The activation of phospholipase C from Clostridium welchii by quinine: An absolute requirement for calcium ions

We have shown earlier that flurazepam inhibits human platelet aggregation and serotonin secretion induced by bacterial phospholipase C (BPLC, Thromb. Res. 38, 361-374, 1985). This study was conducted to examine the mechanism(s) of inhibitory action of flurazepam. Only 15 uM and 11 uM flurazepam were required to inhibit platelet aggregation and serotonin secretion by 50%. In a platelet free system, BPLC hydrolyzed 14C-phosphatidylcholine (14C-PC> in a time- and concentration-dependent manner in the presence of calcium ions. Flurazepam had no effect on BPLC-induced hydrolysis of 14C-PC. Incubation of 14C-arachidonic acid labelled platelets with BPLC produced diacylglycerol(DAG) in a time- and concentration-dependent manner. Flurazepam did not inhibit DAG production by BPLC. However, prostaglandin E1 and paranitrophenolphosphorylcholine inhibited DAG production by 20% and 75% respectively. Platelet cytosolic fraction,containing phosphatidylinositol-specific PLC (PI-PLC), hydrolyzed 3H -phosphatidylinositol (3H-PI) in a concentration-dependent manner. Flurazepam did not inhibit hydrolysis:of 3H-PI by PI-PLC. BPLC caused phosphorylation of 47,000 Dalton protein (P47) in 32P-labelled platelets. Flurazepam did not inhibit phosphorylation of P47 in the first five minutes of incubation. However, flurazapam completely blocked phosphorylation of P47 by seven minutes. In Other experiments, flurazepam inhibited platelet aggregation induced by ionomycion, a calcium ionophore, in a concentration-dependent manner. These data lead us to suggest that flurazapam does not inhibit BPLC-ihduced platelet activation by inhibiting the action of BPLC or PI-PLC on platelet phospholipids or DAG production. However, the ability of flurazepam to inhibit ionomycin-induced platelet aggregation indicates that it may be blocking BPLC-induced platelet aggreagtion by interfering with the influx, of calcium ions into platelets. (Supported in part by the American Osteopathic Association, The Baker Award from Ohio University and the OUCOM).

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Expression, purification and kinetic properties of human recombinant phospholipase C delta 3.

Acta Biochimica Polonica ◽

10.18388/abp.1997_4417 ◽

1997 ◽

Vol 44 (2) ◽

pp. 221-229 ◽

Cited By ~ 7

Author(s):

T Pawełczyk ◽

A Matecki

Keyword(s):

Phospholipase C ◽

Kinetic Studies ◽

Exchange Chromatography ◽

Kinetic Properties ◽

Cation Exchange Chromatography ◽

E Coli ◽

His Tag ◽

Absolute Requirement ◽

Maximal Activation ◽

Regulatory Properties

To obtain sufficient quantities of pure phospholipase C delta 3 (PLC delta 3) necessary for structural and kinetic studies, cDNA of human fibroblast PLC delta 3 was cloned in the pPROEX-1 vector, expressed in E. coli cells as a (6 x His) fusion protein and purified to homogeneity. From 1 L of E. coli culture 8 mg of pure PLC delta 3 was obtained by a two step purification procedure, which includes phosphocellulose and Mono S cation exchange chromatography. The presence of His tag did not affect the catalytic and regulatory properties of PLC delta 3. The K(app) for PIP2 was 142 +/- 11 and 156 +/- 12 microM for His.PLC delta 3 and PLC delta 3, respectively. Recombinant PLC delta 3 showed an absolute requirement for Ca2+. Increasing the free Ca2+ concentration from 0.2 to 0.5 microM resulted in a sharp increase in enzyme activity. In comparison with human recombinant PLC delta 1 the delta 3 isoenzyme was more sensitive to low Ca2+ concentration. The Ca2+ concentration yielding maximal activation of PLC delta 1 and PLC delta 3 was 10 and 1 microM, respectively. The activity of PLC delta 3 was stimulated by polyamines and by basic proteins such as protamine, histone and mellitin. PLC delta 3 was activated most effectively by spermine and histone but the extent of this activation was lower than for PLC delta 1. The data presented indicate that the expression of PLC delta 3 in E. coli cells permits to obtain active enzyme. The catalytic and regulatory properties of PLC delta 3 are similar to those of PLC delta 1.

