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

We have isolated a COOH-terminal tryptic peptide from the hydrophobic globular (5.6 S) form of Torpedo californica acetylcholinesterase that exhibits divergence in amino acid sequence from the catalytic subunit of the dimensionally asymmetric (17 S + 13 S) enzyme. The divergent peptide could be recovered from the glycophospholipid-modified 5.6 S enzyme only after treatment with phosphatidylinositol-specific phospholipase C. Upon reduction, carboxymethylation with [14C]iodoacetate, and trypsin digestion the resultant peptides were purified by gel filtration followed by high performance liquid chromatography. The high performance liquid chromatography profiles of 14C-labeled cysteine peptides from lipase-treated 5.6 S enzyme revealed unique radioactive peaks which had not been present in digests of the asymmetric form. These peaks all yielded identical amino acid sequences. The difference in chromatographic behavior of the individual peptides most likely reflects heterogeneity in post-translational processing. Gas-phase sequencing and composition analysis are consistent with the sequence: Leu-Leu-Asn-Ala-Thr-Ala-Cys. Composition includes 2-3 mol each of glucosamine and ethanolamine which is indicative of modification by glycophospholipid. Glucosamine is also present in an asparagine-linked oligosaccharide. The two forms of acetylcholinesterase diverge after the threonine residue within this peptide sequence; the hydrophobic form terminates with cysteine whereas the asymmetric form extends for 40 residues beyond the divergence. The locus of divergence and absence of any other amino acid sequence difference suggest that the molecular forms of acetylcholinesterase arise from a single gene by alternative mRNA processing.
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PMID:Divergence in primary structure between the molecular forms of acetylcholinesterase. 333 34

The domains of the acetylcholine receptor subunits that contact the lipid phase were investigated by hydrophobic photolabeling of receptor-rich membrane fragments prepared from Torpedo marmorata and Torpedo californica electric organs. The radioactive arylazido phospholipids used carry a photoreactive group, either at the level of the lipid polar head group (PCI) or at the tip of the aliphatic chain (PCII), and thus probe respectively the "superficial" and "deep" regions of the lipid bilayer. The four subunits of T. marmorata and T. californica acetylcholine receptor reacted with both the PCI and PCII probes and thus are all exposed to the lipid phase. Ligands known to stabilize different conformations of the acetylcholine receptor (nicotinic agonists, snake alpha-toxin, and noncompetitive blockers) did not cause any significant change in the labeling pattern. The acetylcholine receptor associated 43 000-dalton v1 protein did not react with any of the probes. A striking difference in labeling between T. marmorata and T. californica acetylcholine receptors occurred at the level of the alpha-subunit when the superficial PCI probe was used. An approximately 5-fold higher labeling of the alpha-subunit as compared to the beta-, gamma-, and delta-subunits was observed by using receptor-rich membranes from T. marmorata but not from T. californica. The same difference persisted after purification of the labeled receptors from the two species and was restricted to an 8000-dalton C-terminal tryptic peptide. The only mutation observed in this region of the complete alpha-subunit sequence of the two species is the substitution of cysteine-424 in T. marmorata by serine-424 in T. californica.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transmembrane topology of acetylcholine receptor subunits probed with photoreactive phospholipids. 402 35

Clostridium perfringens alpha toxin decreased heart rate, then elevated blood pressure, and finally caused some changes of electrocardiogram readings. The toxin decreased peripheral blood flow before blood pressure started to increase and the blood flow continued to decrease, without any affect on electrocardiogram readings, until the maximal pressure rise caused by the toxin. The toxin caused a rise in blood pressure in a dose-dependent manner. On the other hand, anti-alpha toxin antiserum inhibited both phospholipase C activity and pressor activity. When the toxin was pretreated with cysteine, calcium disodium ethylenediamine tetraacetate and calcium trisodium ethylenetriamine pentaacetate, pressor activity decreased, as well as phospholipase C activity. The results indicate that alpha toxin possesses pressor activity as well as phospholipase C activity.
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PMID:Effect of Clostridium perfringens alpha toxin on the cardiovascular system of rats. 409 5

