Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.23 (MMP)
 4,246 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Decorin (DCN) is a ubiquitous proteoglycan comprised of a core protein attached to a single dermatan/chondroitin sulphate glycosaminoglycan chain. It may play a role in regulation of collagen fibrillogenesis and function as a reservoir of transforming growth factor beta (TGF-beta) in the extracellular milieu. We have examined the susceptibility of DCN to five different matrix metalloproteinases (MMPs): MMP-1 (tissue collagenase), MMP-2 (gelatinase A), MMP-3 (stromelysin 1), MMP-7 (matrilysin) and MMP-9 (gelatinase B). MMP-2 and MMP-3 digest DCN into seven major fragments in a similar pattern. The N-terminal sequence of the two fragments generated by MMP-2 and MMP-3 is Leu211-Lys-Gly-Leu-Asn, but that of the others is Asp1-Glu-Ala-Ser-Gly. MMP-7 cleaves DCN into three major fragments which have the N-termini Asp1-Glu-Ala-Ser-Gly, Glu2-Ala-Ser-Gly-Ile and Leu244-His-Leu-Asp-Asn. Activities of MMP-1 and MMP-9 against DCN are negligible. The values of Km for the MMPs capable of degrading DCN are very similar (10-12 microM), but the kcat/Km value for MMP-7 (30.5 microM-1.h-1) is 4.5-fold higher than those for MMP-2 and MMP-3. Incubation of a DCN-TGF-beta1 complex with MMP-2, -3 or -7 results in release of TGF-beta1 from the complex. These data indicate proteolytic degradation of DCN by MMP-2, MMP-3 and MMP-7, and suggest the possibility that, under pathophysiological conditions, the digestion by the MMPs may induce tissue reactions mediated by TGF-beta1 released from DCN in the connective tissues.
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PMID:Degradation of decorin by matrix metalloproteinases: identification of the cleavage sites, kinetic analyses and transforming growth factor-beta1 release. 914 53

We have previously demonstrated that fibroblasts and invasive human breast carcinoma (HBC) cells specifically activate matrix metalloproteinase-2 (MMP-2) when cultured on 3-dimensional gels of type I collagen but not a range of other substrates. We show here the constitutive expression of membrane-type 1 (MT1)-MMP in both fibroblasts, and invasive HBC cell lines, that have fibroblastic attributes presumably acquired through an epithelial-to-mesenchymal transition (EMT). Treatment with collagen type I increased the steady-state MT1-MMP mRNA levels in these cells but did not induce either MT1-MMP expression or MMP-2 activation in noninvasive breast carcinoma cell lines, which retain epithelial features. Basal MT3-MMP mRNA expression had a pattern similar to that of MT1-MMP but was not up-regulated by collagen. MT4-MMP mRNA was seen in both invasive and noninvasive HBC cell lines and was also not collagen-regulated, and MT2-MMP mRNA was not detected in any of the HBC cell lines tested. These data support a role for MT1-MMP in the collagen-induced MMP-2-activation seen in these cells. In situ hybridization analysis of archival breast cancer specimens revealed a close parallel in expression of both collagen type I and MT1-MMP mRNA in peritumoral fibroblasts, which was correlated with aggressiveness of the lesion. Relatively high levels of expression of both mRNA species were seen in fibroblasts close to invasive tumor nests and, although only focally, in certain areas close to preinvasive tumors. These foci may represent hot spots for local degradation and invasive progression. Collectively, these results implicate MT1-MMP in collagen-stimulated MMP-2 activation and suggest that this mechanism may be employed in vivo by both tumor-associated fibroblasts and EMT-derived carcinoma cells to facilitate increased invasion and/or metastasis.
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PMID:Implication of collagen type I-induced membrane-type 1-matrix metalloproteinase expression and matrix metalloproteinase-2 activation in the metastatic progression of breast carcinoma. 916 84

We have shown in a variety of human wounds that collagenase-1 (MMP-1), a matrix metalloproteinase that cleaves fibrillar type I collagen, is invariably expressed by basal keratinocytes migrating across the dermal matrix. Furthermore, we have demonstrated that MMP-1 expression is induced in primary keratinocytes by contact with native type I collagen and not by basement membrane proteins or by other components of the dermal or provisional (wound) matrix. Based on these observations, we hypothesized that the catalytic activity of MMP-1 is necessary for keratinocyte migration on type I collagen. To test this idea, we assessed keratinocyte motility on type I collagen using colony dispersion and colloidal gold migration assays. In both assays, primary human keratinocytes migrated efficiently on collagen. The specificity of MMP-1 in promoting cell movement was demonstrated in four distinct experiments. One, keratinocyte migration was completely blocked by peptide hydroxymates, which are potent inhibitors of the catalytic activity of MMPs. Two, HaCaTs, a line of human keratinocytes that do not express MMP-1 in response to collagen, did not migrate on a type I collagen matrix but moved efficiently on denatured type I collagen (gelatin). EGF, which induces MMP-I production by HaCaT cells, resulted in the ability of these cells to migrate across a type I collagen matrix. Three, keratinocytes did not migrate on mutant type I collagen lacking the collagenase cleavage site, even though this substrate induced MMP-1 expression. Four, cell migration on collagen was completely blocked by recombinant tissue inhibitor of metalloproteinase-1 (TIMP-1) and by affinity-purified anti-MMP-1 antiserum. In addition, the collagen-mediated induction of collagenase-1 and migration of primary keratinocytes on collagen was blocked by antibodies against the alpha2 integrin subunit but not by antibodies against the alpha1 or alpha3 subunits. We propose that interaction of the alpha2beta1 integrin with dermal collagen mediates induction of collagenase-1 in keratinocytes at the onset of healing and that the activity of collagenase-1 is needed to initiate cell movement. Furthermore, we propose that cleavage of dermal collagen provides keratinocytes with a mechanism to maintain their directionality during reepithelialization.
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PMID:The activity of collagenase-1 is required for keratinocyte migration on a type I collagen matrix. 918 74