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Oocyte activation: fundamental and clinical aspects

Voprosy ginekologii akušerstva i perinatologii ◽

10.20953/1726-1678-2020-5-77-85 ◽

2020 ◽

Vol 19 (5) ◽

pp. 77-85

Author(s):

Yu.Yu. Gromenko ◽

◽

E.F. Galimova ◽

D.D. Gromenko ◽

K.Sh. Galimov ◽

...

Keyword(s):

Phospholipase C ◽

Calcium Ions ◽

Therapeutic Option ◽

Clinical Aspects ◽

Oocyte Activation ◽

Molecular Events ◽

General Aspects ◽

Artificial Activation ◽

Main Factor

Fertilization and embryogenesis in mammals are initiated by a series of molecular events called ‘oocyte activation.’ This process includes a number of specific fluctuations of calcium ions in the cell with the involvement of specific phospholipase C ζ (PLCζ), an enzyme of spermatozoa introduced into the ooplasm during gamete fusion and recognized as the main factor responsible for inducing oocyte activation. Substantial biochemical and clinical evidence supports the role of PLCζ in this fundamental process, which is very important for the diagnosis and treatment of infertility. This literature review aims to provide some insight in the structure, mechanism of action, and regulation of PLCζ activity in healthy individuals and people with pathological conditions. Oocyte activation deficiency is associated with abnormalities in the structure, expression, and location of this enzyme in spermatozoa. Artificial activation of oocytes using ionophores, which is the only therapeutic option currently available for patients with its insufficiency, is being debated, especially in terms of its potential epigenetic effects on the embryo. Therefore, interest towards the development of human recombinant PLCζ as an alternative treatment is understandable. Researchers are currently discussing the possibility of diagnostic and clinical application of this enzyme to overcome male infertility associated with oocyte activation deficiency, as well as general aspects of this pathology. Key words: oocyte activation, infertility, calcium ions, phospholipase C ζ

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Influence of Calcium Ions on the Plant Cell Surface: Membrane Fusions and Conformational Changes

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100050780 ◽

1974 ◽

Vol 32 ◽

pp. 154-155

Author(s):

D. James Morré ◽

Charles E. Bracker ◽

William J. VanDerWoude

Keyword(s):

Cell Wall ◽

Cell Surface ◽

Conformational Changes ◽

Calcium Ions ◽

Surface Membrane ◽

Carboxyl Groups ◽

Cross Linking ◽

Ultrastructural Evidence ◽

Glycine Max L ◽

Wall Extensibility

Calcium ions in the concentration range 5-100 mM inhibit auxin-induced cell elongation and wall extensibility of plant stems. Inhibition of wall extensibility requires that the tissue be living; growth inhibition cannot be explained on the basis of cross-linking of carboxyl groups of cell wall uronides by calcium ions. In this study, ultrastructural evidence was sought for an interaction of calcium ions with some component other than the wall at the cell surface of soybean (Glycine max (L.) Merr.) hypocotyls.

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Mitochondrial matrix calcium ions regulate energy production in myocardium: A cytochemical study

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100134429 ◽

1990 ◽

Vol 48 (2) ◽

pp. 166-167

Author(s):

W.A. Jacob ◽

R. Hertsens ◽

A. Van Bogaert ◽

M. De Smet

Keyword(s):

