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:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cultured equine lamellar hoof explants secrete the pro-enzymes matrix metalloproteinase-2 (MMP-2, 72 kDa) and MMP-2 (92 kDa). Untreated explants remained intact when tested on a calibrated force transducer, but when treated with an MMP activator, developed "in-vitro laminitis", separating at the dermal-epidermal junction. Explants treated with the bacterial protease thermolysin separated dose-dependently; this was accompanied by activation of both MMP-2 and -9. Thermolysin-mediated MP activation did not occur in a cell-free system and was not inhibited by the addition of the MMP inhibitor and batimastat. These findings suggest that thermolysin-mediated gelatinase activation is not dependent on membrane-bound matrix metalloproteinase (MT-MMP) activation, providing further evidence that bacteria can produce potent MMP activators that probably facilitate host invasion.
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PMID:Thermolysin activates equine lamellar hoof matrix metalloproteinases. 1181 17

Endothelin-converting enzyme-1 (ECE-1) is a membrane-bound zinc metallopeptidase that is homologous to neprilysin in amino acid sequence. A major in vivo function of ECE-1 is the generation of endothelin-1, a potent vasoconstrictor, from big endothelin-1. ECE-1 is also potentially involved in the processing or degradation of other peptide hormones. In this study we have used substrates based on the sequence of the COOH-terminal half of big endothelin-1 to examine the subsite specificity of recombinant ECE-1. The big endothelin-1 [16-38] peptides were systematically varied at either position 21 (P(1)) or position 22 (P'(1)) and used in steady-state kinetic analyses of ECE-1. The results indicate that the S(1) pocket of ECE-1 is relatively nonselective, but that the S'(1) subsite of ECE-1 has a preference for large hydrophobic side chains. The peptidyl carboxydipeptidase activity of ECE-1 was also characterized, revealing that substrates with COOH-terminal carboxylates are highly preferred over the cognate amides and esters. A site-directed mutagenesis study was carried out to identify the active-site amino acid residues specifically involved in binding to the COOH-terminal carboxylate of substrates. The data indicate that Arg(133) of ECE-1, which corresponds to Arg(102) of neprilysin that has been identified as an active-site residue of neprilysin involved in binding to the free carboxylate of some substrate peptides, may not play the same role. However, the low activity observed for an ECE-1 Arg(726) mutant is consistent with a role for this arginine residue in the binding of substrates, a role which has been ascribed to arginine residues in both thermolysin (Arg(203)) and neprilysin (Arg(717)).
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PMID:Mapping the active site of endothelin-converting enzyme-1 through subsite specificity and mutagenesis studies: a comparison with neprilysin. 1183 55

Peptidases play a vital and often highly specific role in the physiological and pathological generation and termination of peptide hormone signals. The thermolysin-like family of metalloendopeptidases involved in the extracellular processing of neuroendocrine and cardiovascular peptides are of particular significance, reflecting both their specificity for particular peptide substrates and their utility as therapeutic targets. Although the functions of the membrane-bound members of this family, such as angiotensin-converting enzyme and neutral endopeptidase, are well established, a role for the predominantly soluble family members in peptide metabolism is only just emerging. This review will focus on the biochemistry, cell biology, and physiology of the soluble metalloendopeptidases EC 3.4.24.15 (thimet oligopeptidase) and EC 3.4.24.16 (neurolysin), as well as presenting evidence that both peptidases play an important role in such diverse functions as reproduction, nociception, and cardiovascular homeostasis.
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PMID:Soluble metalloendopeptidases and neuroendocrine signaling. 1237 44

Alpha-synuclein (alpha-syn) is a "natively unfolded" protein constituting the major component of intracellular inclusions in several neurodegenerative disorders. Here, we describe proteolysis experiments conducted on human alpha-syn in the presence of SDS micelles. Our aim was to unravel molecular features of micelle-bound alpha-syn using the limited proteolysis approach. The nonspecific proteases thermolysin and proteinase K, as well as the Glu-specific V8-protease, were used as proteolytic probes. While alpha-syn at neutral pH is easily degraded to a variety of relatively small fragments, in the presence of 10 mM SDS the proteolysis of the protein is rather selective. Complementary fragments 1-111 and 112-140, 1-113 and 114-140, and 1-123 and 124-140 are obtained when thermolysin, proteinase K, and V8 protease, respectively, are used. These results are in line with a conformational model of alpha-syn in which it acquires a folded helical structure in the N-terminal region in its membrane-bound state. At the same time, they indicate that the C-terminal portion of the molecule is rather rigid, as seen in its relative resistance to extensive proteolytic degradation. It is likely that, under the specific experimental conditions of proteolysis in the presence of SDS, the negatively charged C-terminal region can be rigidified by binding a calcium ion, as shown before with intact alpha-syn. In this study, some evidence of calcium binding properties of isolated C-terminal fragments 112-140, 114-140, and 124-140 was obtained by mass spectrometry measurements, since molecular masses for calcium-loaded fragments were obtained. Our results indicate that the C-terminal portion of the membrane-bound alpha-syn is quite rigid and structured, at variance from current models of the membrane-bound protein deduced mostly from NMR. Considering that the aggregation process of alpha-syn is modulated by its C-terminal tail, the results of this study may provide useful insights into the behavior of alpha-syn in a membrane-mimetic environment.
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PMID:Conformational properties of the SDS-bound state of alpha-synuclein probed by limited proteolysis: unexpected rigidity of the acidic C-terminal tail. 1698 12

A method of isolation of hydrophobic membrane-bound C-terminal domain of influenza virus A hemagglutinin (HA) is suggested. The method is based on the insertion of HA into octylglucoside micelles followed by pepsin or thermolysin hydrolysis. Subsequent treatment of proteolytic digests with chloroform-hexafluoroisopropanol mixture resulted in the extraction of a few hydrophobic peptides into organic phase. Mass-spectrometry (MALDI-TOF) analysis revealed that the peptides with ion masses corresponding to the anchoring C-terminal domain with or without modifications predominated in the organic solution. The data obtained confirmed our speculation on the possibility of the suggested isolation scheme following from the strong interactions of anchoring domains in compact trimeric structure of HA spikes combined with micelle protection effect. Several appropriate peptides presence in the organic phase apparently arises from the presence of a few accessible proteolytic sites in HA transmembrane region.
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PMID:Isolation of influenza virus A hemagglutinin C-terminal domain by hemagglutinin proteolysis in octylglucoside micelles. 1710 Jun 46

Mpl, a thermolysin-like metalloprotease, and PC-PLC, a phospholipase C, are synthesized as proenzymes by the intracellular bacterial pathogen Listeria monocytogenes. During intracellular growth, L. monocytogenes is temporarily confined in a membrane-bound vacuole whose acidification leads to Mpl autolysis and Mpl-mediated cleavage of the PC-PLC N-terminal propeptide. Mpl maturation also leads to the secretion of both Mpl and PC-PLC across the bacterial cell wall. Previously, we identified negatively charged and uncharged amino acid residues within the N terminus of the PC-PLC propeptide that influence the ability of Mpl to mediate the maturation of PC-PLC, suggesting that these residues promote the interaction of the PC-PLC propeptide with Mpl. In the present study, we identified a non-catalytic histidine residue (H226) that influences Mpl secretion across the cell wall and its ability to process PC-PLC. Our results suggest that a positive charge at position 226 is required for Mpl functions other than autolysis. Based on the charge requirement at this position, we hypothesize that this residue contributes to the interaction of Mpl with the PC-PLC propeptide.
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PMID:A non-catalytic histidine residue influences the function of the metalloprotease of Listeria monocytogenes. 2414 Jun 48


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