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:3.4.24.23 (MMP)
4,246 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Skin wound healing depends on cell migration and extracellular matrix remodeling. Both processes, which are necessary for reepithelization and restoration of the underlying connective tissue, are believed to involve the action of extracellular proteinases. We screened cDNA libraries and we found that six matrix metalloproteinase genes were highly expressed during rat skin wound healing. They were namely those of stromelysin 1, stromelysin 3, collagenase 3, gelatinase A (GelA), gelatinase B, and membrane type-1 matrix metalloproteinase (MT1-MMP). The expression kinetics of these MMP genes, the tissue distribution of their transcripts, the results of cotransfection experiments in COS-1 cells, and zymographic analyses performed using microdissected rat wound tissues support the possibility that during cutaneous wound healing pro-GelA and pro-gelatinase B are activated by MT1-MMP and stromelysin 1, respectively. Since MT1-MMP has been demonstrated to be a membrane-associated protein (Sato, H., T. Takino, Y. Okada, J. Cao, A. Shinagawa, E. Yamamoto, and M. Seiki. 1994. Nature (Lond.). 370: 61-65), our finding that GelA and MT1-MMP transcripts were expressed in stromal cells exhibiting a similar tissue distribution suggests that MT1-MMP activates pro-GelA at the stromal cell surface. This possibility is further supported by our observation that the processing of pro-GelA to its mature form correlated to the detection of MT1-MMP in cell membranes of rat fibroblasts expressing the MT1-MMP and GelA genes. These observations, together with the detection of high levels of the mature GelA form in the granulation tissue but not in the regenerating epidermis, suggest that MT1-MMP and GelA contribute to the restoration of connective tissue during rat skin wound healing.
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PMID:Expression of matrix metalloproteinases during rat skin wound healing: evidence that membrane type-1 matrix metalloproteinase is a stromal activator of pro-gelatinase A. 910 37

We have previously shown that the extracellular-matrix-degrading enzymes, urokinase-type plasminogen activator (u-PA), stromelysin 1, stromelysin 3, and matrilysin, may play an important role in the transition from lung preneoplasia to invasive carcinoma. Using in situ hybridization and immunohistochemistry, we analyzed serial frozen sections for the expression of these enzymes in 89 lung carcinomas including 25 neuroendocrine (NE) carcinomas (10 small-cell lung carcinomas, 7 large-cell NE carcinomas, 1 atypical, and 7 typical carcinoids) and 64 non-small-cell, non-NE carcinomas (29 squamous and 7 basaloid carcinomas, 23 adenocarcinomas, and 5 large-cell carcinomas). Proteases, except matrilysin, were more often expressed in stromal than cancer cells. In non-small-cell, non-NE carcinomas, stromal co-expression of u-PA and stromelysin 3 was seen in 80 to 90% of the tumors and was highly correlated (P < 0.0001). Stromal u-PA and stromelysin 3 expression was linked to tumor size (P = 0.01 and 0.03, respectively) and lymph node involvement (P = 0.001 and 0.02, respectively). Epithelial expression of u-PA was correlated to tumor size (P = 0.04). Epithelial expression of stromelysin 3 predominated in squamous and basaloid carcinomas (P = 0.0005) and was inversely correlated to squamous differentiation (P = 0.018). Epithelial expression of matrilysin predominated in adenocarcinomas and large-cell carcinomas (P = 0.07). In NE carcinomas including small-cell lung carcinomas, stromal expression of u-PA was correlated to lymph node metastasis (P = 0.017). Epithelial expression of all enzymes were significantly less frequent in NE than in non-NE tumors. We conclude that 1) epithelial expression of matrix proteases in lung cancer is linked to cell phenotype (NE versus non-NE, squamous versus glandular) and 2) their stromal, rather than epithelial, expression influences local metastasis.
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PMID:Expression of urokinase-type plasminogen activator, stromelysin 1, stromelysin 3, and matrilysin genes in lung carcinomas. 913 88

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

Matrix metalloproteinases (MMPs) are a family of proteinases that play a major role in the metabolic degradation of extracellular matrix proteins. In order to examine the expression pattern of different MMP or MMP-inhibitor genes two RNase protection assays (RPAs) were developed that allow the simultaneous and semiquantitative assessment of their respective mRNAs. Probes for the detection of MMPs stromelysin 1, 2 and 3, matrilysin, metalloelastase, gelatinase A and B, collagenase and membrane type MMP (MT1-MMP) were included in the first RPA probe set, while probes for tissue inhibitor of matrix metalloproteinase (TIMP) 1, 2, 3 and alpha 2-macroglobulin (alpha 2-M) were included in the second probe set (inhibitor of matrix metalloproteinase-IMP set). Titration experiments revealed that this method allows the detection of MMP and inhibitor mRNAs present in at least 0.03 microgram of spleen poly(A)+ RNA. Both RPA sets were further evaluated by analyzing the expression of MMP and IMP genes in brain, kidney, spleen and liver in a murine model for endotoxemia after intraperitoneal LPS injection. Control animals showed an organ-specific constitutive expression of one or more MMPs and a high expression of TIMPs. Following LPS injection, an organ-specific upregulation or induction of MMP and TIMP RNA species was found. This change was most pronounced in the spleen, while liver, kidney and brain showed minor or no changes in MMP expression. An IMP upregulation was detected in all organs. These RPA probe sets provide a valuable tool for the simultaneous assessment of MMP and IMP gene expression under physiological and pathological conditions.
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PMID:RNAse protection assays for the simultaneous and semiquantitative analysis of multiple murine matrix metalloproteinase (MMP) and MMP inhibitor mRNAs. 932 62

