EC:3.4.11.18 - FACTA Search

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Query: EC:3.4.11.18 (MAP)
7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fumagillin and ovalicin constitute a family of structurally related natural products that possess antiangiogenic activity. We report the synthesis of a new fumagillin analogue, fumagalone, in which the spiroepoxide group is replaced with an aldehyde. Fumagalone inhibits type 2 methionine aminopeptidase (MetAP2) with IC(50) = 8 microM and endothelial cell proliferation with IC(50) = 52 nM. With dialysis and competition assays, it was unambiguously demonstrated that binding of fumagalone to MetAP2 is reversible.
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PMID:Fumagalone, a reversible inhibitor of type 2 methionine aminopeptidase and angiogenesis. 1287 82

Bacterial protein synthesis starts with a formylated methionine residue, and this residue is sequentially cleaved away by a unique peptide deformylase (PDF) and a methionine aminopeptidase to generate mature proteins. The formylation-deformylation of proteins is a unique hallmark of bacterial metabolism and has recently become an attractive target for the development of antimicrobial agents. The innate immune system uses the formylation of bacterial proteins as a target, and professional phagocytes, e.g., neutrophils, express specific receptors for bacterium-derived formylated peptides. Activation of formyl peptide receptors (FPR) mediates neutrophil migration and the release of oxygen radicals and other antimicrobial substances from these cells. We hypothesize that the use of a PDF inhibitor would increase the production of proinflammatory peptides from the bacteria and thus trigger a more pronounced innate immune response. We tested this hypothesis by exposing Escherichia coli to subinhibitory doses of the PDF inhibitor actinonin and show that actinonin indeed increases the production and secretion of neutrophil-activating peptides that activate human neutrophils through FPR. These findings could be potentially used as a new approach to antibacterial chemotherapy.
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PMID:Subinhibitory concentrations of the deformylase inhibitor actinonin increase bacterial release of neutrophil-activating peptides: a new approach to antimicrobial chemotherapy. 1287 17

The aim of this study is to explain the selectivity of the antiangiogenic drug fumagillin for the eukaryotic enzyme methionine aminopeptidase type II (MetAP-II, EC 3.4.11.18) over the structurally very similar MetAP-I. A homology model for the human MetAP-I is constructed and molecular dynamics simulations are performed on this model with and without a docked fumagillin molecule. These simulations are compared with analogous simulations that were performed on the experimentally determined structure of the human MetAP-II enzyme. We observe an increased flexibility of the active site histidine that is covalently modified by fumagillin in the MetAP-I enzyme. The MetAP-I active site residues, particularly the fumagillin-binding histidine, have a lower probability to be in a conformation that is prone to react with the drug than their MetAP-II counterparts. This result offers an explanation for the selectivity of fumagillin for the eukaryotic MetAP-II enzyme.
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PMID:Understanding the selectivity of fumagillin for the methionine aminopeptidase type II. 1289 41

Fumagillin is a potent anti-angiogenic drug used in cancer treatments. It is also one of the few molecules active against the Enterocytozoon and Encephalitozoon parasites responsible for various clinical syndromes in HIV-infected or immunosuppressive treated patients. Its toxicity, however, makes desirable the design of more specific molecules. The fumagillin target, as anti-angiogenic agent, is the methionine aminopeptidase, an ubiquitous metallo-enzyme responsible for the removing of the N-terminal methionine in nascent proteins. By analogy, it has been proposed that this enzyme could also be the target in the parasites. As a first approach to verify this and to determine if it would be possible to design a more specific derivative, we have built a homology model of the E. cuniculi aminopeptidase. The charges of the two cobalt ions present in the active site and of the side-chains involved in their binding were computed using ab-initio methods. A preliminary comparison of the interactions of the fumagillin and of a related compound, the TNP-470, with both the human and the parasitic enzymes strongly support the hypothesis that the parasitic aminopeptidase is indeed the target of the fumagillin. It also suggests that the TNP-470 interact identically with both enzymes while there could be small differences in case of the fumagillin.
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PMID:Homology modeling and calculation of the cobalt cluster charges of the Encephazlitozoon cuniculi methionine aminopeptidase, a potential target for drug design. 1293 77

Onconase, a cytotoxic ribonuclease from Rana pipiens, possesses pyroglutamate (Pyr) at the N-terminus and has a substrate preference for uridine-guanine (UG). To identify residues responsible for onconase's cytotoxicity, we cloned the rpr gene from genomic DNA and expressed it in Escherichia coli BL21(DE3). The recombinant onconase with Met at the N-terminus had reduced thermostability, catalytic activity and antigenicity. Therefore, we developed two methods to produce onconase without Met. One relied on the endogeneous E.coli methionine aminopeptidase and the other relied on the cleavage of a pelB signal peptide. The Pyr1 substitutional variants maintained similar secondary structures to wild-type onconase, but with less thermostability and specific catalytic activity for the innate substrate UG. However, the non-specific catalytic activity for total RNAs varied depending on the relaxation of base specificity. Pyr1 promoted the structural integrity by forming a hydrogen bond network through Lys9 in alpha1 and Val96 in beta6, and participated in catalytic activity by hydrogen bonds to Lys9 and P(1) catalytic phosphate. Residues Thr35 and Asp67 determined B(1) base specificity, and Glu91 determined B(2) base specificity. The cytotoxicity of onconase is largely determined by structural integrity and specific catalytic activity for UG through Pyr1, rather than non-specific activity for total RNAs.
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PMID:The structural integrity exerted by N-terminal pyroglutamate is crucial for the cytotoxicity of frog ribonuclease from Rana pipiens. 1473 64

