EC:3.4.24.23 - FACTA Search

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)

Matrix metalloproteinase-13 (MMP-13) is a proteolytic enzyme that belongs to a large family of extracellular matrix-degrading endopeptidases that are characterized by a zinc-binding motif at their catalytic sites. MMP-13 has a key role in the MMP activation cascade and appears to be critical in bone metabolism and homeostasis. It also has an important role in tumor invasion and metastasis. This commentary provides a detailed overview of the regulatory mechanisms, structure, and function of human MMP-13 and highlights the key factors involved in the biology of this important molecule.
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PMID:The structure, regulation, and function of human matrix metalloproteinase-13. 1213 41

Glycosylation of proteins has profound consequences on the activities of macromolecules and their interactions with inhibitors/substrates. Matrix metalloproteinase-9 (MMP-9, also known as gelatinase B) is a member of the MMP family of zinc-dependent endopeptidases, with critical functions in both physiological and pathological processes. MMP-9, a glycosylated MMP, is implicated in inflammation, angiogenesis and tumor metastasis. We have determined by the use of mass spectrometry that of the three possible N-glycosylation sites in human MMP-9 only two are glycosylated. The N-glycosylation sites are at asparagines in positions 38 and 120, the first site within the propeptide domain of the zymogenic form (pro-MMP-9) of the enzyme and the second in the catalytic domain. The chemical nature of the sugar attachments to both these sites was determined by mass spectrometry. Both N-glycosylation sites have NeuAcalpha(1,2)-Galbeta(1,4)-GlcNAcbeta(1,2)-Manalpha(1,3)-[NeuAcalpha(1,2)-Galbeta(1,4)-GlcNAcbeta(1,2)-Manalpha(1,6)-]Manbeta(1,4)-GlcNAcbeta(1,4)-[Fucalpha(1,6)-]GlcNAcbeta oligosaccharide chains. A computational model of glycosylated pro-MMP-9 was generated and it was studied by dynamics simulations
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PMID:N-Glycosylation pattern of the zymogenic form of human matrix metalloproteinase-9. 1248 95

We have characterized a novel human matrix metalloproteinase (MMP-21) from human placenta DNA complementary to RNA (cDNA). The 569 amino acid translation of the cDNA includes all the typical features of an MMP family member, namely a signal sequence, a prodomain with a PRCGVPD motif, a zinc-binding catalytic domain with an HEIGHVLGL sequence, and a hemopexin-like domain flanked by two cysteine residues. Furthermore, MMP-21 has a furin activation sequence, but no transmembrane sequence nor a cytoplasmic domain. As in Xenopus laevis and Cynops pyrrhogaster there is an additional insertion of approximately 30 amino acids between the prodomain and the catalytic domain, which is poorly conserved between the species and is in human MMP-21 especially proline rich. The MMP-21 gene has seven exons and is located in chromosome 10. This new MMP is the human orthologue for XMMP and CyMMP expressed during gastrulation of X. laevis and C. pyrrhogaster, respectively. A 2.5 kb messenger RNA was observed in fetal liver by Northern analysis. By reverse transcription-polymerase chain reaction, MMP-21 is expressed in various human fetal and adult tissues as well as in cancer cell lines. MMP-21 protein can also be detected in malignancies such as ovarian and colon carcinomas by immunohistochemical staining. Our findings suggest that MMP-21 functions in embryogenesis and tumor progression.
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PMID:Matrix metalloproteinase-21, the human orthologue for XMMP, is expressed during fetal development and in cancer. 1249 Mar 21

Gelatinase A represents an attractive therapeutic target for cancer invasion and metastasis. In order to screen for gelatinase A inhibitors, we have cloned, overexpressed in a bacterial system, and purified the catalytic domain of human gelatinase A with (GaCDfn) or without (GaCD) fibronectin-like insert. GaCDfn and GaCD were purified to homogeneity and refolded in vitro. GaCDfn was refolded to a stable and active form in the presence of calcium and zinc ions. GaCD was refolded through direct dialysis against Tris-HCl (pH 7.5) buffer without calcium and zinc ions. GaCD is unstable in the presence of calcium and zinc ions. The enzymatic activities of GaCDfn and GaCD require calcium and zinc ions, but high concentration of zinc and calcium ions inhibited the activities. The GaCDfn and GaCD cleaved several synthetic substrates including a chromogenic thiopeptolide (TPL) and fluorogenic peptides with optimal activity around pH 7.5. Moreover, GaCDfn and GaCD cleave gelatin and collagen VII and display similar cleavage patterns on the gel, but the digestion rate of these protein substrates by GaCD is apparently slower than GaCDfn. EDTA, 1,10-phenanthroline, and reference inhibitors potently blocked GaCDfn and GaCD enzymatic activities. A set of 3596 compounds from our center collection were screened by using GaCDfn and GaCD to cleave TPL. Further analysis by using MMP inhibitors indicated there is a correlation between IC(50) values on GaCDfn and GaCD. A few compounds with selectivity toward gelatinase A catalytic domain were identified for structure modification.
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PMID:Purification and characterization of catalytic domains of gelatinase A with or without fibronectin insert for high-throughput inhibitor screening. 1250 86

