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)

Progressive renal fibrosis is considered to be the final common pathway leading to chronic renal insufficiency. In this study, the authors examined some of the cellular and molecular mechanisms regulating the renal accumulation of extracellular matrix (ECM) proteins using rats with puromycin amino-nucleoside (PAN) nephrosis as an acute model system. Puromycin aminonucleoside rats developed reversible nephrotic syndrome accompanied by an interstitial infiltrate of monocytes. The number of interstitial fibroblasts expressing ST4 antigen did not increase. During the first 4 days, steady-state mRNA levels for all genes examined remained at or below control levels. At 1 week, nephrotic syndrome and interstitial inflammation were established, and a period of renal cell proliferation occurred, identified by increased histone mRNA levels and localized by tritiated thymine autoradiography to tubular epithelial cells and occasional interstitial cells. Transforming growth factor-beta (TGF-beta) steady-state mRNA levels were increased eightfold, but returned to control levels by 3 weeks. At week 1, there was a 10- to 20-fold increase in kidney steady-state mRNA levels for genes encoding interstitial matrix proteins collagen I and fibronectin and basement membrane collagen IV. By in situ hybridization, alpha 1(I) procollagen mRNA was localized to interstitial cells. Immunofluorescence microscopy demonstrated focal accumulation of ECM proteins in the tubulointerstitial compartment at 2 and 3 weeks, but by 6 weeks, kidney immunohistology was normal again. Steady-state mRNA levels for the matrix degrading metalloproteinase stromelysin remained at control values, whereas the levels for interstitial collagenase were normal at week 1 and increased twofold to threefold at 2 and 3 weeks. Steady-state mRNA levels for the tissue inhibitor of metalloproteinases (TIMP) increased fivefold at 1 week and returned to baseline values over the next 2 weeks. The results of this study suggest that tubulointerstitial ECM accumulation occurs in rats with acute PAN nephrosis because of the activation of genes encoding several matrix proteins and inhibition of matrix degradation mediated by TIMP. These events are reversed during the phase of recovery from nephrotic syndrome. Increased mRNA levels for TGF-beta, possibly originating from inflammatory interstitial monocytes, are likely to be one of the mediators of the molecular events observed.
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PMID:Renal extracellular matrix accumulation in acute puromycin aminonucleoside nephrosis in rats. 128 19

An appropriate balance of matrix synthesis and degradation is required for normal morphogenesis and maintenance of tissue architecture. Extracellular matrix molecules and their receptors, as well as proteinases and their inhibitors, are all involved in matrix remodeling. This report examines the idea that extracellular matrix receptors can regulate matrix remodeling. Rabbit synovial fibroblasts and human embryonic lung fibroblasts (MRC-5) were cultured under two sets of conditions. First, they were plated in serum and allowed to establish an extracellular matrix over a 48 h period. Rat monoclonal antibody to the alpha 5/beta 1 integrin fibronectin receptor or normal rat IgG was added to the medium and the expression of the metalloproteinases was examined. Cells treated with anti-alpha 5/beta 1 expressed procollagenase and prostromelysin, whereas the control cells did not. In both cases the cells were well spread and maintained a well-organized cytoskeleton. In the second condition, cells were plated in serum-free medium on intact fibronectin, anti-alpha 5/beta 1, or fragments of fibronectin that contained the cell-binding domain. Cells attached and spread on all these substrates in a fibronectin receptor-dependent manner. They expressed collagenase and stromelysin on anti-alpha 5/beta 1 and on several fibronectin fragments, but not on intact fibronectin. These data support the hypothesis that the fibronectin receptor can exist in more than one functional state and that these functional states provide information that influences gene expression. Adhesion and spreading are supported by all states, whereas only a subset permits collagenase and stromelysin expression.
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PMID:Signal transduction via the fibronectin receptor: do integrins regulate matrix remodeling? 128 60

We established two cell lines of human smooth muscle cells (SMC) by transfection of cells from the aortic intima and aortic media with origin-minus simian virus 40 (ori-minus SV40) DNA. Ori-minus SV40 DNA very efficiently immortalized human smooth muscle cells in culture. Proteins that these cell lines produced included type I, III, IV, and V collagens, fibronectin, and human matrix metalloproteinases (MMP)-1 (tissue collagenase), -2 ("type IV collagenase"), and -3 (stromelysin). The protein production in these cell lines generally mimicked that of normal SMC, but the immortalization stimulated the cell line of medial SMC to produce excessive MMP-2 and to secrete MMP-9 (92-kDa gelatinase). However, since these cell lines did not show a fully malignant phenotype, we concluded that, in addition to the degradation of extracellular matrix macromolecules, including basement membrane components by MMP-2, -3, and/or -9, some additional factors must be involved for the malignancy of fully transformed cells and that these immortalized human aortic SMC, which share many characteristics with normal SMC, will prove useful to study the role(s) of metalloproteinases in atherosclerosis.
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PMID:Immortalization of human aortic smooth muscle cells with origin-minus simian virus 40 DNA. 133 71

