Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.17 (MMP-3)
 3,419 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Matrix metalloproteinases share high protein sequence homology and have defined domain structures. Gelatinases have a unique 19 kDa fibronectin-like insert in the catalytic domain. A synthetic gene was made to express the catalytic domain of human gelatinase A (GCD), in which two polypeptide fragments of the catalytic domain were joined with deletion of the insert. The synthetic gene was highly expressed in Escherichia coli, and the 19 kDa GCD was purified to homogeneity after in vitro refolding. The GCD showed activity at a pH range of 5.5-9 in cleavage of the thiopeptolide Ac-Pro-Leu-Gly-thioester-Leu-Leu-Gly-OEt with optimal activity at neutral pH (Km = 134 microM and kcat = 16 s-1 at pH 7.0). The activity required both zinc and calcium ions, but high concentration of zinc ion showed inhibition. Several stromelysin catalytic domain inhibitors inhibited the GCD with similar specificity. The GCD cleaved the fluorogenic peptides Mca-Pro-Leu-Gly-Leu-Dpa-Ala-Arg-NH2 and Dnp-Pro-Leu-Gly-Leu-Trp-Ala-D-Arg-NH2 with catalytic efficiency close to full length human gelatinase A. The reconstructed GCD cleaves not only thiopeptolide and peptide substrates but also protein substrates such as gelatin. These results are consistent with the notion that gelatinases have the same structure for the catalytic domain as other matrix metalloproteinases like stromelysins and collagenases.
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PMID:Reconstructed 19 kDa catalytic domain of gelatinase A is an active proteinase. 771 75

In addition to the known 94-kd gelatinase (matrix metalloproteinase 9, MMP-9), HL-60 leukemia cells release a hither-to undescribed 45-kd metalloproteinase into the culture medium. This enzyme cleaves the synthetic substrate Pro-Gln-Gly-Ile-Ala-Gly-Gln-Arg, which represents the cleavage site for collagenases in collagen type I not between isoleucine and alanine--the typical cleavage site for collagenases--but between alanine and glycine. The enzymatic activity was purified through a combination of zinc-chelate-Sepharose column chromatography, precipitation with Fractogel TSK-AF Red and gelatin-Sepharose, and subsequent sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Microsequence analysis of the NH2-terminus of the purified 45-kd proteinase revealed the sequence Asp-Ile-Ser-Lys-Tyr-Thr-Thr-Thr-, which could not be found in other proteins when searched in several protein data bases. Incubation of the enzyme immobilized on nitrocellulose membranes with polyclonal antibodies to collagenase and stromelysin or gelatinases revealed no cross-reactivity. The proteolytic activity was not increased by treatment with trypsin, 8M urea, acid, or organomercurials. The proteinase, which was inhibited by chemical inhibitors of metalloproteinases, such as phenanthrolene or EDTA, is able to degrade several matrix constituents, such as collagen type IV, fibronectin, gelatin, and proteoglycans. In contrast to all known MMPs, the proteolytic activity of the 45-kd enzyme was not abolished upon incubation with recombinant tissue inhibitors of matrix metalloproteinases (TIMP) 1 or 2. Thus, the novel enzyme may influence extracellular matrix (ECM) turnover in vivo because its activity is not influenced by specific inhibitors of MMPs.
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PMID:Leukemic cells (HL-60) produce a novel extracellular matrix-degrading proteinase that is not inhibited by tissue inhibitors of matrix metalloproteinases (TIMPs). 782 72

