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)

Using specific cDNAs isolated from mouse fibroblasts we determined tissue-specific expression of different matrix metalloproteinase genes: both stromelysin-1 and collagenase IV are highly expressed in heart and lung, whereas collagenase I is expressed most abundantly in skeletal muscle, kidney, and bone. High basal level expression of stromelysin-2 is found in heart and kidney. Like in man and rat, the expressions of collagenase I, stromelysin-1, and stromelysin-2 are regulated by the tumor promoter 12-O-tetradecanoyl-phorbol 13-acetate and by UV irradiation, but not by cAMP. In contrast, the expression of the 72-kDa collagenase IV is not affected by either stimuli. We and others have shown previously that under cell culture conditions, the regulation of human collagenase I is regulated by the transcription factor Fos/Jun (AP-1). Here we show that in c-fos transgenic mice transcription of collagenase I is induced in thymus, spleen, and, most dominantly, in bone upon overexpression of Fos. Neither collagenase IV nor stromelysin-1 or stromelysin-2 expression is affected by c-Fos. The sites of induced collagenase I expression correlate with the sites of Fos-induced long-term cellular alterations in transgenic mice including bone remodeling and T cell development. In fact, in the developing bone tumors strongly enhanced levels of collagenase I transcripts were detectable. These results identify collagenase I as a Fos-regulated gene in vivo and suggest a possible role for Fos/Jun heterodimers in establishing the pathological phenotype of c-fos transgenic mice.
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PMID:Phenotypic alterations in fos-transgenic mice correlate with changes in Fos/Jun-dependent collagenase type I expression. Regulation of mouse metalloproteinases by carcinogens, tumor promoters, cAMP, and Fos oncoprotein. 814 18

Keratoconus is a noninflammatory corneal disorder characterized by gradual stromal thinning and astigmatism. Altered degradation of corneal extracellular matrix is a suggested etiology for this disorder. In the present study we established keratocyte cultures from normal and keratoconus corneas and investigated the roles that matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMP, TIMP-2) may play. After chemical modification (reduction and alkylation) to remove the inhibitor and activation of enzyme with p-aminophenylmercuric acetate (APMA), keratoconus-conditioned media displayed a significant increase (p < 0.05) in the total potential gelatinolytic activity when compared with normal culture media treated in a similar manner. Basal levels of gelatinolytic activity in keratoconus culture media (no reduction, alkylation, or APMA treatment), determined by two different assay methods, tended to be about twice that of normal cell cultures. By zymography, both keratoconus and normal cultures showed identical enzyme patterns, which represented MMP-2 (72 kDa) in its proform and, depending on the treatment of the media, varying amounts of activated MMP-2 (65 kDa). This suggests that the increased gelatinolytic activity in keratoconus was not correlated with an increased appearance of either the 65-kDa-activated form of MMP-2 or a new MMP species. In addition, no differences in the amount of MMP-2 were detected that could account for the increased activities in keratoconus cultures. However, a relative decline in the detectable TIMP levels in keratoconus cultures resulted in an apparent three-fold increase in the ratio of MMP-2/TIMP. Northern blots showed no significant changes in mRNA levels for MMP-1, MMP-2, MMP-3, TIMP, or TIMP-2. These data suggest that a possible alteration in the interaction between MMP-2 and TIMP may play a role in the increased gelatinolytic activity seen in keratoconus tissues.
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PMID:Increased gelatinolytic activity in keratoconus keratocyte cultures. A correlation to an altered matrix metalloproteinase-2/tissue inhibitor of metalloproteinase ratio. 815 82