Members of the family of matrix metalloproteinases (MMPs) are key enzymes in normal and pathological tissue remodelling. They function at neutral pH and can digest synergistically all the macromolecules of the extracellular matrix. Biochemical and cloning studies indicate that there are three major groups: the specific collagenases cleave interstitial collagens; the gelatinases degrade other types of collagen and act synergistically with collagenases by degrading denatured collagens (gelatins); and the stromelysins which have broader specificity and can degrade basement membrane collagens as well as proteoglycans and matrix glycoproteins. Others in the family, but not in the major groups, are matrilysin, metallo-elastase, and several recently cloned membrane-bound metalloproteinases. Naturally occurring inhibitors, TIMPs (tissue inhibitors of metalloproteinases), are important controlling factors in the actions of MMPs, and tissue destruction in disease processes often correlates with an imbalance of MMPs over TIMPs. The relevance of recent molecular research to periodontal diseases is discussed.
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PMID:The functional balance of metalloproteinases and inhibitors in tissue degradation: relevance to oral pathologies. 919 5

The expression of matrix metalloproteinase-2 (MMP-2; 72 kDa type IV collagenase/gelatinase A) and MMP-9 (92 kDa type IV collagenase/gelatinase B) was immunohistochemically investigated in 79 T1 adenocarcinomas of the lung using non-commercial polyclonal anti-MMP-2 and -9 antibodies. Thirty-two (41%) and 22 (28%) among the 79 cases were positive in the tumor cells for MMP-2 and -9, respectively. The incidences of MMP-2 and -9 immunoreactivities were higher (64 and 45%, respectively) in poorly differentiated tumors than in well differentiated tumors (36 and 25%, respectively), and lower in bronchioloalveolar carcinoma (22 and 10%, respectively) compared with other subtypes of adenocarcinoma. The prognosis for patients with MMP-2 and/or -9 positive immunoreactivities was significantly poorer than for those with a MMP-negative tumor (P < 0.05). The degree of collagenization was divided into four grades, and tumors with a small to abundant amount of collagen (grade 2 and grade 3 fibrosis) had a higher incidence of immunoreactivity to both types of MMP. It is estimated that these expressions might be responsible for tumor invasion, metastasis, and for grade 2 and grade 3 fibrosis in T1 adenocarcinoma of the lung.
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PMID:Expression of matrix metalloproteinase (gelatinase) in T1 adenocarcinoma of the lung. 923 85

The spatial expression of mRNA for matrix metalloproteinase 2 (MMP-2), its putative activator, the membrane-type 1 matrix metalloproteinase (MT1-MMP), and the MMP-2 substrate type IV collagen was investigated in human placentas of both normal and tubal ectopic pregnancies and in cyclic endometrium using in-situ hybridization. Cytokeratin staining applied to adjacent sections was used to identify epithelial and trophoblast cells. In both normal and tubal pregnancies MT1-MMP, MMP-2 and type IV collagen mRNA were highly expressed and co-localized in the extravillous cytotrophoblasts of anchoring villi, in cytotrophoblasts that had penatrated into the placental bed and in cytotrophoblastic cell islands. In addition, the decidual cells of normal pregnancies in some areas co-expressed MT1-MMP and MMP-2 mRNA, with moderate signals for both components. Fibroblast-like stromal cells in tubal pregnancies were positive for MMP-2 mRNA but generally negative for MT1-MMP mRNA. The consistent co-localization of MT1-MMP with MMP-2 and type IV collagen in the same subset of cytotrophoblasts strongly suggests that all three components co-operate in the tightly regulated fetal invasion process. The co-expression of MT1-MMP and MMP-2 mRNA in some of the decidual cells indicates that these cells are also actively involved in the placentation process.
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PMID:Co-ordinated expression of MMP-2 and its putative activator, MT1-MMP, in human placentation. 929 57