Differential mRNA display was used to comprehensively screen the murine thymic transcriptome for genes modulated in vivo by dietary zinc. A moderate feeding protocol rendered young adult, outbred mice zinc-deficient and zinc-supplemented without alterations in feeding behavior or growth. However, these levels of deficiency and supplementation altered specific mRNA abundances in a manner detectable by differential display. In total, 240 primer-pair combinations were used to generate >48,000 interpretable cDNA bands derived from thymic total RNA, of which only 265 or 0.55% were identified as zinc-modulated under these moderate dietary conditions. The most strongly zinc-modulated cDNAs identified by display were reamplified and sequenced. No cDNAs encoding zinc-metalloenzymes or zinc-finger transcription factors were identified as zinc-modulated in this global screening. Those zinc-regulated genes independently confirmed by quantitative PCR included: heat shock proteins 40 and 60; heat shock cognate 70; histocompatibility 2, class II antigen A, alpha; and the T cell cytokine receptor. In addition, a variety of transcription- and translation-related factors (such as ribosomal proteins L3, L5, and L28; nuclear matrix protein 84; matrin cyclophilin; the H3 histone family 3A protein; beta(2) microglobulin; and a cleavage and polyadenylation factor) were identified as zinc-modulated. These profiling data show that differential expression of genes in the thymus in response to the dietary zinc supply precedes many of the phenotypic effects on thymic function associated with severe zinc restriction or supplementation. Several genes involved in T cell development were identified as regulated by zinc and will be targets to evaluate the effects of zinc on immune function.
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PMID:Dietary zinc modulates gene expression in murine thymus: results from a comprehensive differential display screening. 1264 9

The sulfonamides constitute an important class of drugs, with several types of pharmacological agents possessing antibacterial, anti- carbonic anhydrase, diuretic, hypoglycemic and antithyroid activity among others. A large number of structurally novel sulfonamide derivatives have ultimately been reported to show substantial antitumor activity in vitro and in vivo. Although they have a common chemical motif of aromatic/heterocyclic or amino acid sulfonamide, there are a variety of mechanisms of their antitumor action, such as carbonic anhydrase inhibition, cell cycle perturbation in the G1 phase, disruption of microtubule assembly, functional suppression of the transcriptional activator NF-Y, and angiogenesis (matrix metalloproteinase, MMP) inhibition among others. Some of these compounds selected via elaborate preclinical screenings or obtained through computer-based drug design, are currently being evaluated in clinical trials. The review summarizes recent classes of sulfonamides and related sulfonyl derivatives disclosed as effective tumor cell growth inhibitors, or for the treatment of different types of cancer. Another research line that progressed much in the last time regards different sulfonamides with remarkable antiviral activity. Thus, at least two clinically used HIV protease inhibitors possess sulfonamide moieties in their molecules, whereas a very large number of other derivatives are constantly being synthesized and evaluated in order to obtain compounds with less toxicity or activity against drug-resistant viruses. Several non nucleoside HIV reverse transcriptase or HIV integrase inhibitors containing sulfonamido groups were also reported. Another approach to inhibit the growth of retroviruses, including HIV, targets the ejection of zinc ions from critical zinc finger viral proteins, which has as a consequence the inhibition of viral replication in the absence of mutations leading to drug resistance phenotypes. Most compounds with antiviral activity possessing this mechanism of action incorporate in their molecules primary sulfonamide groups. Some small molecule chemokine antagonists acting as HIV entry inhibitors also possess sulfonamide functionalities in their scaffold.
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PMID:Anticancer and antiviral sulfonamides. 1267 81

The synthesis of several analogues of galardin, a MMP inhibitor, are presented with their in vitro inhibitory activity against MMP-1 and MMP-2. These compounds contain a distinct Zinc Binding Group (ZBG). Those having a 2-acylated-heterocycle as well as a 2-arylamide function do not exhibit a good inhibition/selectivity against the enzymes tested. On the contrary, those that are based on a hydrazide scaffold present potent selectivity for MMP-2 versus MMP-1.
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PMID:Improved gelatinase a selectivity by novel zinc binding groups containing galardin derivatives. 1272 64