The matrix metalloproteinases (MMPs) collagenase, gelatinase A (72 kDa gelatinase), stromelysin, and their specific inhibitor TIMP-1 (tissue inhibitor of metalloproteinases), were immunolocalized using specific polyclonal antisera in gingival tissues from 21 patients with chronic inflammatory periodontal disease. Monoclonal antibodies against macrophages (Leu-M5), B cells (Leu-14), helper T cells (OKT4), suppressor T cells (OKT8) and the HLA-DR epitope were also used to identify leukocyte subsets. MMPs were observed in connective tissues at sites that histologically showed signs of remodelling. The number and distribution of positive cells varied widely, however, not only between individual biopsy specimens, but also within the same specimen. The same was true for the composition and distribution of the inflammatory cell infiltrate. Moreover, although there was a positive correlation between the number of MMP-producing cells and the severity of inflammation in some specimens, for others with comparable leukocyte subset scoring the number was reduced and sometimes absent altogether. Cells secreting MMPs were fibroblasts, macrophages and epithelial cells. It was not possible to determine unequivocally whether a MMP-positive cell within the connective tissue was a fibroblast or a macrophage, since the antisera recognise both fibroblast and macrophage MMPs and the different fixation requirements for MMPs (4% paraformaldehyde) and Leu-M5 (acetone) precluded co-localization on the same section. TIMP-1 was immunolocalized within connective tissue cells at sites of tissue remodelling. Our results support the hypothesis that tissue-derived MMPs may be involved in tissue remodelling in periodontal disease and conclusively demonstrate that epithelial cells may be involved as well as connective tissue cells.
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PMID:Immunolocalization of matrix metalloproteinases and TIMP-1 (tissue inhibitor of metalloproteinases) in human gingival tissues from periodontitis patients. 815

The extracellular matrix (ECM) is an important regulator of the differentiated phenotype of mammary epithelial cells in culture. Despite the fact that ECM-degrading enzymes have been implicated in morphogenesis and tissue remodeling, there is little evidence for a direct role for such regulation in vivo. We generated transgenic mice that express autoactivated isoforms of the matrix metalloproteinase stromelysin-1, under the control of the whey acidic protein gene promoter, to examine the effect of inappropriate expression of this enzyme. Stromelysin-1 is implicated as the primary player in the loss of basement membrane and loss of function in the mammary gland during involution. The transgene was expressed at low levels in mammary glands of virgin female mice, leading to an unexpected phenotype: The primary ducts had supernumerary branches and showed precocious development of alveoli that expressed beta-casein at levels similar to that of an early- to mid-pregnant gland. Lactating glands showed high levels of transgene expression, with accumulation at the basement membrane, and a decrease in laminin and collagen IV, resulting in a loss of basement membrane integrity; this was accompanied by a dramatic alteration of alveolar morphology, with decreased size and shrunken lumina containing little beta-casein. During pregnancy, expression of endogenous whey acidic protein and beta-casein was reduced in transgenic glands, confirming the observed dependence of milk protein transcription of ECM in mammary epithelial cells in culture. These data provide direct evidence that stromelysin-1 activity can be morphogenic for mammary epithelial cells, inducing hyperproliferation and differentiation in virgin animals, and that its lytic activity can, indeed, disrupt membrane integrity and reduce mammary-specific function. We conclude that the balance of ECM-degrading enzymes with their inhibitors, and the associated regulation of ECM structure, is crucial for tissue-specific gene expression and morphogenesis in vivo.
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PMID:Targeted expression of stromelysin-1 in mammary gland provides evidence for a role of proteinases in branching morphogenesis and the requirement for an intact basement membrane for tissue-specific gene expression. 817 86

Heparin inhibits the migration and proliferation of arterial smooth muscle cells and modifies the extracellular matrix. These effects may be the result of heparin's effects on proteinases that degrade the matrix. We have previously reported that heparin inhibits the induction of tissue-type plasminogen activator and interstitial collagenase mRNA. We have investigated the possibility that heparin affects other members of the matrix metalloproteinase family. Phorbol ester increased the levels of mRNA of collagenase, 92-kD gelatinase and stromelysin as well as the synthesis of these proteins. These effects were inhibited by heparin, but not by other glycosaminoglycans, in a dose-dependent manner. The induction of these matrix metalloproteinases was also inhibited by staurosporine and pretreatment with phorbol ester indicating the involvement of the protein kinase C pathway. In contrast, the 72-kD gelatinase was expressed constitutively and was not affected by phorbol ester or heparin. Tissue inhibitor of metalloproteinase-1 was expressed constitutively and was slightly increased by phorbol ester. It was not affected by heparin. Thus, heparin inhibits the production of four proteinases (tissue plasminogen activator, collagenase, stromelysin and 92-kD gelatinase) that form an interdependent system capable of degrading all the major components of the extracellular matrix.
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PMID:Heparin inhibits the induction of three matrix metalloproteinases (stromelysin, 92-kD gelatinase, and collagenase) in primate arterial smooth muscle cells. 818 30