The interstitial collagenase gene (CLG), one of the main candidates in severe generalized recessive epidermolysis bullosa dystrophica (SGREBD), is closely linked to the stromelysin-1 (STMY1) and stromelysin-2 (STMY2) genes. These three loci map on chromosome 11 (q21-q22.3), where they constitute a cluster of genes coding for metalloproteinases involved in the degradation of the extracellular matrix (ECM). A recessive form of cerebellar ataxia of post-puberal onset (CLA1) has also been assigned to chromosome 11 (q14-q21). Since useful restriction fragment length polymorphisms (RFLPs) for the CLG gene are not available, we have studied the inheritance of the marker TaqI RFLP of the STMY1 gene in a North Italian family with a child affected by SGREBD, and his two sisters showing cerebellar ataxia (CA) of post-puberal onset. We have also studied the MspI RFLP of the fibronectin gene (FN1), which is located on chromosome 2q34-q36, and which codes for non-collagenous matrix proteins. Since we did not observe the segregation of the pathological phenotypes with STMY1 and FN1 RFLPs, we excluded the involvement of these genes in both the SGREBD and CA present in this family. The exclusion of the STMY1 gene indicates that the mutation causing SGREBD cannot be located in the CLG and/or STMY2 genes because of their proximity to the STMY1 locus. These data also indicate that the CA form here reported is not attributable to alterations in regions close to the collagenase cluster on chromosome 11.
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PMID:Exclusion of stromelysin-1, stromelysin-2, interstitial collagenase and fibronectin genes as the mutant loci in a family with recessive epidermolysis bullosa dystrophica and a form of cerebellar ataxia. 135 52

We have identified and characterized a calcium-dependent metalloproteinase which is induced in rat pheochromocytoma cells (PC12 cells) during differentiation with nerve growth factor (NGF). Assays of proteolytic activity in media from differentiated PC12 cell cultures revealed a NGF-dependent increase in the activity of a proteinase which has a molecular weight of 62 kDa. Studies using serine, thiol, and metalloproteinase inhibitors demonstrated that the secreted enzyme is a metalloproteinase. Treatment of culture supernatants with aminophenylmercuric acid (APMA), a known activator of metalloproteinases, resulted in a decrease in the molecular weight of the proteinase. Western blot analysis of culture media from NGF-treated PC12 cells using an antibody directed against a synthetic peptide of rat transin identified this metalloproteinase as transin. Treatment of PC12 cells with acidic and basic fibroblast growth factor (FGF) resulted in distinct morphological changes as well as transin release. Incubation with epidermal growth factor (EGF) did not induce transin release. Dexamethasone inhibited the induction of transin release by NGF. 35S-methionine labeling and immunoprecipitation of newly synthesized proteins from culture supernatants confirmed that NGF induced the synthesis of this enzyme 8 hr after NGF treatment. The NGF-dependent induction of transin, a calcium-dependent metalloproteinase which degrades type IV collagen, laminin, and fibronectin suggests that transin may function to degrade the surrounding extracellular matrix during the invasive process of axonal elongation in neuronal development thereby allowing the movement of growth cones and axons toward specific targets.
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PMID:Differentiation of PC12 cells with nerve growth factor is associated with induction of transin synthesis and release. 137 77

A recognized model of tumor invasion requires cells to adhere to epithelial basement membrane and extracellular matrix components triggering release of proteases thus allowing cancer cells to invade the substrate. This adhesion is mediated by beta 1 integrins, a family of receptors to substrates such as collagen, laminin, and fibronectin. In order to study tumor invasion in follicular thyroid cancer (FTC), we used cell lines derived from a single patient's FTC primary tumor (FTC-133), neck lymph node metastases (FTC-236), and lung metastases (FTC-238). In vitro invasion as determined by the ability of the tumor cells to penetrate Matrigel was assessed by scanning electron microscopy. FTC-133 did not invade, FTC-236 was moderately invasive, and FTC-238 was highly invasive. Immunoprecipation with a monoclonal antibody to beta 1 integrin subunits and SDS-PAGE showed increased synthesis and flow cytometry showed increased expression of this subunit in FTC-236 and FTC-238 compared to FTC-133. Proteolytic activity was assessed by gelatin zymography. FTC-238 cell extract and conditioned media exhibited a more complex array of proteases consistent with activated type I collagenase and stromelysin compared to the less invasive clones, however 72 and 92 kd gelatinases consistent with type IV collagenases were present in the conditioned media from all three lines. In conclusion, in vitro invasion parallels in vivo metastasis by the source cells in the FTC-133/236/238 cell-lines. The ability to invade basement membrane preparation correlates with increased synthesis and expression of beta 1 integrins and activation of tumor proteases.
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PMID:Invasion by cultured human follicular thyroid cancer correlates with increased beta 1 integrins and production of proteases. 138 45

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

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 extracellular matrix (ECM) of articular cartilage is subject to a steady remodelling process. The collagenous components of the ECM are characterized by a very low rate of metabolism, whereas the proteoglycans exhibit an active turnover. The main proteolytic enzymes degrading the ECM components are collagenase, gelatinase and stromelysin. These enzymes undergo under pathological circumstances a remarkable enhancement of synthesis and activity. Although each of these enzymes appears to degrade one ECM component specifically, there is evidence for synergistic effects of most of them. Gelatinase acts synergistically with collagenase in degrading insoluble interstitial collagens and stromelysin activates collagenase. Thus a cascade mechanism may exist in which the cartilage-ECM is completely degraded. Yet, it is not crucial which part of the ECM (collagens or proteoglycans) is primarily degraded. The integrity of the ECM rather depends on the balance between anabolic and catabolic processes, the upset of which results in damage of the articular cartilage. Cartilage destruction in rheumatoid arthritis and osteoarthritis is considered to be a result of this imbalance in favour of the catabolic processes. This would lead to a decrease in proteoglycans which causes fibronectin deposition in the cartilage ECM. Due to chemotaxic effects of fibronectin on fibroblasts, the enrichment of this glycoprotein in the ECM gives rise to cartilage fibrosis and early degeneration.
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PMID:[Proteolytic enzymes and the destruction of articular cartilage in arthritis and chronic polyarthritis]. 164 88


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