Energy Metabolism ◽

Calcium Ions ◽

Energy Production ◽

Regulation Of Respiration ◽

Free Calcium ◽

Mitochondrial Matrix ◽

Cytochemical Study ◽

Nmr Techniques

In the past most studies of the control of energy metabolism focus on the role of the phosphorylation potential ATP/ADP.Pi on the regulation of respiration. Studies using NMR techniques have demonstrated that the concentrations of these compounds for oxidation phosphorylation do not change appreciably throughout the cardiac cycle and during increases in cardiac work. Hence regulation of energy production by calcium ions, present in the mitochondrial matrix, has been the object of a number of recent studies.Three exclusively intramitochondnal dehydrogenases are key enzymes for the regulation of oxidative metabolism. They are activated by calcium ions in the low micromolar range. Since, however, earlier estimates of the intramitochondnal calcium, based on equilibrium thermodynamic considerations, were in the millimolar range, a physiological correlation was not evident. The introduction of calcium-sensitive probes fura-2 and indo-1 made monitoring of free calcium during changing energy metabolism possible. These studies were performed on isolated mitochondria and extrapolation to the in vivo situation is more or less speculative.

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Inositol lipids and TRPC channel activation

Biochemical Society Symposium ◽

10.1042/bss2007c04 ◽

2007 ◽

Vol 74 ◽

pp. 37-45 ◽

Cited By ~ 12

Author(s):

James W. Putney

Keyword(s):

Plasma Membrane ◽

Phospholipase C ◽

Transient Receptor Potential ◽

Calcium Signalling ◽

Receptor Potential ◽

Breakdown Product ◽

Channel Activation ◽

Inositol Lipids ◽

Transient Receptor ◽

Secondary Mechanism

The original hypothesis put forth by Bob Michell in his seminal 1975 review held that inositol lipid breakdown was involved in the activation of plasma membrane calcium channels or ‘gates’. Subsequently, it was demonstrated that while the interposition of inositol lipid breakdown upstream of calcium signalling was correct, it was predominantly the release of Ca2+ that was activated, through the formation of Ins(1,4,5)P3. Ca2+ entry across the plasma membrane involved a secondary mechanism signalled in an unknown manner by depletion of intracellular Ca2+ stores. In recent years, however, additional non-store-operated mechanisms for Ca2+ entry have emerged. In many instances, these pathways involve homologues of the Drosophila trp (transient receptor potential) gene. In mammalian systems there are seven members of the TRP superfamily, designated TRPC1–TRPC7, which appear to be reasonably close structural and functional homologues of Drosophila TRP. Although these channels can sometimes function as store-operated channels, in the majority of instances they function as channels more directly linked to phospholipase C activity. Three members of this family, TRPC3, 6 and 7, are activated by the phosphoinositide breakdown product, diacylglycerol. Two others, TRPC4 and 5, are also activated as a consequence of phospholipase C activity, although the precise substrate or product molecules involved are still unclear. Thus the TRPCs represent a family of ion channels that are directly activated by inositol lipid breakdown, confirming Bob Michell's original prediction 30 years ago.

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Fibrinogen Bastia (γ 318 Asp → Tyr) a Novel Abnormal Fibrinogen Characterized by Defective Fibrin Polymerization

Thrombosis and Haemostasis ◽

10.1055/s-0037-1614892 ◽

1999 ◽

Vol 82 (12) ◽

pp. 1639-1643 ◽

Cited By ~ 9

Author(s):

Karim Chabane Lounes ◽

Claudine Soria ◽

Antoine Valognes ◽

Marie France Turchini ◽

Jaap Koopman ◽

...

Keyword(s):

