EC:3.1.4.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The maturation of the 33-kDa proenzyme to the 29-kDa phosphatidylcholine phospholipase C (PC-PLC) of Listeria monocytogenes requires the production of the zinc metalloprotease encoded by mpl, the proximal gene of the lecithinase operon. We recently described a low-virulence lecithinase-deficient mutant of L. monocytogenes EGD-SmR, designated JL762, generated by a single insertion of transposon Tn1545 in mpl. This mutant failed to produce the 29-kDa PC-PLC, an exoenzyme probably involved in cell-to-cell spreading. The role of the product of the mpl gene in production of PC-PLC was investigated in trans-complementation experiments. The entire mpl gene was cloned in a plasmid able to replicate in L. monocytogenes. This recombinant plasmid was introduced into JL762 and restored the lecithinase phenotype on egg yolk agar and the production of the active 29-kDa PC-PLC in culture supernatants and partially restored the level of virulence. These results demonstrate that zinc-dependent metalloprotease of L. monocytogenes is involved in the virulence of this bacteria at least through its action on PC-PLC.
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PMID:The zinc metalloprotease of Listeria monocytogenes is required for maturation of phosphatidylcholine phospholipase C: direct evidence obtained by gene complementation. 838 63

Many cell surface proteins are anchored into the cell membrane by glycosylphosphatidylinositol (GPI), among those a recently discovered arginine-specific mono-ADP-ribosyltransferase on cytotoxic T cells (CTL). This enzyme transfers ADP-ribose to cell surface proteins resulting in inhibition of cytotoxic and proliferative activity. Here we report that ADP-ribosyltransferase is released in active forms by crosslinking CD3, exposure to Il-2 or PMA stimulation. Release of transferase is specific, as another GPI-anchored protein, Thy-1 is not released. Transferase molecules released by cell activation are indistinguishable in size from molecules released by phospholipase C, suggesting that the release mechanism acts close to or within the GPI anchor. Protease inhibitors fail to inhibit transferase release with exception of 1,10-phenanthroline and its 4,7-diphenyl derivative. This suggests that the release mechanism acts on the cell surface but does not discriminate between action of a metalloprotease or phospholipase D. Release of transferase is shown to be rapid, it is not suppressed by monensin or brefeldin A and independent of serum phospholipase D, consistent with a mechanism acting on the cell surface. Transferase expression is shown to be dependent on the cell activation stage. In CTL clones, the transferase is demonstrable as a phospholipase C releasable molecule at early but not later stages of Ag specific activation.
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PMID:Release of a glycosylphosphatidylinositol-anchored ADP-ribosyltransferase from cytotoxic T cells upon activation. 859 99

To determine biochemical changes associated with early parasite development, Haemonchus contortus larvae were cultured in vitro to the fourth stage (L4). Infective larvae developed from third to fourth stage in 48-96 h. Metabolic activity increased following stimulus of infective stages by CO2 secretion/excretion of significant amounts of protein into cultures and larval feeding did not occur until larvae had molted to the fourth stage. Larval feeding, as monitored by the ability of larvae to ingest fluorescein-labeled albumin, correlated with molting to the fourth stage and only fourth stage larvae were observed to feed. Fourth stage larvae secreted/excreted several enzymes into culture media including a metalloprotease, an acid phosphohydrolase, a cathepsin C-like enzyme, a phospholipase C-like enzyme and an N-acetyl-beta-D-glucosaminidase. Excretory-secretory (ES) products produced by L4 had antigenic homologies with parasite products produced during the second molt and with proteins and glycoproteins extracted from third and fourth stage larvae. ES products were recognized by sera from sheep infected with H. contortus. The enzymes identified here serve as markers for maturation to the fourth larval stage as well as the initiation of feeding and are likely to be involved in extracorporeal digestion. Further, they might serve as potential targets for immune or chemical control of trichostrongyle infections.
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PMID:Characterization of excretory-secretory products from larval stages of Haemonchus contortus cultured in vitro. 868 75

Listeria monocytogenes is an intracellular bacterium that secretes proteins into the cytosol of infected macrophages. Major histocompatibility complex (MHC) class I molecules bind peptides that are generated by the degradation of bacterial proteins and present them to cytolytic T lymphocytes (CTL). In this study we have investigated CTL responses in L. monocytogenes-immunized mice to peptides that (i) derive from the L. monocytogenes proteins phosphatidylinositol-specific phospholipase C, lecithinase (most active on phosphatidylcholine), metalloprotease (Mpl), PrfA, and the ORF-A product and (ii) conform to the binding motif of the H2-Kd MHC class I molecule. We identified a nonamer peptide, Mpl 84-92, that is presented to L. monocytogenes-specific CTL by H2-Kd MHC class I molecules. Unlike other motif-conforming peptides derived from the secreted Mpl of L. monocytogenes, Mpl 84-92 is bound with high affinity by H2-Kd. Mpl 84-92 is the fourth L. monocytogenes-derived peptide found to be presented to CTL by the H2-Kd molecule during infection and demonstrates the importance of high-affinity interactions between antigenic peptides and MHC class I molecules for CTL priming.
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PMID:A nonamer peptide derived from Listeria monocytogenes metalloprotease is presented to cytolytic T lymphocytes. 939 33