Matrix metalloproteinase 7 (MMP-7) has been purified as an inactive zymogen of M(r) 28,000 (proMMP-7) from the culture medium of CaR-1 human rectal carcinoma cells. The NH2-terminal sequence of proMMP-7 is Lys-Pro-Lys-Pro-Gln-Glu, which is identical to that of matrilysin. The zymogen is activated by 4-aminophenylmercuric acetate (APMA), yielding an intermediate form of M(r) 21,000 and an active species of M(r) 19,000 which shows the new NH2-terminal sequence of Tyr78-Ser-Leu-Phe-Pro-Asn-Ser. Although trypsin fully activates the zymogen, the activation rate by plasmin or leukocyte elastase is confined to approximately 50%. ProMMP-7 can be activated by MMP-3 (stromelysin 1) to its full activity in a single-step mechanism and generates the same NH2 terminus obtained by APMA activation, whereas MMP-1 (tissue collagenase), MMP-2 (gelatinase A), and MMP-9 (gelatinase B) do not have such an effect. On the other hand, proMMP-1 is activated by MMP-7 to an activity similar to that obtained by APMA and the activation by MMP-7 is enhanced up to approximately 6.5 fold in the presence of APMA. This enhanced activity is donated by specific cleavage at the Gln80-Phe81 bond of proMMP-1. MMP-7 can also activate proMMP-9 up to approximately 50% of the full activity with a new NH2 terminus of Leu16-Arg-Thr-(Asn)-Leu. Incubation of proMMP-2 or proMMP-3 with MMP-7 results in no activation of these proMMPs. MMP-7 degrades type IV collagen, laminin-1, fibronectin, proteoglycan, type I gelatin, and insoluble elastin. These results suggest that in vivo MMP-7 may play a role in degradation of extracellular matrix macromolecules in concert with MMP-1, -3, and -9 under pathological conditions.
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PMID:Matrix metalloproteinase 7 (matrilysin) from human rectal carcinoma cells. Activation of the precursor, interaction with other matrix metalloproteinases and enzymic properties. 789 11

Hepatic fibrosis occurs as a consequence of net accumulation of matrix proteins (particularly collagen types I and III) in liver. Current concepts of the pathogenesis of liver fibrosis place major emphasis on the activation of hepatic lipocytes (fat-storing or Ito cells) to a myofibroblast-like phenotype with a consequent increase in their synthesis of matrix proteins. While this is an important factor, there is increasing evidence to indicate that liver fibrosis is a dynamic pathologic process in which altered matrix degradation may also play a significant role. Extracellular degradation of matrix proteins is regulated by a family of enzymes called the matrix metalloproteinases, which is subdivided into three groups; collagenases which degrade interstitial collagens (types I, II and III), type IV collagenases/gelatinases which degrade basement membrane (type IV) collagen and gelatins and stromelysins which degrade a broad range of substrates including proteoglycans, laminin, gelatins and fibronectin. The extracellular activity of these enzymes is regulated by several mechanisms which include alterations in gene transcription and proenzyme synthesis, cleavage of secreted proenzymes to active forms, and specific inhibition of activated forms by tissue inhibitor(s) of metalloproteinases (TIMPs). In liver, current evidence indicates that activated hepatic lipocytes and Kupffer cells play a central role in synthesis of matrix metalloproteinases. Under defined conditions they synthesize interstitial collagenase, 72 kDa and 95 kDa type IV collagenase/gelatinase and possibly stromelysin. Moreover, lipocytes also contribute to regulation of the extracellular activity of these enzymes by secretion of TIMP-1 and alpha 2-macroglobulin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Degradation of matrix proteins in liver fibrosis. 789 31

Chronic pancreatitis is characterized by proliferation of the extracellular matrix and by increased deposition of interstitial extracellular matrix proteins (collagens type I and III, fibronectin). In this study we analyzed the balance of expression of mRNAs encoding extracellular matrix components (collagens I, III and IV, laminin, fibronectin), extracellular matrix degrading metalloproteinases (MMP-1, -2 and -3) and tissue inhibitors of metalloproteinases (TIMP-1 and -2) in chronic pancreatitis (n = 8) and control pancreas (n = 7) by northern blot analysis. Transcripts for MMP-1 (interstitial collagenase), MMP-3 (stromelysin) and TIMP-1 were not detectable in chronic pancreatitis and control tissues. Steady-state levels of transcripts encoding extracellular matrix proteins, MMP-2 (72 kDa collagenase IV) and TIMP-2 were enhanced in 7 out of 8 chronic pancreatitis tissue samples and showed a large degree of variation between individual patients. Transcript levels could not be correlated to the histologically detectable degree of inflammation and fibrosis or to the total amount of deposited collagen protein, which was high in all chronic pancreatitis tissue samples as determined by a standard colorimetric procedure. Increased steady state levels of transcripts encoding extracellular matrix proteins or extracellular matrix degrading proteases may thus reflect the activity of processes involved in the remodeling of the gland during chronic inflammation. The precise role of overexpression of MMP-2 and its inhibitor TIMP-2 will have to be elucidated in further studies.
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PMID:Balance of expression of genes coding for extracellular matrix proteins and extracellular matrix degrading proteases in chronic pancreatitis. 801 97