Tissue inhibitors of metalloproteinases (TIMPs) play an important role in the regulation of the activity of matrix metalloproteinases (MMPs) such as collagenase, stromelysin and gelatinase. Although it has been shown that upon culturing bone tissue releases relatively large amounts of TIMP, little is known as to the source of the inhibitor. In an attempt to investigate this in more detail calvarial bone explants from young rabbits were cultured in serum-free medium. The explants were cultured with or without adhering periosteum. In some experiments solitary periosteal fragments were maintained in the absence of bone. Media were analyzed for the presence of TIMP by immunoblotting and ELISA as well as for their capacity to inhibit the activity of collagenase. In addition, TIMP was immunolocalized in cryosections of the explants. The data demonstrated that bone-conditioned medium contained significantly more (2-10 times) collagenase inhibitor than periosteum-conditioned medium. Removal of the (convex and/or concave) periosteum from the calvariae did not significantly affect the amount of inhibitor released. Immunoblots and ELISA showed the presence of TIMP in the media, being more in bone- than in periosteum-conditioned medium. In immunolabeled cryosections TIMP appeared to be present in osteoblast-like cells lining both the outer bone surface as well as the endosteal spaces. Label was also found in a number of osteocyte lacunae. The periosteum was almost negative. It is suggested that TIMP contributes to the regulation of MMP-activity involved in the remodeling and turnover of bone.
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PMID:The release of tissue inhibitor of metalloproteinases by calvarial bone explants and its immunolocalization. 821 37

Chick embryo has been used as a model system for evaluating the metastatic potential of tumor cells. We have previously demonstrated that expression of the tissue inhibitor of matrix metalloproteinase-I (TIMP-I) gene can suppress liver colonization of tumor cels in chick embryo, probably by inhibiting the activity of matrix metalloproteinases (MMP) produced by tumor cells. In an attempt to identify MMP associated with liver colonization, we examined 24 human tumor cell lines for their potential to form metastatic colonies in chick-embryo liver after the cells had been inoculated into the chorioallantoic membrane (CAM) vein. We compared the results with the mRNA expression of MMP (MMP-I, MMP-2, MMP-3, MMP-9) studied previously. Three of 8 cell lines from mesenchymal tumors (fibrosarcoma HT1080, osteosarcomas SK-ES and MNNG/HOS) and 2 of 16 cell lines from epithelial tumors (gastric carcinoma KKLS and bladder carcinoma T24) proliferated in the livers. MMP-2 and MMP-9 were the enzymes whose transcripts were more frequently expressed in these 5 metastatic cell lines (MMP-1; 2/5, MMP-2; 4/5, MMP-3; 0/5, MMP-9; 3/5), but other cell lines that did not form liver colonies expressed the transcripts at lower frequency (MMP-2; 7/19, MMP-9; 3/19). Although either or both MMP-2 and MMP-9 transcripts were expressed in 4 of the 5 metastatic cell lines, they were undetectable in T24 cells. However, induced expression of both enzymes was detected by immunostaining in the T24 cells colonized in the liver. Thus, type-IV collagenases expressed by tumor cells may play a role in facilitating colonization in chick embryos.
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PMID:Expression of type-IV collagenases in human tumor cell lines that can form liver colonies in chick embryos. 826 76

Matrilysin, a member of the matrix metalloproteinase family, is structurally different from the other matrix metalloproteinases by virtue of the absence of a conserved COOH-terminal protein domain. In addition, matrilysin mRNA is regulated in a specific and distinct manner in normal and malignant tissues. Analysis of the genomic structure of the human matrilysin gene revealed that the organization of the first five exons is highly conserved among the different members of the matrix metalloproteinase family, but that matrilysin contains an atypical sixth exon. The promoter region of the matrilysin gene has several features that are conserved among several other matrix metalloproteinase family members, including the presence of TATA, AP-1, and PEA3 elements. Comparison of the expression of the human matrilysin promoter with rat stromelysin promoter/chloramphenicol acetyltransferase constructs in HeLa cells revealed that constructs containing AP-1 and PEA3 elements respond similarly to epidermal growth factor and tumor promoter (12-O-tetradecanoyl-phorbol-13-acetate) induction, but that the addition of upstream stromelysin sequences results in an increased transcriptional activity not observed with upstream matrilysin sequences. The similarities and differences observed between the promoters of matrilysin and the other metalloproteinases may provide insights into the molecular mechanisms that regulate the expression of this family of enzymes as a whole and the factors that distinguish the expression patterns of individual family members.
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PMID:Structure and expression of the human gene for the matrix metalloproteinase matrilysin. 829 54