A potential physiological role of stromelysin-1 (MMP-3) in the expression or activation of gelatinase A (MMP-2) or gelatinase B (MMP-9) in the wall of injured arteries was studied with the use of homozygous MMP-3-deficient (MMP-3-/-) mice. One week after perivascular electric injury of the carotid or femoral artery in wild-type (MMP-3+/+) or MMP-3-/- mice, 70 kD and 65 kD proMMP-2 levels were enhanced by twofold to fourfold, with corresponding increases of 20- to 40-fold for active 61 kD and 58 kD MMP-2, and of 10- to 80-fold for 94 kD proMMP-9. Active MMP-2 species represented approximately one third of the total MMP-2 concentration for both MMP-3+/+ and MMP-3-/- mice. Active 83 kD MMP-9 was not detected in noninjured carotid or femoral arteries, whereas one week after injury its contribution to the total MMP-9 level was 11% to 18% for MMP-3+/+ and MMP-3-/- mice. Immunostaining of arterial sections confirmed enhanced expression of both MMP-2 and MMP-9 after vascular injury. Double immunostaining showed colocalization of MMP-9 with macrophages in the adventitia, whereas MMP-2 was also detected mainly in the adventitia but failed to colocalize with smooth muscle cells. Cell culture experiments confirmed comparable ratios of active versus latent MMP-2 in skin fibroblasts and smooth muscle cells derived from MMP-3+/+ and MMP-3-/- mice. Addition of plasmin(ogen) did not significantly affect activation of proMMP-2. In MMP-3+/+ and MMP-3-/- macrophages, comparable levels of 94 kD proMMP-9 were detected, and plasmin(ogen)-mediated conversion to 83 kD MMP-9 was obtained in both genotypes. These data thus indicate that proMMP-2 activation may occur via a plasmin- and MMP-3-independent mechanism, whereas plasmin can directly activate proMMP-9 via a MMP-3-independent mechanism.
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PMID:Stromelysin-1 (MMP-3)-independent gelatinase expression and activation in mice. 949 Jun 89

To study the extend of ongoing tissue remodelling in end-stage cirrhosis, the expression of different matrix metalloproteinases [interstitial collagenase (MMP-1), Mr 72000 gelatinase (MMP-2), stromelysin-1 (MMP-3) and stromelysin-3 (MMP-11)] and of TIMP-1 was studied in 13 cirrhotic livers explanted at transplantation. The results were compared with those obtained in normal liver. Western blot, northern blot, ELISA, RT-PCR and zymogram analysis were used. Proenzymes of stromelysin-1 and -3, interstitial collagenase and Mr 72000 gelatinase were positive in normal liver, while activated enzymes were not detectable in western blot analysis. In cirrhosis proenzyme levels of the studied MMPs were reduced to a mean of 60-70%, but mRNA expression and gelatin-degrading activity increased. TIMP-1 expression was detectable on mRNA level and by ELISA in normal liver and also increased in cirrhosis. Our results show that mRNA expression of certain matrix metalloproteinases is increased in end-stage liver cirrhosis, while the amount of proenzyme is decreased, indicating enhanced MMP proenzyme turnover. These data suggest that besides increased TIMP-1 activity, altered MMP expression may also play a part in fibroproliferation in liver disease.
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PMID:Comparison of matrix metalloproteinase expression in normal and cirrhotic human liver. 950 60

Human pro-matrix metalloproteinase 3 (proMMP-3) lacking the N-terminal 34 amino acids and the C-terminal hemopexin-like domain was expressed in E. coli and used to investigate the process of proenzyme activation and its interaction with an endogenous inhibitor TIMP-1 during activation. The truncated precursor was purified from the E. coli extract in the presence of 5mM EGTA. The active 23.5 kDa form was generated simply by exposure to Ca2+ and Zn2+ but not either by Ca2+ alone or by Zn2+ alone. The rate of MMP-3(deltaC) formation was concentration dependent, indicating that autoactivation is a bimolecular reaction. The truncated precursor was able to interact with the N-terminal domain of TIMP-1 without losing the 48 residue-long propeptide. However, upon a longer incubation, the propeptide was slowly processed, indicating that the association of the N-terminally truncated proMMP-3 with TIMP-1 is weaker than that of the fully activated MMP-3 and TIMP-1. These results indicate that the expression of MMP activities is regulated by endogenous inhibitor TIMPs during their activation processes which provide an additional control mechanism of extracellular matrix breakdown.
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PMID:Expression of human pro-matrix metalloproteinase 3 that lacks the N-terminal 34 residues in Escherichia coli: autoactivation and interaction with tissue inhibitor of metalloproteinase 1 (TIMP-1). 952 70