Membrane type 1-matrix metalloproteinase (MT1-MMP) is a zinc-dependent, membrane-associated endoproteinase of the metzincin family. The enzyme regulates extracellular matrix remodeling and is capable of cleaving a wide variety of transmembrane proteins. The enzymatic activity of MT1-MMP is regulated by endogenous inhibitors, the tissue inhibitor of metalloproteinases (TIMP). To date, four variants of mammalian TIMP have been identified. Whereas TIMP-2-4 are potent inhibitors against MT1-MMP, TIMP-1 displays negligible inhibitory activity against the enzyme. The rationale for such selectivity is hitherto unknown. Here we identify the surface epitopes that render TIMP-1 inactive against MT1-MMP. We show that TIMP-1 can be transformed into an active inhibitor against MT1-MMP by the mutation of a single residue, namely threonine 98 to leucine (T98L). The resultant mutant displayed inhibitory characteristics of a typical slow, tight binding inhibitor. The potency of the mutant could be further enhanced by the introduction of valine 4 to alanine (V4A) and proline 6 to valine (P6V) mutations. Indeed, the inhibitory profile of the triple mutant (V4A/P6V/T98L) is indistinguishable from those of other TIMPs. Our findings suggest that threonine 98 is critical in initiating MMP binding and complex stabilization. Our findings also provide a potential mechanistic explanation for MMP-TIMP selectivity.
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PMID:Unveiling the surface epitopes that render tissue inhibitor of metalloproteinase-1 inactive against membrane type 1-matrix metalloproteinase. 1286 73

Lung injury and inflammation are associated with exposure to various types of particulate air pollutants. The present study was used to determine whether metalloproteinases (MMPs) are secreted after instilling dust samples into the lung, and to relate levels of specific MMPs to different fractions of the ambient air particle sample EHC-93. Rats received an intratracheal injection of 5 mg dust samples in 0.5 ml water and were killed at intervals from 4 hours to 28 days later particle samples were EHC-93 whole dust, and the insoluble, leached, and soluble fractions of the same dust. Samples prepared from EHC-2K dust were also used, as were solutions of zinc and copper chloride. All samples induced inflammation as measured by increased inflammatory cells in bronchoalveolar lavage (BAL) fluid; the highest levels were found 1 to 3 days after instilling the whole dust. This dust also induced production of MMP-2 and MMP-9 as shown in zymograms. The leached dust induced predominantly MMP-9, which was maximal at 4 hours and 1 day. In contrast, the soluble fraction induced almost exclusive 4 MMP-2, also maximal at 4 hours and 1 day; this enzyme was also produced in response to soluble zinc, the most prevalent soluble metal in the EHC samples. The results demonstrate the rapid production and secretion of MMPs in the lung after particle deposition. A differential pattern of MMP production is seen with MMP-9, likely from inflammatory cells, being produced in response to the insoluble particles, and MMP-2, likey from epithelial cells, being produced in response to the water-soluble fraction of the atmospheric dust.
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PMID:Differential production of metalloproteinases after instilling various urban air particle samples to rat lung. 1288 50

Membrane type 1-matrix metalloproteinase (MT1-MMP) is an integral type I transmembrane multidomain zinc-dependent endopeptidase involved in extracellular matrix remodelling in physiological as well as pathological processes. MT1-MMP participates in the regulated turnover of various extracellular matrix components as well as the activation of secreted metalloproteinases and the cleavage of various cell membrane components. MT1-MMP expression has been reported to correlate with the malignancy of various tumour types and is thought to be an important mediator of cell migration and invasion. Recently, it has been proposed that internalisation of the enzyme from the cell surface is a major short-term level of MT1-MMP regulation controlling the net amount of active enzyme present at the plasma membrane. In this paper we show that, in HT1080 fibrosarcoma cells, MT1-MMP is internalised from the cell surface and colocalises with various markers of the endocytic compartment. Interestingly, we observed that in these cells, internalisation occurs by a combination of both clathrin-mediated and -independent pathways, most probably involving caveolae. In addition, internalised MT1-MMP is recycled to the cell surface, which could, in addition to downregulation of the enzymatic activity, represent a rapid response mechanism used by the cell for relocalising active MT1-MMP at the leading edge during migration.
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PMID:Membrane type I-matrix metalloproteinase (MT1-MMP) is internalised by two different pathways and is recycled to the cell surface. 1291 89

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