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)

Pump-1 cDNA has recently been isolated by screening a human tumor cDNA library with a transin (rat stromelysin) probe under low-stringency hybridization conditions. The cDNA codes for a potential protein with significant sequence similarity to the metalloproteinases collagenase and stromelysin, but which lacks the hemopexin-like domain characteristic of these enzymes. Expression of pump-1 cDNA in cos cells using an expression vector leads to secretion of a protein of Mr 28,000 with latent, organomercurial-activatable proteinase activity. Cos cells transfected with a partial pump-1 cDNA in the vector pPROTA secrete a fusion protein between the IgG-binding domains of staphylococcal protein A and pump-1. The fusion protein binds to IgG-Sepharose, and the bound fusion protein undergoes apparent autocleavage in the presence of 4-aminophenylmercuric acetate with elution of active pump-1 species of Mr 21,000 and 19,000. Active pump-1 degrades casein, gelatins of types I, III, IV, and V, and fibronectin and can activate collagenase. Active pump-1 is inhibited by EDTA, 1,10-phenanthroline, and the tissue inhibitor of metalloproteinases. These results show that, despite the absence of a hemopexin-like domain, pump-1 is a latent secreted metalloproteinase. Postpartum rat uteri contain elevated levels of rat pump-1 mRNA. On the basis of this observation, its size, and its substrate specificity, we suggest that pump-1 might correspond to a previously described uterine metalloproteinase, matrix metalloproteinase 7.
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PMID:Pump-1 cDNA codes for a protein with characteristics similar to those of classical collagenase family members. 255 50

Tissue inhibitors of matrix metalloproteinases (TIMPs) represent a family of ubiquitous proteins which main biological function resides in their ability to control the activity of matrix metalloproteinases (MMPS). The structures and specificities of TIMP1 and TIMP2 are described. Moreover, TIMP1, but not TIMP2, is able to stimulate the growth of several cell types. TIMP1 interacts with keratinocytes via a receptor mediated pathway (Kd = 8.7 nM; 135,000 sites/cell). Thus, this inhibitor does contain several structural domains able to recognize i) MMP active site, ii) pro-MMP9 hemopexin-like domain, iii) cell membrane proteins.
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PMID:[Tissue inhibitors of matrix metalloproteinases TIMP 1-2. Structures and functions]. 801

In this study, we have used high resolution gel-filtration chromatography and measurements of Ki to compare the capacity of full-length native stromelysin, C-terminal truncated stromelysin (Phe100-Pro273), and matrilysin (the only metalloproteinase spontaneously lacking a C-terminal hemopexin-like domain) to bind to the tissue inhibitor of metalloproteinases (TIMP). While prostromelysin failed to bind TIMP, active stromelysin bound to the inhibitor avidly, exhibiting an affinity for TIMP (Ki = 8.3 x 10(-10) M) essentially identical to that of active interstitial collagenase as determined by competition experiments. C-terminal truncated stromelysin also formed a higher M(r) complex with TIMP which survived gel filtration. However, when truncated stromelysin was forced to compete with its full-length parent molecule for limiting amounts of TIMP, the full-length enzyme preferentially bound to the inhibitor. Indeed, binding studies indicated a Ki of 5.95 x 10(-9) M for the truncated variant's interaction with TIMP, only 14% as tight as that of full-length stromelysin. We also examined the interaction between TIMP and matrilysin, the only metalloproteinase which naturally lacks a C-terminal domain. Promatrilysin failed to bind the inhibitor. However, active matrilysin readily bound TIMP, forming a complex that resisted separation by gel filtration. When active matrilysin was forced to compete with truncated stromelysin for limiting amounts of TIMP, both enzymes appeared to complex the inhibitor with nearly equivalent efficacy. Indeed, active matrilysin exhibited a Ki for TIMP of 4.5 x 10(-9) M, essentially identical to that of truncated stromelysin. These data indicate that, as is true for collagenase, the C-terminal domain of stromelysin contributes significantly to its capacity to bind the physiologic inhibitor, TIMP. Furthermore, since stromelysin readily processes in vitro to a C-terminal truncated form, this enzyme species, as well as the full-length metalloproteinase matrilysin, may resist inhibition by TIMP in areas of active inflammation in vivo.
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PMID:Contribution of the C-terminal domain of metalloproteinases to binding by tissue inhibitor of metalloproteinases. C-terminal truncated stromelysin and matrilysin exhibit equally compromised binding affinities as compared to full-length stromelysin. 817 79