Matrix metalloproteinase-3 (MP-3 or stromelysin-1) specifically hydrolyzes the Glu59-Asn60, Pro447-Val448, and Pro544-Ser545 peptide bonds in plasminogen, yielding a 55 kDa NH2-terminal angiostatin-like domain (comprising kringles 1-4), a 14 kDa domain comprising kringle 5, and a 30 kDa domain comprising the serine proteinases domain. The conversion is completely abolished in the presence of the MMP inhibitors EDTA or 1,10-phenanthroline. Biospecific interactions analysis indicates that binding of proMMP-3 and MMP-3 to plasminogen occurs with comparable affinity (KA of 4.7 x 10(6) and 4.1 x 10(6) M-1, respectively) and is mediated via the miniplasminogen moiety (kringle 5 plus the proteinase domain) and via the catalytic domain of MMP-3. Thus, proteolytic cleavage of plasminogen by MMP-3 generates angiostatin-like fragments.
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PMID:Generation of an angiostatin-like fragment from plasminogen by stromelysin-1 (MMP-3). 954 33

Matrilysin, gelatinase A and gelatinase B are matrix metalloproteinases (MMPs) implicated in normal and pathological processes that require remodelling of the extracellular matrix. In human prostate tissue, matrilysin is synthesized in ducts surrounded by inflammatory cells, and focally in prostate carcinoma, but not in normal glands. Gelatinase B expression is restricted to inflammatory cells. Gelatinase A can be found in both benign and malignant prostate tissue. MMP activities are regulated by their transition from latent to activated forms, as well as by the presence of tissue inhibitors of metalloproteinases (TIMPs). We investigated whether matrilysin can activate progelatinases A and B in the presence of their bound inhibitors TIMP2 and TIMP1 respectively. Incubation of progelatinase B-TIMP1 complex with active matrilysin resulted in 78 and 68 kDa active forms, as measured by SDS-PAGE and enzyme activity assays. TIMP-free gelatinase B was also activated by matrilysin. In addition, activation of progelatinase B by matrilysin was demonstrated in the conditioned medium of phorbol ester-treated HT1080 cells, confirming the results obtained in the in vitro experiments. In contrast, matrilysin did not proteolytically cleave gelatinase A-TIMP2 complex, but led to a transient increase in gelatinolytic activity of the proenzyme. Matrilysin did not enhance the autocatalytic conversion of its own proform. The data presented here suggest that matrilysin participates in a proteolytic cascade and can activate gelatinases in the presence of TIMPs.
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PMID:Activation of gelatinase-tissue-inhibitors-of-metalloproteinase complexes by matrilysin. 956 Mar 29

Matrix metalloproteinase-3 (MMP-3, or stromelysin-1) specifically hydrolyzes the Glu143-Leu144 peptide bond in 45-kDa single-chain urokinase-type plasminogen activator (scu-PA) and in its two-chain (tcu-PA) derivative, yielding a 17-kDa NH2-terminal domain comprising the u-PA receptor (u-PAR) binding site and a 32-kDa COOH-terminal moiety containing the serine proteinase domain of u-PA. The conversion is completely abolished in the presence of the MMP inhibitors EDTA or 1,10-phenanthroline. Biospecific interaction analysis indicates that binding of MMP-3 occurs through the 32-kDa fragment. The 32-kDa fragment derived from scu-PA (scu-PA-32k) has a specific activity of </=500 IU/mg, but it can be activated with plasmin to a two-chain derivative (tcu-PA-32k) with a specific activity of 79 000 IU/mg. tcu-PA and tcu-PA-32k moieties derived from scu-PA-32k by plasmin or from tcu-PA by MMP-3 have comparable amidolytic activities toward the chromogenic substrate S-2444 (kcat/Km of 110 and 160 mM-1 s-1, respectively) and similar plasminogen activating activities in a coupled chromogenic substrate assay. Specific binding of the 17-kDa NH2-terminal domain to THP-1 monocytoid cells is completely abolished by competition with scu-PA but is not affected by scu-PA-32k (residual binding of 88 +/- 9% (mean +/- SEM; n = 3) with 25-fold molar excess). Thus, MMP-3 removes a functional NH2-terminal u-PAR-binding domain from u-PA without affecting its enzymatic properties.
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PMID:Proteolytic cleavage of urokinase-type plasminogen activator by stromelysin-1 (MMP-3). 958 35


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