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)

The effect of a variety of gangliosides has been tested on the phospholipase C-induced fusion of large unilamellar vesicles. Bilayer composition was phosphatidylcholine:phosphatidylethanolamine: cholesterol (2:1:1 mole ratio) plus the appropriate amounts of glycosphingolipids. Enzyme phosphohydrolase activity, vesicle aggregation, mixing of bilayer lipids and mixing of liposomal aqueous contents were separately assayed. Small amounts ( < 1 mol %) of gangliosides in the lipid bilayer produce a significant inhibition of the above processes. The inhibitory effect of gangliosides increases with the size of the oligosaccharide chain in the polar head group. Inhibition depends in a nonlinear manner on the ganglioside proportion, and is complete at approximately 5 mol %. Inhibition is not due to ganglioside-dependent changes in vesicle curvature or size. Ganglioside inhibition of vesicle fusion is due to two different effects: inhibition of phospholipase C activity and stabilization of the lipid lamellar phase. Enzyme inhibition leads to a parallel decrease of vesicle aggregation and lipid mixing rates. Mixing of aqueous contents, though, is depressed beyond the enzyme inhibition levels. This is explained in terms of the fusion pore requiring a local destabilization of the lipid bilayer, the lamellar structure being stabilized by gangliosides. 31P-NMR and DSC experiments confirm the inhibitory effect of gangliosides in various lamellar-to-nonlamellar transitions.
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PMID:Dual inhibitory effect of gangliosides on phospholipase C-promoted fusion of lipidic vesicles. 865 29

Enzyme inhibition studies on phosphatidylinositol-specific phospholipase C (PI-PLC) from B. Cereus were performed in order to gain an understanding of the mechanism of the PI-PLC family of enzymes and to aid inhibitor design. Inhibition studies on two synthetic cyclic phosphonate analogues (1,2) of inositol cyclic-1:2-monophosphate (cIP), glycerol-2-phosphate and vanadate were performed using natural phosphatidylinositol (PI) substrate in Triton X100 co-micelles and an NMR assay. Further inhibition studies on PI-PLC from B. Cereus were performed using a chromogenic, synthetic PI analogue (DPG-PI), an HPLC assay and Aerosol-OT (AOT), phytic acid and vanadate as inhibitors. For purposes of comparison, a model PI-PLC enzyme system was developed employing a synthetic Cu(II)-metallomicelle and a further synthetic PI analogue (IPP-PI). The studies employing natural PI substrate in Triton X100 co-micelles and synthetic DPG-PI in the absence of surfactant indicate three classes of PI-PLC inhibitors: (1) active-site directed inhibitors (e.g. 1,2); (2) water-soluble polyanions (e.g. tetravanadate, phytic acid); (3) surfactant anions (e.g. AOT). Three modes of molecular recognition are indicated to be important: (1) active site molecular recognition; (2) recognition at an anion-recognition site which may be the active site, and; (3) interfacial (or hydrophobic) recognition which may be exploited to increase affinity for the anion-recognition site in anionic surfactants such as AOT. The most potent inhibition of PI-PLC was observed by tetravanadate and AOT. The metallomicelle model system was observed to mimic PI-PLC in reproducing transesterification of the PI analogue substrate to yield cIP as product and in showing inhibition by phytic acid and AOT.
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PMID:Inhibition of phosphatidylinositol-specific phospholipase C: studies on synthetic substrates, inhibitors and a synthetic enzyme. 887 13

Phospholipids and lipid second messengers mediate mitogenic signal transduction and oncogenesis, but there have been few successful examples of small molecules that affect biologically important phospholipid metabolism. Here we investigated the actions of a previously described antitumor agent, 4-(benzyl-(2-[(2,5-diphenyloxazole-4-carbonyl)amino]ethyl)carbamoyl)- 2-decanoylaminobutyric acid (SC-alpha alpha delta 9), which has antisignaling properties, on phospholipases. Although SC-alpha alpha delta 9 had been shown to be a potent and selective inhibitor of the Cdc25 family of dual-specificity phosphatases, many of its cellular effects are not readily reconciled with phosphatase inhibition. Molecular modeling studies suggested that SC-alpha alpha delta 9 shared several structural features with membrane phospholipids. Enzyme inhibition studies in vitro revealed that SC-alpha alpha delta 9 was a potent inhibitor of phospholipase C (PLC; IC50 = 25 microM) but did not inhibit phospholipase D activity at concentrations up to 100 microM. In H-ras (Q61L)-transformed Rat-1 fibroblasts with constitutively elevated levels of phosphorylated extracellular signal-regulated kinase (Erk), SC-alpha alpha delta 9 inhibited both proliferation and oncogenic Erk activation at concentrations that inhibited PLC in vitro. A SC-alpha alpha delta 9 congener that lacked antiproliferative activity also did not inhibit PLC in vitro. In the PLC-dependent scratch wound healing model, SC-alpha alpha delta 9 was 10-fold more potent than the phosphatidylcholine-specific PLC inhibitor D-609. We propose that the structural resemblance of SC-alpha alpha delta 9 to phospholipids allows it to inhibit cellular PLC, thereby providing a possible molecular mechanism for SC-alpha alpha delta 9's effects on oncogenic Erk activation.
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PMID:The antisignaling agent SC-alpha alpha delta 9, 4-(benzyl-(2-[(2,5-diphenyloxazole-4-carbonyl)amino]ethyl)carbamoyl)- 2-decanoylaminobutyric acid, is a structurally unique phospholipid analogue with phospholipase C inhibitory activity. 1248 9