Calcium Ions ◽

Clinical Symptoms ◽

Degradation Products ◽

Base Substitution ◽

Chain Gene ◽

Fibrinogen Concentration ◽

Clotting Time ◽

Terminal Part ◽

Fibrin Polymerization ◽

Chain Sequence

SummaryA new congenital dysfibrinogen, Fibrinogen Bastia, was discovered in a 20-year-old woman with no clinical symptoms. The plasma thrombin-clotting time was severely prolonged. The functional plasma fibrinogen concentration was low (0.2 mg/ml), whereas the immunological concentration was normal (2.9 mg/ml). Purified fibrinogen Bastia displayed a markedly prolonged thrombin-clotting time related to a delayed thrombin-induced fibrin polymerization. Both the thrombin-clotting time and the fibrin polymerization were partially corrected by the addition of calcium ions. The anomaly of fibrinogen Bastia was found to be located in the γ-chain since by SDS-PAGE performed according to the method of Laemmli two γ-chains were detected, one normal and one with an apparently lower molecular weight. Furthermore, analysis of plasmin degradation products demonstrated that calcium ions only partially protect fibrinogen Bastia γ-chain against plasmin digestion, suggesting that the anomaly is located in the C-terminal part of the γ-chain. Sequence analysis of PCR-amplified genomic DNA fragments of the propositus demonstrated a single base substitution (G → T) in the exon VIII of the γ chain gene, resulting in the amino acid substitution 318 Asp (GAC) → Tyr (TAC). The PCR clones were recloned and 50% of them contained the mutation, indicating that the patient was heterozygous. These data indicate that residue Asp 318 is important for normal fibrin polymerization and the protective effect of calcium ions against plasmin degradation of the C-terminal part of the γ-chain.

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Phospholipase C from Clostridium Perfringens Induces Human Platelet Aggregation in Plasma

Thrombosis and Haemostasis ◽

10.1055/s-0038-1642761 ◽

1988 ◽

Vol 59 (02) ◽

pp. 236-239 ◽

Cited By ~ 2

Author(s):

Giovanna Barzaghi ◽

Chiara Cerletti ◽

Giovanni de Gaetano

Keyword(s):

Platelet Aggregation ◽

Receptor Antagonist ◽

Phospholipase C ◽

Clostridium Perfringens ◽

Human Platelet ◽

Ex Vivo ◽

Platelet Rich Plasma ◽

Platelet Activating Factor ◽

Inhibitory Effect ◽

Thromboxane Receptor Antagonist

SummaryWe studied the aggregating effect of different concentrations of phospholipase C (PLC) (extracted from Clostridium perfringens) on human platelet-rich plasma (PRP). PRP was preincubated with PLC for 3 min at 37° C and the platelet aggregation was followed for 10 min. The threshold aggregating concentration (TAG) of PLC was 3-4 U/ml.We also studied the potentiation of PLC with other stimuli on platelet aggregation. Potentiating stimuli, such as arachidonic acid (AA), ADP. Platelet Activating Factor (PAF) and U-46619 (a stable analogue of cyclic endoperoxides) were all used at subthreshold concentrations. We also studied the possible inhibitory effect of aspirin, apyrase, TMQ, a prostaglandin endoper- oxide/thromboxane receptor antagonist and BN-52021, a PAF receptor antagonist. Only aspirin and apyrase were able to reduce aggregation induced by PLC alone and PLC + AA and PLC + ADP respectively. TMQ and BN-52021 were inactive. In ex vivo experiments oral aspirin (500 mg) partially inhibited platelet aggregation induced by PLC alone, PLC + AA and PLC + ADP 2 and 24 h after administration. Aspirin 20 mg for 7 days also reduced aggregation induced by PLC + AA.

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Self-Damping Mechanism in Blood Coagulation

Thrombosis and Haemostasis ◽

10.1055/s-0038-1647672 ◽

1974 ◽

Vol 32 (01) ◽

pp. 057-064 ◽

Cited By ~ 3

Author(s):

Y Nemerson ◽

S.A Silverberg ◽

J Jesty

Keyword(s):

Tissue Factor ◽

Blood Coagulation ◽

Calcium Ions ◽

Control Mechanism ◽

Factor Vii ◽

Damping Factor ◽

Factor V ◽

Factor X ◽

Extrinsic Pathway ◽

Two Systems

SummaryTwo reactions of the extrinsic pathway of coagulation, the activations of Factor X and prothrombin, have been studied in purified systems and shown to be self-damping. Factor X was activated by the tissue factor - Factor VII complex, and prothrombin by two systems: the coagulant protein of Taipan venom, and the physiological complex of activated Factor X, Factor V, lipid, and calcium ions. In each case the yield of enzyme, activated Factor X or thrombin, is a function of the concentration of activator. These and other observations are considered as a basis for a control mechanism in coagulation.

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