We have performed a computational study of different protomeric states of the methionine aminopeptidase active site using a combined quantum-mechanical/molecular mechanical simulation approach. The aim of this study was to clarify the native protonation state of the enzyme, which is needed for the development of novel irreversible inhibitors that can possibly be used as antiangiogenic and antibiotic drugs by virtual screening and other drug design methods. The results of the simulations indicated that two protonation states are possible without disturbing the overall geometry of the active site. We then verified experimentally the presence of the two protonation states by studying the substrate hydrolysis and inhibitor binding reactions at different pH values and come to the conclusion that one of the protomeric states is relevant for inhibitor binding, whereas the other is relevant for substrate hydrolysis. This result has implications for the development of other inhibitors of this class of enzymes and adds a new perspective to the pharmacological properties of the antiangiogenic drug fumagillin, which is an irreversible inhibitor of the human methionine aminopeptidase type II.
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PMID:Protonation states of methionine aminopeptidase and their relevance for inhibitor binding and catalytic activity. 1451 93

The proteome contains hundreds of proteins that in theory could be excellent therapeutic targets for the treatment of human diseases. However, many of these proteins are from functional classes that have never been validated as viable candidates for the development of small molecule inhibitors. Thus, to exploit fully the potential of the Human Genome Project to advance human medicine, there is a need to develop generic methods of inhibiting protein activity that do not rely on the target protein's function. We previously demonstrated that a normally stable protein, methionine aminopeptidase-2 or MetAP-2, could be artificially targeted to an Skp1-Cullin-F-box (SCF) ubiquitin ligase complex for ubiquitination and degradation through a chimeric bridging molecule or Protac (proteolysis targeting chimeric molecule). This Protac consisted of an SCF(beta-TRCP)-binding phosphopeptide derived from IkappaBalpha linked to ovalicin, which covalently binds MetAP-2. In this study, we employed this approach to target two different proteins, the estrogen (ER) and androgen (AR) receptors, which have been implicated in the progression of breast and prostate cancer, respectively. We show here that an estradiol-based Protac can enforce the ubiquitination and degradation of the alpha isoform of ER in vitro, and a dihydroxytestosterone-based Protac introduced into cells promotes the rapid disappearance of AR in a proteasome-dependent manner. Future improvements to this technology may yield a general approach to treat a number of human diseases, including cancer.
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PMID:Development of Protacs to target cancer-promoting proteins for ubiquitination and degradation. 1452 58

The binding mode of a recently described set of alpha-hydroxy-beta-amino acid inhibitors of methionine aminopeptidase type 2 is suggested in the present work. The binding mode is supported by analysis of published structures of transition state analogues co-crystallised with E. coli methionine aminopeptidase and by a comparison of molecular interaction fields calculated using GRID for E. coli and human methionine aminopeptidase. Based on the suggested binding mode two types of scoring functions have been evaluated and compared. These are the commercially available consensus score, CScore, and scoring of the ligands employing energies calculated using the Merck Molecular Force Field (MMFF). Enriched subsets of ligands were obtained when using CScore, but these scores could not be used to assess the relative affinities of individual compounds. Although still not sufficiently accurate for reliable predictive purposes, an improved correlation was obtained between structure and affinity using a combined force field energy including contributions from solvation and conformational energy penalty for binding.
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PMID:Binding of alpha-hydroxy-beta-amino acid inhibitors to methionine aminopeptidase. The performance of two types of scoring functions. 1463 29

Streptococcus salivarius methionine aminopeptidase (MetAP) was purified from a recombinant Escherichia coli strain containing the S. salivarius map gene, which codes for MetAP. S. salivarius map coded for a protein of 286 amino acids with a calculated molecular mass of 31,723 Da and a pI of 4.6. The native enzyme eluted from a Superdex column as a protein with a molecular mass of 30.6 kDa and cleaved N-terminal Met of peptide only when the penultimate amino acid was Gly, Ala, Ser, Val, Pro, or Thr. The enzyme was more active against tetrapeptides than tripeptides and did not recognize dipeptides. It required the presence of a metal cation for activity, with a preference for Co(2+) over Mn(2+). S. salivarius MetAP has a pH optimum of 8.0 and an optimal temperature at 50 degrees C. The S. salivarius protein had an extra sequence of 24 amino acids between two conserved aspartate residues involved in the coordination of the metal ion. A similar extra sequence is present in MetAP from other streptococci and from Lactococcus lactis, but not from other bacteria or eukaryotes.
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PMID:Purification and characterization of the Streptococcus salivarius methionine aminopeptidase (MetAP). 1464 54

TNP-470, the first anti-angiogenic small molecule to enter clinical trials, targets methionine aminopeptidase-2 (MetAP-2), a metalloprotease that cleaves the N-terminal methionine of proteins. Previously, biochemical binding, in vivo yeast studies, and structural studies of human methionine aminopeptidase-2 bound to TNP-470 and its analogs fumagillin and ovalicin revealed that these compounds exhibit specificity for MetAP-2 over its family member MetAP-1. To further elucidate the nature of this specificity, we developed a yeast-based screen for human MetAP-2 mutations that confer ovalicin resistance. Of the three resistant alleles, A362T appeared in the majority of clones and was found to be the most resistant to the ovalicin class of inhibitors. Alignment of human MetAP-2 with human MetAP-1, which is naturally ovalicin-resistant, revealed that the analogous residue in MetAP-1 is also a threonine. Mutation of this residue to alanine resulted in an ovalicin-sensitive MetAP-1 allele, demonstrating that an alanine at this position is critical for inhibition by ovalicin. These results provide a molecular explanation for the specificity exhibited by this class of anti-angiogenic agents for MetAP-2 over MetAP-1 and may prove useful in the development of additional MetAP-2-specific therapeutic agents.
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PMID:A single amino acid residue defines the difference in ovalicin sensitivity between type I and II methionine aminopeptidases. 1467 4

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