We have investigated the inhibition of the human matrix metalloproteinase stromelysin (SLN) by the N-(carboxyalkyl)dipeptide Ala[N]hPhe-Leu-anilide and find that it is a competitive, slow-binding inhibitor of this enzyme with Ki = 3 x 10(-8) M (pH 6.0, 25 degrees C). The dependence of k(obs), the observed first-order rate constant for the approach to steady state, on Ala[N]hPhe-Leu-anilide concentrations less than 10(-5) M is linear and suggests a simple, one-step mechanism with kon = 3.4 x 10(4) M-1 s-1 and k(off) = 1.2 x 10(-3) s-1 (pH 6.0, 25 degrees C). Using rapid kinetic techniques, we extended the concentration range of Ala[N]hPhe-Leu-anilide to 2 x 10(-3) M and found that the [Ala[N]hPhe-Leu-anilide] dependence of K(obs) suggests saturation kinetics with a Ki' near 5 x 10(-4) M. Detailed analysis of these data reveal that the dependence of k(obs) on [Ala[N]hPhe-Leu-anilide] is, in fact, sigmoidal. To probe the chemical mechanism of inhibition, we determined pH and temperature dependencies and solvent deuterium isotope effects. For k(on), delta H not equal to = 12.4 kcal/mol and -T delta S not equal to = 6.2 kcal/mol (T = 298 K; [I]steady-state = 10(-6) M), while for k(off), delta H not equal to = 12.5 kcal/mol and -T delta S not equal to = 8.9 kcal/mol (T = 298 K). pH dependencies of the kinetic parameters for inhibition are complex but reflect greater potency at lower pH and suggest a mechanism involving the same active-site groups that are involved in catalysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Studies on the kinetic and chemical mechanism of inhibition of stromelysin by an N-(carboxyalkyl)dipeptide. 831 54

The stromelysin-2 (SL-2) gene is transcriptionally active in normal human keratinocytes and encodes a secreted, catalytically competent but latent matrix metalloproteinase. Phorbolester induction resulted in the emergence of SL-2 (but not SL-1 transcripts), whereas the opposite was true for human mucosal fibroblasts. Expression of keratinocyte SL-2 was also induced by the two keratinocyte growth factors, transforming growth factor-alpha and epidermal growth factor, by the proinflammatory cytokine, tumor necrosis factor-alpha, but, somewhat surprisingly, not by interleukin-1 beta. The latent SL-2 proenzyme was isolated from 12-O-tetradecanoylphorbol-13-acetate-induced keratinocytes by immunoaffinity chromatography using a cross-reactive antibody raised against human SL-1. This procedure led to the recovery of a single M(r) 54,000 molecular species at a level of approximately 0.2 microgram/ml of culture medium. Amino-terminal sequencing identified the protein as SL-2 and verified the predicted signal sequence cleavage site. Conformational activation of latent SL-2 precursor by SDS gave rise to a full-length, uncleaved (M(r) 54,000) active form and at the same time exposed a cryptic thiol group. By contrast, organomercurial activation resulted in autolytic truncation of the molecule with loss of M(r) approximately 10,000 propeptide. SL-2 shared with (human fibroblast) SL-1 the ability to cleave casein, to "superactivate" fibroblast type procollagenase, and to form apparently binary, SDS-resistant complexes with tissue inhibitor of metalloproteinases-1.
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PMID:Cell type-specific regulation of SL-1 and SL-2 genes. Induction of the SL-2 gene but not the SL-1 gene by human keratinocytes in response to cytokines and phorbolesters. 834 17


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