The actions of recombinant human fibroblast collagenase (MMP1), purified polymorphonuclear leucocyte collagenase (MMP8) and their N-terminal catalytic domain fragments against cartilage aggrecan and an aggrecan G1-G2 fragment have been investigated in vitro. After activation with recombinant human stromelysin and typsin, both collagenases were able to degrade human and porcine aggrecans to a similar extent. An N-terminal G1-G2 fragment (150 kDa) was used to identify specific cleavage sites occurring within the proteinase-sensitive interglobular domain between G1 and G2. Two specific sites were found; one at an Asn341-Phe342 bond and another at Asp441-Leu442 (human sequence). This specificity of the collagenases for aggrecan G1-G2 was identical with that of the truncated metalloproteinase matrilysin (MMP7), but different from those of stromelysin (MMP3) and the gelatinases (MMP2 or gelatinase A; MMP9 or gelatinase B) which cleave at the Asn-Phe site, but not the Asp-Leu site. In addition, collagenase catalytic fragments lacking C-terminal hemopexin-like domains were tested and shown to exhibit the same specificities for the G1-G2 fragment as the full-length enzymes. Thus the specificity of the collagenases for cartilage aggrecan was not influenced by the presence or absence of the C-terminal domain. Together with our previous findings, the results show that stromelysin-1, matrilysin, gelatinases A and B and fibroblast and neutrophil collagenases cleave at a common, preferred site in the aggrecan interglobular domain, and additionally that both fibroblast and neutrophil collagenases cleave at a second site in the interglobular domain that is not available to stromelysin or gelatinases.
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PMID:Fibroblast and neutrophil collagenases cleave at two sites in the cartilage aggrecan interglobular domain. 821 28

A truncated form of the membrane-type matrix metalloproteinase-1 [(Ala21-Ile318)proMT1-MMP] lacking the hemopexin-like and trans-membrane domain was produced in E. coli. We demonstrate that the recombinant proenzyme was autoproteolytically processed to a fully active catalytic domain with N-terminal Ile114. The catalytic domain of MT1-MMP initiated the activation of progelatinase A and progelatinase A complexed with tissue inhibitor of metalloproteinases-2 (TIMP-2). As a typical soluble metalloproteinase it was able to cleave physiologic as well as synthetic substrates. Our kinetic data demonstrate that TIMP-2 is a potent inhibitor for the recombinant enzyme.
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PMID:The recombinant catalytic domain of membrane-type matrix metalloproteinase-1 (MT1-MMP) induces activation of progelatinase A and progelatinase A complexed with TIMP-2. 895 63

The hatching enzyme (envelysin) of the sea urchin Hemicentrotus pulcherrimus was purified from the medium of hatched blastulae. By cDNA cloning its deduced amino acid sequence and molecular architecture were revealed. The 591-residue precursor with calculated Mr of 66,123 consists of an 18-residue signal sequence, a 151-residue propeptide, and a 422-residue mature enzyme with N-terminal catalytic and C-terminal hemopexin-like domains. As compared with that of Paracentrotus lividus, its amino acid sequence is 69% identical and 10% similar. They share typical structural features with the mammalian MMP gene family members: cysteine switch, zinc-binding signature, methionine-turn, Cys residues near both ends of hemopexin-like domain, etc. However, its propeptide has a 70-residue extra sequence with an Asp- and Glu-rich stretch, supposedly involved in the proenzyme activation by binding Ca2+ ions in seawater. The hinge region is also longer than those of most MMPs, with an extra sequence rich in Thr and Arg residues. Mature 50K enzyme is highly susceptible to autolytic cleavage at Gln(503)-Leu(504), producing the 38K form retaining catalytic activity and substrate specificity against fertilization envelope. The 38K form and 15K fragment were coeluted from a gel-filtration column, suggesting that these two fragments are disulfide-bridged and that the tertiary structure is not much deviated. The 38K form further autolyzed to 32K form by cleaving Tyr(450)-Tyr(451) bond with the loss of protein-substrate specificity, retaining only nonspecific protease activity. Thus, the autolytic release of 2/3 of the C-terminal domain reduced the highly specific enzyme to a common nonspecific protease, implying that the size and structure of almost the entire hemopexin-like domain is essential for the protein substrate specificity. Moreover, autolytic degradation of envelysins from the two species follow quite different pathways despite their high homology in structure. The 38K and 32K forms were inhibited by bovine TIMP-1 with different IC50 values, indicating that its inhibitory activity depends on the extent of the interaction with the C-terminal domain of the enzyme.
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PMID:Sea urchin hatching enzyme (envelysin): cDNA cloning and deprivation of protein substrate specificity by autolytic degradation. 918 24