Fixation of embryonic chick cells (heart, neural retina, and limb bud) in the presence of lanthanum ions shows the presence of an electron-opaque layer, about 50 A thick, external to the cell membrane. This layer, designated LSM (for lanthanum-staining material), is not removable by trypsin, pronase, EDTA, DNase, alpha-amylase, neuraminidase, or N-acetyl-L-cysteine. However, phospholipase C, in concentrations as low as 0.001 mg/ml, succeeds in stripping the LSM from the cell surface. Heating the enzyme preparation does not inhibit this activity, but removal of divalent cations does; both of these results are consistent with the known properties of phospholipase C. The LSM is present at the cell surface in the control tissues and on cells dissociated from the tissues by proteolytic enzymes and EDTA. These results are interpreted to mean that the LSM is probably an integral part of the cell and not an extraneous coat. How this phenomenon bears on the problem of cellular adhesion is discussed, as is the possible chemical composition of the LSM.
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PMID:The removal by phospholipase C of a layer of lanthanum-staining material external to the cell membrane in embryonic chick cells. 416 2

Phallolysin, a mixture of two to three cytolytic proteins (all of Mr 34 000), has been isolated from Amanita phalloides mushrooms and purified to homogeneity (specific activity 24 000 hemolytic units/mg of protein). After separation by isoelectric focusing, the amino acid composition of two of these proteins has been determined. They are rich in water-soluble amino acids and contain one tryptophan residue each, but no cysteine or methionine. Mr was determined to be 34 000 in the native form as well as under denaturing conditions, indicating that the native proteins exist as monomers. Many of the physical properties of phallolysin are strikingly similar to those of staphylococcal alpha-toxin, e.g., molecular weight, existence of multiple forms, pI values, amino acid composition, and thermolability (60 degrees C). Pure phallolysin allowed us to prepare a radioactively labeled toxin. Labeling was achieved by reaction with formaldehyde, followed by reduction with sodium [3H]borohydride. With the labeled toxin (specific activity 7-14 Ci/mmol, ca. 60% biological activity), we investigated its binding to human A2 erythrocytes. We determined the number of receptors on these cells (2 X 10(4) per cell) as well as their affinity to the toxin (KD = 4 X 10(-9) M). In studies on the mechanism of cytolytic activity, we were able to distinguish at least three sequential events: binding of the toxin to human erythrocytes, K+ release, and membrane rupture (hemoglobulin release). These steps could be characterized by different kinetics as well as by different temperature dependencies. Again, the kinetic data for phallolysin are very closely related to those obtained for staphylococcal alpha-toxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Physical properties and function of phallolysin. 662 15

This study demonstrates that p-bromophenacyl bromide irreversibly inhibits, in a time- and dose-dependent manner, yeast alcohol dehydrogenase, bovine pancreatic alpha-chymotrypsin, human platelet phosphatidylinositol (PI)-specific phospholipase C, in addition to the neutral-active and calcium-dependent phospholipase A2 of human platelets. The PI-specific phospholipase C has maximal activity at pH 5,5 is calcium-dependent, and is strongly inhibited by sulfhydryl reagents 5,5'-dithiobis(2-nitrobenzoic acid) (DTNB) and methylmethane thiosulfonate . Increasing concentrations of DTNB produced concomitant inhibition of phospholipase C activity and titration of sulfhydryl groups. In contrast, human platelet phospholipase A2 activity was unaffected by concentrations of DTNB that titrated sulfhydryl groups, and completely inhibited PI-specific phospholipase C activity. Treatment of cysteine with p-bromophenacyl bromide resulted in modification of the amino acid as demonstrated by paper chromatography, and loss of titratable sulfhydryl groups. These data show that p-bromophenacyl bromide inhibits a wide spectrum of enzymatic activities including PI-specific phospholipase C. This reagent modifies amino acid residues other than active-site histidines and therefore has a broader reactivity than previously considered. Thus, it should not be used as a selective inhibitor of enzymes in crude cellular experiments.
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PMID:Nonspecific inhibition of enzymes by p-bromophenacyl bromide. Inhibition of human platelet phospholipase C and modification of sulfhydryl groups. 673 33

The crude venom of Bungarus fasciatus has been fractionated by column chromatography, and the fractionation characteristics of three different resins have been compared. A minimum of 21 fractions can be identified under optimum conditions on Bio-Gel CM-30. Of the major fractions tested for neurotoxic activity, three showed postsynaptic (alpha) and four showed presynaptic (beta) neurotoxic activity. The major protein component (an alpha-neurotoxin) has an isoleucyl N terminus and a calculated molecular weight of 14 200 based on amino acid composition. This main component contains 127 amino acid residues including 16 cysteine residues. A second less abundant alpha-neurotoxin of similar molecular weight has a methionyl N terminus. The isoelectric points of these toxins are 9.1 and 8.8, respectively. A third fraction also has postsynaptic (alpha) activity. Four other, very basic proteins have presynaptic (beta) activity. Their apparent molecular weights are approximately 10 800 (two fractions), 13 100, and 19 100 as determined by sodium dodecyl sulfate gel electrophoresis. All alpha-toxin fractions showed a high tendency to aggregate in aqueous media; however, the presence of L-cysteine in molar excess prevents dimer formation. In the absence of L-cysteine, freeze/thaw cycling of aqueous solutions of alpha-toxins invariably leads to the formation of dimers which can be dissociated only under reducing conditions (beta-mercaptoethanol). Conversely, only one out of four beta-toxins examined tended to form dimers.
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PMID:Neurotoxins from Bungarus fasciatus venom: a simple fractionation and separation of alpha- and beta-type neurotoxins and their partial characterization. 717 59

