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:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The specific binding of 3H-labeled prostaglandin (PG) F2alpha to bovine corpus luteum cell membranes was a rapid (K1=1.1 X 10(4) M(-1)S(-1) and reversible (K(-1)=3.3 X 10(-4) S(-1)) process at 22 degrees C. The specific binding was also a saturable process exhibiting two classes of receptors with apparent dissociation constants (Kds) of 1.6 X 10(-9) M and 2.4 X 10(-8) M. The heterogenous nature of [3H]PGF2alpha binding does not appear to be due to negative cooperatively but merely to represent the existence of two independent groups of receptor sites with discrete affinities. Free energy changes of +11.9 and +10.3 Kcal/mol were calculated from the Kds of high and low affinity receptors, respectively. The binding of [3H]PGF2alpha to the membranes was not accompanied by any detectable changes in receptor-bound or free [3H]PGF2alpha. Addition of increasing amounts of unlabeled PGF2alpha resulted in a dose-dependent inhibition of [3H]PGF2alpha binding to the membranes, with complete inhibition occurring at 10(-6) M. Other unlabeled PGs such as PGF1alpha, PGE2 (5-fold), PGE1 (120-fold), PGA1 and PGB1 (about 10,000-fold) were less effective when compared to unlabeled PGF2alpha in inhibiting [3H] PGF2alpha binding to the membranes. The metabolites of PGF2alpha, 15-keto-PGF2alpha and 13,14-dihydro-15-keto-PGF2alpha had 100-fold less affinity for PGF2alpha receptors. 15(S)15-Methyl-PGF2alpha, an analogue of PGF2alpha, had a fairly high affinity but lower than its parent molecule. Various unsaturated fatty acids, indomethacin and 7-oxa-13-prostynoic acid had 3,000- to 10,000-fold less affinities for PGF2alpha receptors. Incubation of membranes with various enzymes revealed that PGF2alpha receptor molecules are protein in nature which require membrane lipids and specific phospholipids for binding function. Among the various phospholipids used, sphingomyelin was found to be very effective in restoring the loss of [3H]PGF2alpha binding in phospholipase C-treated membranes. N-Ethylmaleimide, but not other SH group alkylating agents inhibited binding. The binding was also inhibited by tetranitromethane, dinitrofluorobenzene and acetic anhydride. This suggested that tyrosyl, histidyl, tryptophan and amino (any one or all of them) but not SH groups were involved in binding interaction.
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PMID:Properties of prostaglandin F2alpha receptors in bovine corpus luteum cell membranes. 1 62

The fluorescent probes 8-anilino-1-naphthalenesulfonate (ANS) and 2-p-toluidinylnaphthalene-6-sulfonate (TNS) bind to highly purified myelin membranes obtained from bovine brain white matter. Binding of the dyes was markedly increased by environmental conditions which reduce the negative surface potential of the membrane, i.e., cations (La-3+ is greater than Ca-2+ is greater than Na-+,K-+), H-+, local anesthetics, and the antibiotic polymyxin B. Chemical alteration of accessible membrane charged groups affected dye binding in a manner consistent with the hypothesis that such binding is primarily dependent upon the membrane surface potential. Thus, binding was increased by blocking of carboxyl groups via carbodiimide activation and subsequent coupling with neutral amino acid esters, and even more so with a basic amino acid ester (e.g., arginine methyl ester). Dye binding was reduced by succinylation of amino groups, and by hydrolysis of choline and ethanolamine head groups of phospho- and sphingolipids by phospholipase C. Phospholipase C treatment of myelin, or sphingomyelin vesicles, reduced or abolished the augmentation of ANS and TNS binding due to cations, local anesthetics, or polymyxin B. Energy transfer from myelin tryptophan residues to bound ANS occurs, but with low efficiency. Oxidation of membrane tryptophan residues with N-bromosuccinimide, or alkylation with 2-hydroxy (or methoxy)-5-nitrobenzyl bromide, markedly reduced intrinsic membrane fluorescence and energy transfer to bound ANS, but did not significantly affect dye binding or the quantum yield of ANS fluorescence when excitation was at 380nm. Proteolytic digestion removed 6-30% of myelin protein, depending upon the enzyme used, but had no effect on fluorescent dye binding. It is concluded that the binding of the anionic fluorescent probes ANS and TNS to myelin is primarily a function of the membrane surface charge density and net surface potential, as is the case with other biological membranes. Conclusions about the degree of dye binding to membrane lipids or membrane proteins cannot be drawn unless additional studies are carried out on isolated water soluble membrane proteins.
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PMID:Reactions of fluorescent probes with normal and chemically modified myelin. 23 81