The insect pathogen Bacillus thuringiensis (Bt) has earlier been shown to possess virulence factors in addition to the crystal toxins. Bt subsp. gelechiae strain Bt13 lacks crystals but is still virulent to lepidopteran insects. Among the virulence co-expressed genes are two phospholipases; phosphatidylinositol-specific phospholipase C (PI-PLC) and phosphatidylcholine-degrading phospholipase C (PC-PLC), flagellin, and beta-lactamase I. In addition to these putative virulence factors the toxic neutral metalloprotease immune inhibitor A (InA) has been identified. In this paper we report a circular 5.9 Mb combined physical and genetic map of the of the Bt subsp. gelechiae chromosome. The genes encoding PI-PLC, PC-PLC, InA, flagellin, and beta-lactamase I are shown to be scattered over the chromosome. The PLC-encoding genes have been cloned from Bt13, and DNA sequencing showed that the Bt subsp. gelechiae PLC genes are >90% identical to their previously cloned equivalents from Bt or B. cereus. An HD-1 crystal toxin (cryIA) gene probe was found to hybridize to the Bt13 chromosome, but not to extrachromosomal elements.
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PMID:Localization of putative virulence genes on a physical map of the bacillus thuringiensis subsp. gelechiae chromosome 973 31

An aminopeptidase N (APN) isozyme having the molecular weight of 90 kDa, was released by phosphatidylinositol-specific phospholipase C (PI-PLC) and purified homogeneously, from the brush border membrane of Bombyx mori. From the result of cDNA cloning, the primary structure of 90 kDa APN proved to consist of 948 amino acid residues, containing a typical metalloprotease-specific zinc-binding motif in the deduced sequence. Moreover, the primary sequence contained two hydrophobic segments on N- and C-termini. The N-terminal one showed characteristics of leader peptide for secretion and the C-terminal one contained a possible glycosylphosphatidylinositol (GPI) anchoring site, suggesting that the APN encoded by the cDNA is not only a zinc-binding enzyme, but also a GPI-anchored protein. The primary sequence is significantly homologous with those of insect and mammalian APNs, and contains four conserved segments around the zinc-binding motif, two potential N-glycosylation sites and four conserved Cys residues. The deduced primary sequence had 30.7% identity with that of B. mori 110 kDa APN, and did not contain the N-terminal and internal amino acid sequences of B. mori 100 kDa APN, revealing B. mori 90 kDa APN to be the third isozyme on the midgut brush border membrane. On the other hand, the primary sequence of 90 kDa APN showed high homology with Manduca sexta APN2 (65.1% identity) and Plutella xylostella APN2 (63.8% identity). It appears that the B. mori 90 kDa APN should be classified in the insect apn2 cluster and differentiated from insect apn1 and mammalian apn clusters by phylogenetic analysis. These results suggest that 90 kDa APN isozyme encoded by the cDNA is a product of B. mori apn2 gene.
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PMID:Cloning and sequence analysis of the aminopeptidase N isozyme (APN2) from Bombyx mori midgut. 997 96

Listeria monocytogenes grows in the cytosol of mammalian cells and spreads from cell to cell without exiting the intracellular milieu. During cell-cell spread, bacteria become transiently entrapped in double-membrane vacuoles. Escape from these vacuoles is mediated in part by a bacterial phospholipase C (PC-PLC), whose activation requires cleavage of an N-terminal peptide. PC-PLC activation occurs in the acidified vacuolar environment. In this study, the pH-dependent mechanism of PC-PLC activation was investigated by manipulating the intracellular pH of the host. PC-PLC secreted into infected cells was immunoprecipitated, and both forms of the protein were identified by SDS-PAGE fluorography. PC-PLC activation occurred at pH 7.0 and lower, but not at pH 7.3. Total amounts of PC-PLC secreted into infected cells increased several-fold over controls within 5 min of a decrease in intracellular pH, and the active form of PC-PLC was the most abundant species detected. Bacterial release of active PC-PLC was dependent on Mpl, a bacterial metalloprotease that processes the proform (proPC-PLC), and did not require de novo protein synthesis. The amount of proPC-PLC released in response to a decrease in pH was the same in wild-type and Mpl-minus-infected cells. Immunofluorescence detection of PC-PLC in infected cells was performed. When fixed and permeabilized infected cells were treated with a bacterial cell wall hydrolase, over 97% of wild-type and Mpl-minus bacteria stained positively for PC-PLC, in contrast to less than 5% in untreated cells. These results indicate that intracellular bacteria carry pools of proPC-PLC. Upon cell-cell spread, a decrease in vacuolar pH triggers Mpl activation of proPC-PLC, resulting in bacterial release of active PC-PLC.
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PMID:pH-regulated activation and release of a bacteria-associated phospholipase C during intracellular infection by Listeria monocytogenes. 1065 90