Human cytotrophoblast cells are invasive by virtue of their ability to secrete metalloproteinases (MMP) capable of digesting the extracellular matrix of the endometrium. It is the aim of the present study to determine which of the known MMP is responsible for this invasive behavior and to see to what extent endometrial secretions can modulate this enzymatic activity. Under our experimental conditions, first-trimester cytotrophoblast cells invade matrigel; this invasive behavior is inhibited by phenanthroline (an inhibitor of MMP) and by a polyclonal antibody to the 92-kDa gelatinase but not to other MMP. Since cytotrophoblast cells cultured in vitro secrete the 92-kDa gelatinase, and since adhesion to a substrate increases their gelatinolytic activity, it is believed that cytotrophoblast cells invade their surrounding matrix by binding to it and by increasing their secretion of 92-kDa gelatinase which then digests the collagen type IV of their micro-environment. This process of invasion is controlled by secretions from decidual cells (but not from non-decidualized stromal cells) since conditioned medium from decidual cells inhibits the activity of the 92-kDa gelatinase released from cytotrophoblast cells.
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PMID:Importance of matrix metalloproteinases in human trophoblast invasion. 936 58

Homology screening for human membrane-type MMP (MT-MMP) was carried out, and cDNA encoding a soluble type of MT3-MMP (SM3), which is considered to be an alternatively spliced variant of MT3-MMP, was obtained. SM3 had a novel sequence consisting of 50 amino acids after Lys407 instead of amino acids containing the transmembrane domain of MT3-MMP. When SM3 tagged with a FLAG epitope (SM3-flag) was expressed in COS-7 cells, SM3-flag was present in the conditioned medium in its activated form. The enzymatic activity of SM3 was studied using a recombinant enzyme expressed in E. coli (SM3-e). The fluorogenic peptide substrate hydrolyzing activity of SM3-e was inhibited by EDTA and by the tissue inhibitor of metalloproteinase-2 (TIMP-2), whereas TIMP-1 had only relatively weak inhibitory ability. SM3-e was able to activate proMMP-2, and this activity was also inhibited by TIMP-2 but not by TIMP-1. SM3-e was able to cleave type III collagen, and also digested fibronectin. In view of the homology of the primary structures, MT3-MMP was considered to have the same catalytic activity as SM3. The results of studies of SM3's activity on extracellular matrix (ECM) protein suggests that MT3-MMP plays a role in ECM turnover not only by activating proMMP-2 but also by acting directly on ECM macromolecules.
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PMID:Identification of soluble type of membrane-type matrix metalloproteinase-3 formed by alternatively spliced mRNA. 939 33

Gene expression of matrix degrading enzymes was investigated in surgical specimens of perforated gastric ulcers. In these ulcers, the inflammatory cells infiltrating into the granulation tissue were granulocytes, particularly eosinophils. The extracellular matrix of the stomach wall consists mainly of collagen types I and III, which are selectively degraded by matrix metalloproteinase-1 (MMP-1). MMP-1 mRNA was detected in the cytoplasm of infiltrating cells, suggesting that eosinophils play an important role in ulcer recurrence and in perforation of the stomach wall. The degree of eosinophil infiltration into an ulcer base may be a useful marker for the risk of perforation. Patients showing this marker may benefit from a prophylactic therapy for preventing severe complications. The control of MMP gene expression represents a potential strategy for the treatment of recurrent gastric ulcer.
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PMID:Matrix metalloproteinase gene expression in chronic gastric ulcer: a potential role of eosinophils in perforation. 947 34

Renal tubulointerstitial fibrosis may result from a loss of tubulointerstitial volume, which produces a disproportionate increase in the density of matrix. This study examines the relationship between fibrogenesis and collapse in scar formation after experimental renal infection. Escherichia coli were inoculated into the renal cortex of Sprague Dawley rats, with saline substituted in a control group. Glomerular, tubular, and interstitial profile areas were determined. Density of glomerular profiles was used as a measure of tubulointerstitial collapse. Collagen type I, III, and IV expression was examined by in situ hybridization and immunohistochemistry. Myofibroblasts were identified by alpha smooth muscle actin immunohistochemistry, and matrix metalloproteinase-1 (MMP-1) and MMP-2 were localized with appropriate antisera. Acute interstitial edema was followed by increasing density of glomerular profiles, paralleled by loss of interstitial volume and progressive tubular atrophy. Glomerular profile area remained unchanged. Density of glomerular profiles was not temporally related to myofibroblast accumulation. Procollagen alpha 1(I), alpha 1(III), and alpha 1(IV) transcription was focal, spatially related but temporally ordered. Collagen I, III, and IV immunostaining was increased from days 3, 24, and 100, respectively (P < 0.05 versus day 0 and day 100 saline). However, when corrected for glomerular density, collagen I immunostaining decreased between days 24 and 100, whereas collagen III and IV no longer differed from day 0. MMP staining within the lesion was confined to occasional interstitial and epithelial cells throughout. It is concluded that in this model, contraction and collapse of the tubulointerstitial parenchyma has a greater influence than new collagen production on final fibrotic density.
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PMID:Evolution of tubulointerstitial fibrosis in experimental renal infection and scarring. 955 66


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