The gamma subunits of heterotrimeric G proteins are isoprenylated and methylated at their carboxyl-terminal cysteine residues. Since methylation is the only reversible reaction in the isoprenylation pathway, it could be a site of regulation of G protein activity. beta gamma subunits have been shown to activate a number of effectors involved in signal transduction pathways. The methyl group of retinal transducin (T) can be hydrolyzed by an immobilized form of pig liver esterase, allowing for a direct determination of the activities of methylated and demethylated T beta gamma. The abilities of methylated and demethylated T beta gamma to stimulate G protein regulated phosphatidylinositol-specific phospholipase C (PIPLC) and phosphoinositide 3-kinase (PI3K) were determined. It is reported here that there is a strong dependence on methylation for activating both PIPLC and PI3K. Demethylated T beta gamma is at least 10-fold less active than its methylated counterpart. Therefore, methylation may play an important role in the regulation of these effectors and of signal transduction processes in general.
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PMID:Functional significance of beta gamma-subunit carboxymethylation for the activation of phospholipase C and phosphoinositide 3-kinase. 777 19

Staphylococcal alpha-toxin is a primarily hydrophilic molecule that binds as a monomer to target membranes and then aggregates to form amphiphilic oligomers that represent water-filled transmembrane channels. Current evidence indicates that a region located in the center of the molecule inserts deeply into the bilayer. In the present study, we sought to determine whether membrane insertion was triggered by the oligomerization process, and whether insertion correlated with pore formation. Double mutants of alpha-toxin were prepared in which His-35 was replaced by Arg, and cysteine residues were introduced at positions 69, 130 and 186. Substitution of His-35 with Arg rendered the toxin molecules incapable of proper oligomerization, so that they remained in nonlytic form after binding to membranes. The sulfhydryl groups were labelled with the polarity-sensitive fluorescent dye acrylodan. Functionally intact, single mutant toxins containing only the cysteine residues were utilized as controls. Measurements of the fluorescence emission spectrum of acrylodan were performed for the active and inactive alpha-toxin mutants in free solution and in membrane-bound form. The collective results demonstrate that proper oligomerization is required for membrane insertion of the central region in the alpha-toxin molecule, and that lack of insertion correlates with absence of pore formation.
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PMID:Correct oligomerization is a prerequisite for insertion of the central molecular domain of staphylococcal alpha-toxin into the lipid bilayer. 779 60

Previous studies have shown that a single type of transmembrane receptor is able to regulate multiple effectors through the activation of heterotrimeric G proteins. For example, the m2 muscarinic acetylcholine receptor (mAChR) expressed in Chinese hamster ovary (CHO) cells inhibits adenylyl cyclase, stimulates phospholipase C-dependent intracellular Ca2+ release, and activates phospholipase A2 through pertussis toxin-sensitive G proteins. However, it is unclear whether multiple effector enzymes can be regulated by one type of heterotrimeric G protein within a single cell. To investigate this question, we constructed a derivative of G alpha i3 (termed G alpha i3 C > S) in which the carboxyl-terminal cysteine residue, the site for pertussis toxin modification, was changed to a serine. Following pertussis toxin treatment of transfected CHO cells expressing the m2 mAChR, we found that the G alpha i3 C > S protein underwent guanine nucleotide exchange in response to the muscarinic agonist carbachol, while the m2 mAChR failed to activate the endogenous G alpha i2 and G alpha i3 proteins. Moreover, coupling of heterotrimeric G proteins containing G alpha i3 C > S to the m2 mAChR resulted in pertussis toxin-resistant inhibition of adenylyl cyclase, stimulation of phospholipase C-induced intracellular Ca2+ release, and phospholipase A2-mediated arachidonic acid release. Therefore, these studies provide conclusive evidence that heterotrimeric G proteins containing just G alpha i3 can regulate multiple effector enzymes within the same cell type.
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PMID:Heterotrimeric G proteins containing G alpha i3 regulate multiple effector enzymes in the same cell. Activation of phospholipases C and A2 and inhibition of adenylyl cyclase. 796 42


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