Soluble proenzyme forms of the catalytic domains of membrane-type matrix metalloproteinases 1 and 2 (MT1-MMP and MT2-MMP) and a form of MT1-MMP containing the catalytic and hemopexin domains were expressed as soluble recombinant proteins. Purified, activated forms of the MT-MMP were shown to degrade fibronectin, tenascin, nidogen, aggrecan and perlecan. Only MT2-MMP showed activity against laminin. MT1-MMP retaining the hemopexin domain was able to specifically cleave native type-I and type-III collagens into the 3/4-1/4 fragments typical of the specific collagenases. The catalytic domain alone did not retain this activity. The MT-MMP did not degrade interleukin-1beta, but, similarly to many other MMP, could process a pro [tumor necrosis factor (TNF) alpha] fusion protein to release mature TNF. However, the latter was subsequently degraded into smaller fragments. These results demonstrate that, in addition to their ability to activate other MMP, such as progelatinase A/proMMP2 and procollagenase-3/proMMP13, MT-MMP degrade a number of extracellular matrix macromolecules. Their location at the surface of cells implies that they could play a significant role in the modulation of cell-matrix interactions.
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PMID:Membrane-type matrix metalloproteinases 1 and 2 exhibit broad-spectrum proteolytic capacities comparable to many matrix metalloproteinases. 946 Dec 98

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

Neutrophil collagenase or collagenase 2 (MMP-8) is unique among the family of matrix metalloproteinases (MMPs) because of its exclusive pattern of expression in inflammatory conditions. At present, no evidence of the occurrence of this enzyme in tissues other than human has been reported. In this work, we have cloned the murine homologue of human collagenase 2. The isolated cDNA contains an open reading frame coding for a polypeptide of 465 amino acids, which is 74% identical to its human counterpart. The mouse collagenase 2 exhibits the domain structure characteristic of several MMPs, including a signal sequence, a prodomain with the cysteine residue essential for enzyme latency, an activation locus with the Zinc-binding site, and a COOH-terminal fragment with sequence similarity to hemopexin. It also contains the three conserved residues (Tyr-209, Asp-230, and Gly-232) located around the Zinc-binding site and are distinctive of the collagenase subfamily. Northern blot analysis of RNAs isolated from a variety of mouse tissues revealed that collagenase 2 is expressed at late stages during mouse embryogenesis, coinciding with the appearance of hematopoietic cells. In addition, collagenase 2 was highly expressed in the postpartum uterus starting at 1 day postpartum and extending up to 5 days. Enzymatic analysis revealed that matrilysin, another MMP overexpressed in uterine tissue, is able to activate murine procollagenase 2. These data suggest that both enzymes could form an activation cascade resulting in the generation of the collagenolytic activity required during the process of massive connective tissue resumption occurring in the involuting uterus.
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PMID:Collagenase 2 (MMP-8) expression in murine tissue-remodeling processes. Analysis of its potential role in postpartum involution of the uterus. 972 11

A comprehensive sequence alignment of 64 members of the family of matrix metalloproteinases (MMPs) for the entire sequences, and subsequently the catalytic and the hemopexin-like domains, have been performed. The 64 MMPs were selected from plants, invertebrates, and vertebrates. The analyses disclosed that as many as 23 distinct subfamilies of these proteins are known to exist. Information from the sequence alignments was correlated with structures, both crystallographic as well as computational, of the catalytic domains for the 23 representative members of the MMP family. A survey of the metal binding sites and two loops containing variable sequences of amino acids, which are important for substrate interactions, are discussed. The collective data support the proposal that the assembly of the domains into multidomain enzymes was likely to be an early evolutionary event. This was followed by diversification, perhaps in parallel among the MMPs, in a subsequent evolutionary time scale. Analysis indicates that a retrograde structure simplification may have accounted for the evolution of MMPs with simple domain constituents, such as matrilysin, from the larger and more elaborate enzymes.
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PMID:Matrix metalloproteinases: structures, evolution, and diversification. 973 11


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