Listeria monocytogenes, a facultative intracellular pathogen, synthesizes an extracellular protease which is responsible for the maturation of phosphatidylcholine phospholipase C (lecithinase), a virulence factor involved in cell-to-cell spread. This work describes the environmental parameters necessary for increased production of mature, 35-kDa active protease in strains of L. monocytogenes, and its detection using polyclonal antibodies raised against Bacillus subtilis neutral protease. High performance liquid affinity chromatography was exploited to isolate the biologically active form of the mature protease, which was then subjected to biochemical characterization using casein as a substrate. The protease is a zinc-dependent metalloprotease which degrades casein over a wide range of temperatures and pH values. It can also degrade actin, the most abundant protein in many eukaryotic cells. The Listeria protease was shown to exhibit a high thermal stability and a relatively narrow substrate specificity. A three-dimensional model built on the basis of the homology with thermolysin was used to understand the structural basis of these characteristics.
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PMID:Characteristics of the biologically active 35-kDa metalloprotease virulence factor from Listeria monocytogenes. 1073 52

Protease-activated receptor-2 (PAR-2) plays a role in inflammatory reactions in airway physiology. Proteases cleaving the extracellular NH(2) terminus of receptors activate or inactivate PAR, thus possessing a therapeutic potential. Using RT-PCR and immunocytochemistry, we show PAR-2 in human airway epithelial cell lines human bronchial epithelial (HBE) and A549. Functional expression of PAR-2 was confirmed by Ca(2+) imaging studies using the receptor agonist protease trypsin. The effect was abolished by soybean trypsin inhibitor and mimicked by the specific PAR-2 peptide agonist SLIGKV. Amplitude and duration of PAR-2-elicited Ca(2+) response in HBE and A549 cells depend on concentration and time of agonist superfusion. The response is partially pertussis toxin (PTX) insensitive, abolished by the phospholipase C inhibitor U-73122, and diminished by the inositol 1,4,5-trisphosphate receptor antagonist 2-aminoethoxydiphenyl borate. Cathepsin G altered neither the resting Ca(2+) level nor PAR-2-elicited Ca(2+) response. Thermolysin, a prototypic bacterial metalloprotease, induced a dose-dependent Ca(2+) response in HBE, but not A549, cells. In both cell lines, thermolysin abolished the response to a subsequent trypsin challenge but not to SLIGKV. Thus different epithelial cell types express different PAR-2 with identical responses to physiological stimuli (trypsin, SLIGKV) but different sensitivity to modifying proteases, such as thermolysin.
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PMID:Human bronchial epithelial cells express PAR-2 with different sensitivity to thermolysin. 1200 91

Angiotensin-converting enzyme (ACE), a type I integral membrane protein that plays a major role in vasoactive peptide metabolism, is shed from the plasma membrane by proteolytic cleavage within the juxtamembrane stalk. To investigate whether this shedding is regulated by lateral segregation in cholesterol-rich lipid rafts, Chinese hamster ovary cells and human neuroblastoma SH-SY5Y cells were transfected with either wild-type ACE (WT-ACE) or a construct with a glycosylphosphatidylinositol (GPI) anchor attachment signal replacing the transmembrane and cytosolic domains (GPI-ACE). In both cell types, GPI-ACE, but not WT-ACE, was sequestered in caveolin or flotillin-enriched lipid rafts and was released from the cell surface by treatment with phosphatidylinositol-specific phospholipase C. When cells were treated with activators of the protein kinase C signalling cascade (phorbol myristate acetate or carbachol) the shedding of GPI-ACE was stimulated to a similar extent to that of WT-ACE. The release of WT-ACE and GPI-ACE from the cells was inhibited in an identical manner by a range of hydroxamate-based zinc metalloprotease inhibitors. Disruption of lipid rafts by filipin treatment did not alter the shedding of GPI-ACE, and phorbol ester treatment did not alter the distribution of WT-ACE or GPI-ACE between raft and non-raft membrane compartments. These data clearly show that the protein kinase C-stimulated shedding of ACE does not require the transmembrane or cytosolic regions of the protein, and that sequestration in lipid rafts does not regulate the shedding of the protein.
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PMID:The ectodomain shedding of angiotensin-converting enzyme is independent of its localisation in lipid rafts. 1279 21

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