resistance of nonhuman link protein to stromelysin may in part be due to a unique amino acid substitution present near the enzymic cleave site.
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PMID:Link protein shows species variation in its susceptibility to proteolysis. 150 Sep 76

Extracellular matrix (ECM) plays an important role in the maintenance of mammary epithelial differentiation in culture. We asked whether changes in mouse mammary specific function in vivo correlate with changes in the ECM. We showed, using expression of beta-casein as a marker, that the temporal expression of ECM-degrading proteinases and their inhibitors during lactation and involution are inversely related to functional differentiation. After a lactation period of 9 d, mammary epithelial cells maintained beta-casein expression up to 5 d of involution. Two metalloproteinases, 72-kD gelatinase (and its 62-kD active form), and stromelysin, and a serine proteinase tissue plasminogen activator were detected by day four of involution, and maintained expression until at least day 10. The expression of their inhibitors, the tissue inhibitor of metalloproteinases (TIMP) and plasminogen activator inhibitor-1, preceded the onset of ECM-degrading proteinase expression and was detected by day two of involution, and showed a sharp peak of expression centered on days 4-6 of involution. When involution was accelerated by decreasing lactation to 2 d, there was an accelerated loss of beta-casein expression evident by day four and a shift in expression of ECM-remodeling proteinases and inhibitors to a focus at 2-4 d of involution. To further extend the correlation between mammary-specific function and ECM remodeling we initiated involution by sealing just one gland in an otherwise hormonally sufficient lactating animal. Alveoli in the sealed gland contained casein for at least 7 d after sealing, and closely resembled those in a lactating gland. The relative expression of TIMP in the sealed gland increased, whereas the expression of stromelysin was much lower than that of a hormone-depleted involuting gland, indicating that the higher the ratio of TIMP to ECM-degrading proteinases the slower the process of involution. To test directly the functional role of ECM-degrading proteinases in the loss of tissue-specific function we artificially perturbed the ECM-degrading proteinase-inhibitor ratio in a normally involuting gland by maintaining high concentrations of TIMP protein with the use of surgically implanted slow-release pellets. In a concentration-dependent fashion, involuting mammary glands that received TIMP implants maintained high levels of casein and delayed alveolar regression. These data suggest that the balance of ECM-degrading proteinases and their inhibitors regulates the organization of the basement membrane and the tissue-specific function of the mammary gland.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Coordinated expression of extracellular matrix-degrading proteinases and their inhibitors regulates mammary epithelial function during involution. 151 97


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