The water-soluble alpha-toxin monomers of Staphylococcus aureus become hexamers forming the transmembrane pore when exposed to the membranes. This pore is freely permeable to small hydrophilic molecules, e.g. carboxyfluorescein, and becomes less permeable in the presence of calcium ions. Calcium ion-mediated decrease of the carboxyfluorescein leakage could not be eliminated by EDTA added in the medium, but the carboxyfluorescein could be freed by EDTA added in the intraliposomal space. This result suggests that the alpha-toxin pore changes its conformation as the calcium ion is bound and that the binding site is exposed to the intraliposomal side of the membrane. The interaction between the alpha-toxin hexamer and 8-anilino-1-naphthalene-sulfonic acid (ANS) was monitored by determining the fluorescence in the presence and absence of calcium chloride. The mean distances between the tryptophan residues of the alpha-toxin hexamer and the bound ANS were calculated to be 1.90 and 1.80 nm in the absence and presence, respectively, of calcium ions. The results showed the calcium ion mediated conformational change of the membrane-embedded alpha-toxin hexamer.
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PMID:Calcium ion-mediated regulation of the alpha-toxin pore of Staphylococcus aureus. 156 91

Two derivatives of alpha-toxin from Naja nigricollis venom were used in order to study, by resonance Raman spectroscopy, its interaction with the nicotinic acetylcholine (AcCho) receptor from membranes of Torpedo marmorata electrocytes. The two modified toxins carry either an NO2 group bound to Tyr25 or a nitrophenylthioether (NPS) bound to Trp29. The comparison of the spectra of the free and bound derivatized toxins indicates that the environment of Tyr25 is not perturbed upon binding to the AcCho receptor; but the surroundings of NPS bound to Trp29 are changed. This result indicates that Tyr25 is not involved in binding, while Trp29 of the alpha-toxin may be in contact with the AcCho receptor. Examination of the spectrum of the AcCho receptor membrane after binding of the NPS-Trp toxin discloses some modifications of the vibrations of the tryptophan and cysteine disulfide bridge of the receptor. These residues are possibly involved in toxin binding.
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PMID:Interaction of modified neurotoxins from Naja nigricollis with the nicotinic acetylcholine receptor from Torpedo marmorata. A Raman spectroscopy study. 195 13

Recent evidence shows that mature Thy-1 glycoprotein lacks amino acids 113-143 predicted from the cDNA sequence and is anchored to the plasma membrane by a phosphatidylinositol-containing glycolipid attached to amino acid 112. Previously characterized Thy-1-deficient mutant lymphoma lines of complementation classes A and E were analysed. They make detergent binding Thy-1 precursors but, in contrast to wild-type, the detergent binding moiety cannot be removed by phospholipase C. Moreover, tryptophan which only occurs at position 124 is incorporated into mutant but not parental Thy-1. This suggests that the mutants make a Thy-1 precursor of 143 amino acids but fail to replace its C-terminal end by a glycolipid anchor.
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PMID:Anchoring of membrane proteins via phosphatidylinositol is deficient in two classes of Thy-1 negative mutant lymphoma cells. 288 Jul 14

Recent evidence shows that the mature Thy-1 surface glycoprotein lacks the C-terminal amino acids 113 to 143 predicted from the cDNA sequence and is anchored in the plasma membrane by a complex, phosphatidylinositol-containing glycolipid attached to the alpha-carboxyl group of amino acid 112. Here we studied the biosynthesis of Thy-1 in two previously described and two newly isolated Thy-1-deficient mutant cell lines. Somatic cell hybridization indicated that their mutations affected some processing step rather than the Thy-1 structural gene. The Thy-1 made by mutants of classes C, F, and H bound detergent but, in contrast to wild-type Thy-1, their detergent-binding moieties could not be removed by phospholipase C. In addition, tryptophan, which only occurs in position 124, was incorporated into Thy-1 of these mutants but not of wild-type cells. Last, the Thy-1 of wild-type but not mutant cells could be radiolabeled with [3H]palmitic acid. Together, these findings strongly suggest that mutants of classes C, F, and H accumulate a biosynthetic intermediate of Thy-1 which retains at least part of the hydrophobic C-terminal peptide. The Thy-1 of these mutants remained endoglycosidase H sensitive, suggesting that it accumulated in the rough endoplasmic reticulum or the Cis-Golgi. A different Thy-1 intermediate was found in a class B mutant cell line: the Thy-1 of this mutant was 2 kilodaltons smaller than the Thy-1 of other cell lines, did not bind detergent, and was rapidly secreted via a normal secretory pathway.
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PMID:No glycolipid anchors are added to Thy-1 glycoprotein in Thy-1-negative mutant thymoma cells of four different complementation classes. 289 21