Transforming growth factor-beta (TGF-beta) is a prototypical multifunctional cytokine, with growth being only one of its many functions. Its receptors and actions are germane to almost every cell in the body involved in tissue injury and repair, and its effects are best understood in the context of a cellular response to a changing environment. The broad areas in which TGF-beta plays a crucial role include cell proliferation and extracellular matrix production. TGF-beta is a key regulatory molecule in the control of the activity of fibroblasts and has been implicated in several disease states characterized by excessive fibrosis. In the kidney, TGF-beta promotes tubuloepithelial cell hypertrophy and regulates the glomerular production of almost every known molecule of the extracellular matrix, including collagens, fibronectin, tenascin, and proteoglycans, as well as the integrins that are the receptors for these molecules. Furthermore, TGF-beta blocks the destruction of newly synthesized extracellular matrix by upregulating the synthesis of protease inhibitors and downregulating the synthesis of matrix-degrading proteases such as stromelysin and collagenase. As will be discussed, there is a strong body of in vitro and in vivo evidence suggesting that persistent overproduction of TGF-beta 1 in glomeruli after the acute inflammatory stage of glomerulonephritis causes glomerulosclerosis. TGF-beta may also be important in a variety of other chronic renal disorders characterized by hypertrophy and sclerosis, such as diabetic nephropathy. In this review we will attempt to offer a basic understanding of the cellular and molecular biology of TGF-beta and its receptors, with special focus on the role of the TGF-beta system in the kidney during development, growth, and disease.
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PMID:The emerging role of transforming growth factor-beta in kidney diseases. 802 63

Nephrotic syndrome induced by puromycin aminonucleoside (PAN) is characterized by tubulointerstitial (TI) inflammation, foci of TI fibrosis, and increased renal mRNA levels for matrix genes, the tissue inhibitor of metalloproteinases (TIMP), and the transforming growth factor-beta 1 (TGF-beta 1). To investigate the ability of a low-protein diet known to decrease TI inflammation to alter the degree of renal fibrosis, we studied four groups of rats: 27% protein PAN, 27% protein control, 8% protein PAN, and 8% protein control. Renal TGF-beta 1 mRNA levels correlated with the number of interstitial macrophages (r = 0.76) and were significantly reduced by dietary protein restriction. On day 10, Northern blot analysis showed that the elevated renal mRNA levels for procollagens alpha 1 (I), alpha 1(III), and alpha 2(IV) and fibronectin in the PAN-treated rats were significantly reduced by 8% dietary protein. In contrast, genes regulating matrix degradation (stromelysin and TIMP) were relatively unchanged by the low-protein diet. The number of foci of interstitial fibrosis and total renal collagen were greater in the PAN + 27% protein group than in the control groups. Both parameters of fibrosis were partially normalized in the PAN + 8% protein group. The results of this study suggest that dietary protein restriction attenuates TI fibrosis in PAN-induced nephrosis by partially reversing the increase in renal matrix synthesis. This effect was associated with decreased renal expression of the fibrogenic cytokine TGF-beta 1, which may be partially mediated by the concomitant reduction in the number of interstitial inflammatory macrophages.
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PMID:Protein restriction reduces transforming growth factor-beta and interstitial fibrosis in nephrotic syndrome. 802 68