The serine protease inhibitors diethyl p-nitrophenyl phosphate and phenylmethylsulfonyl fluoride (chemical modifiers of serine residue) and N-acetyl-l-tryptophan ethyl ester (competitive inhibitor of chymotryptic protease) inhibited 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (AGEPC; platelet-activating factor)-induced platelet aggregation and secretion. The inhibition was dependent on the preincubation time with the serine protease inhibitor and on the concentration of AGEPC and inhibitor. The IC50 value of diethyl-p-nitrophenyl phosphate, phenylmethylsulfonyl fluoride, and N-acetyl-l-tryptophan ethyl ester towards 5 X 10(-10) M AGEPC in serotonin release was 2.2 X 10(-4), 8.0 X 10(-4), and 5.0 X 10(-4) M, respectively. In experiments where platelets were incubated with these inhibitors and then washed with buffer, the inhibition of AGEPC stimulation was not observed. Prostaglandin H2 analog U46619 (10(-6) to 10(-5) M)- and thrombin (0.1 unit/ml)-induced platelet activation were also blocked by 1 mM diethyl p-nitrophenyl phosphate and 1 mM N-acetyl-l-tryptophan ethyl ester. The binding of AGEPC (1.5 X 10(-11) to 9.4 X 10(-10) M) to platelets and the platelet cyclic AMP level were not affected by diethyl p-nitrophenyl phosphate, phenylmethylsulfonyl fluoride, and N-acetyl-l-tryptophan ethyl ester. However, 1 mM diethyl p-nitrophenyl phosphate and 1 mM N-acetyl-l-tryptophan ethyl ester suppressed 10(-9) M AGEPC-induced breakdown of phosphatidylinositol 4,5-bisphosphate and formation of phosphatidic acid to 10-12 and 39-42%, 40-kDa protein phosphorylation to 4 and 30%, and arachidonic acid release to 17 and 28% of controls, respectively. On the other hand, 5 mM diethyl p-nitrophenyl phosphate did not inhibit diacylglycerol production and arachidonic acid release initiated by 2.5 mM deoxycholate treatment, suggesting that receptor-mediated phospholipase C and phospholipase A2 activation were inhibited by the serine protease inhibitor, but the deoxycholate (physicochemical stimulant)-initiated activation was not. AGEPC-induced 20-kDa protein phosphorylation and the inhibitory action of AGEPC on cyclic AMP accumulation were abolished in the presence of diethyl p-nitrophenyl phosphate and phenylmethylsulfonyl fluoride. However, a tryptic protease inhibitor, 1 mM p-aminobenzamidine and 1 mM benzoyl-l-arginine methyl ester, did not prevent the AGEPC-induced platelet secretion.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Platelet-activating factor stimulation of rabbit platelets is blocked by serine protease inhibitor (chymotryptic protease inhibitor). 310 43

When the liposome membrane is exposed to the alpha-toxin of Staphylococcus aureus, fluorescence of the tryptophan residue(s) of the toxin molecule increases concomitantly with the degree of toxin-hexamer formation (Ikigai, H., and Nakae, T. (1985) Biochem. Biophys. Res. Commun. 130, 175-181). In the present study, the toxin-membrane interaction was distinguished from the hexamer formation by the fluorescence energy transfer from the tryptophan residue(s) of the toxin molecule to the dansylated phosphatidylethanolamine in phosphatidylcholine liposome. Measurement of these two parameters yielded the following results. The effect of the toxin concentration and phospholipid concentration on these two parameters showed first order kinetics. The effect of liposome size on the energy transfer and the fluorescence increment of the tryptophan residue(s) was only detectable in small liposomes. Under moderately acidic or basic conditions, the fluorescence energy transfer always preceded the fluorescence increment of the tryptophan residue(s). The fluorescence increment at 336 nm at temperatures below 20 degrees C showed a latent period, whereas the fluorescence energy transfer did not. These results were thought to indicate that when alpha-toxin damages the target membrane, the molecule interacts with the membrane first, and then undergoes oligomerization within the membrane.
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PMID:Interaction of the alpha-toxin of Staphylococcus aureus with the liposome membrane. 381 90

It has been shown that the access of the alpha-toxin of Staphylococcus aureus to the target membrane and assembly of the hexamer can be monitored independently by respectively measuring the fluorescence energy transfer from the tryptophan residue(s) of the toxin to the dansylated phosphatidylethanolamine in the liposome membrane and the fluorescence increment of the toxin at 336 nm (Ikigai, H., and Nakae, T., (1987) J. Biol. Chem. 262, 2150-2155). Measurement of these parameters under various conditions showed the following results: when phosphatidylcholine (PC) liposomes composed of saturated fatty acids were mixed with the toxin, the fluorescence energy transfer occurred below, at, and above the transition temperature of the lipid, but the change of fluorescence at 336 nm was never detectable; when PC-liposomes containing unsaturated fatty acids were used, both the fluorescence energy transfer and the fluorescence increment of 336 nm were observed. These results suggested that the toxin-membrane interaction occurs in PC-membranes containing saturated and/or unsaturated fatty acids and that the oligomerization occurs only in the presence of PC containing unsaturated fatty acid(s). This conclusion was supported by the results of quantitative determination of the toxin-hexamer assembly and leakage of carboxyfluorescein from PC-liposomes under conditions similar to the above.
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PMID:Assembly of the alpha-toxin-hexamer of Staphylococcus aureus in the liposome membrane. 381 91

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


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