Ascitic ovarian cancer cells, which derive from solid tumors, complicate the treatment of ovarian cancer by spreading throughout the peritoneal cavity. Because basement-membrane components may influence tumor-cell proliferation and dissemination, the present studies examined the production of (a) basement-membrane attachment and migration factors (laminin, fibronectin and type IV collagen); (b) a laminin receptor, the 32/67-kDa laminin-binding protein, the presence of which correlates with malignancy; and (c) metalloproteinases (types I and IV collagenase and stromelysin), by ascitic and cultured OVCAR-3 cells and solid OVCAR-3 tumors. The cultured cells and solid tumors produced high levels of mRNA encoding attachment factors and metalloproteinases, and low levels of mRNA for the 32/67-kDa laminin receptor. In contrast, the ascitic ovarian cells had low or undetectable levels of mRNA encoding laminin, type IV collagen and metalloproteinases, but higher levels of transcripts for the laminin receptor. Our results suggest that the apparent inability of ascitic OVCAR-3 cells to attach to host-tissue surfaces may be a consequence, in part, of low levels of expression of laminin, type IV collagen and/or type IV collagenase.
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PMID:Altered expression of basement-membrane components and collagenases in ascitic xenografts of OVCAR-3 ovarian cancer cells. 834 42

Human pro-MMP-3 (pro-matrix metalloproteinase-3) was purified from three sources: articular cartilage and conditioned media from synovial fibroblasts and Chinese hamster ovary cells expressing recombinant pro-MMP-3. All three preparations reacted with two monoclonal antibodies specific for human fibroblast pro-MMP-3. Each preparation of active MMP-3 possessed properties identical to those previously reported for the cartilage acid metalloproteinase (MMP-6; Azzo and Woessner, J. F., Jr. (1986) J. Biol. Chem. 261, 5434-5441): an acid pH optimum of 5.3-5.5 for digestion of cartilage aggrecan; digestion of oxidized insulin B-chain at Ala14-Leu15 and Tyr16-Leu17 in a ratio of 3:1; and heat stability at neutral pH. Further characterization of MMP-3 establishes that the acid pH optimum for cartilage aggrecan is not due to substrate denaturation since the same optimum is found by viscosity assay, by SDS-polyacrylamide gel electrophoresis assay of G1 domain, and by digestion of aggrecan in fresh cartilage fragments in vitro. Fibronectin was also digested optimally at pH 5.5 and NH2-terminal sequence analysis revealed no pH change in a major proteolytic site of cleavage at the Pro689-Leu690 bond. The specificity constant kcat/Km is maximal at pH 5.5 as determined in a quenched fluorescence peptide assay. This is due to an increase in kcat at pH 5.5 without any substantial effect on Km. The affinity of MMP-3 for calcium is decreased about 10-fold at pH 5.3 compared to neutral pH. Finally, the neutral cartilage metalloproteinase is identified as 72-kDa pro-MMP-2 based on M(r), specificity of insulin B-chain cleavage, and reactivity with a specific polyclonal antibody to human MMP-2.
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PMID:Matrix metalloproteinase-3 (stromelysin-1). Identification as the cartilage acid metalloprotease and effect of pH on catalytic properties and calcium affinity. 840 46

Two closely related secreted metalloproteases 72 and 92 kDa type IV collagenases (72- and 92T4Cl) consist of several structural domains, the functions of which are poorly understood. Both metalloproteases can bind to gelatin as well as form complexes with specific inhibitors in the proenzyme form. The biologic role of the proenzyme-inhibitor complex formation remained unclear. Here we summarize results demonstrating that the fibronectin-like domain of 92T4Cl mediates gelatin binding of the proenzyme, while the hemopexin like carboxy-terminal domain is essential for the complex formation of the proenzyme with TIMP. The formation of a 92T4Cl proenzyme complex with TIMP prevents dimerization, formation of the novel complex with ClI proenzyme, and activation of the 92T4Cl by stromelysin. Conversely, formation of the covalent 92T4Cl homodimer excludes the formation of a proenzyme-TIMP complex, thus allowing this form of enzyme to enter into the proteolytic cascade of activation. Both components of the 92T4Cl-ClI complex can be activated in a fashion similar to that of free enzymes, yielding a complex active against both gelatin and fibrillar collagen.
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PMID:Human 92 kDa type IV collagenase: functional analysis of fibronectin and carboxyl-end domains. 843 55


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