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Cholinesterase activities in the Antarctic scallop Adamussium colbecki: sensitivity to pollutants
No full textISOLAMENTO E CARATTERIZZAZIONE MOLECOLARE DI CELLULE STAMINALI MESENCHIMALI UMANE DA LIQUIDO AMNIOTICO
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Effects of some S-blocked glutathione derivatives on the prevalent glyoxalase II (a form) of rat liver.
No full textThe prevalent glyoxalase II (S-2-hydroxyacylglutathione hydrolase, EC 3.1.2.6, a form) of rat liver cytosol has been studied with a series of seven S-blocked glutathione derivatives. At pH 7.4 and 20 degrees C, only p-nitrobenzyl-S-glutathione was found completely inactive. All the other derivatives are linear competitive inhibitors of the enzyme. Ki values using S-D-lactoylglutathione as substrate are reported. Alkyl-S-glutathiones are weak inhibitors and their inhibition increases with the decrease of the length of the alkyl chain. The best inhibitors are those glutathione derivatives which contain a thioester bond (carbobenzoxy- and p-nitrocarbobenzoxy-S-glutathione) or a carbonyl group (p-chlorophenacyl-S-glutathione). Inhibition by carbobenzoxy-S-glutathione seems to be more complex since the double reciprocal plot shows deviation from linearity at low substrate concentration
Glyoxalase II from Zea mays: properties and inhibition study of the enzyme purified by use of a new affinity ligand.
No full textThe synthesis of N-(p-nitrocarbobenzoxy)glutathione (N-pNCBG) is reported. N-pNCBG and glutathione (GSH) were coupled to Affi-gel 10 by a thioester linkage and resulted in very effective bound ligands for a fast purification of glyoxalase II from corn. The S-(N-pNCBG)-affinity column showed a glyoxalase II binding capacity of up to 2-fold higher than that of the glutathione-affinity column. A single form of glyoxalase II was evidenced by PAGE in both crude extracts and in the affinity purified enzyme. A 45% recovery of glyoxalase II activity (purification, approx. 433-fold) was obtained for both matrices by a single chromatography. The purified glyoxalase is an acidic protein (pI 4.5) of about 26,000 relative molecular mass. Substrate studies for the corn glyoxalase II show, among possible substrates tested, that S-D-lactyl-glutathione is the preferred substrate. An inhibition study was performed with methyl-, propyl-, hexyl-, p-nitrobenzyl-, p-chlorophenacyl-, carbobenzoxy-, and p-nitrocarbobenzoxy-S-glutathione. Methyl-S-glutathione did not inhibit corn glyoxalase II; the others were found to be linear competitive inhibitors. The derivatives containing a thioether bond are weaker inhibitors than those containing a thioester bond or a carbonyl group. p-Nitrobenzyl-S-glutathione is the weakest inhibitor; the carbobenzoxy-S-derivatives are stronger inhibitors than the p-chlorophenacyl S-derivative
Expression of a single dimeric membrane-bound acetylcholinesterase in Parascaris equorum.
No full textA single form of cholinesterase was detected in the parasitic nematode Parascaris equorum and purified from a low-salt Triton X-100 extract of whole animals by affinity chromatography on an edrophonium-Sepharose matrix. Based on gel-filtration chromatography, sedimentation analysis and SDS-PAGE, such a cholinesterase is an amphiphilic globular (G2) dimer (125-129 kDa, 6.1 S). It includes some hydrophobic domain other than phosphatidylinositol, which gives autoaggregation, detergent interaction and also anchors the molecule to the cell membrane. The enzyme, probably functional in cholinergic neurotransmission, is an acetylcholinesterase showing a fairly low substrate specificity with thiocholine esters. Electrostatic interactions seem to play a major role in the catalytic activity. Studies with inhibitors gave complete inhibition with 1 mM eserine, low sensitivity for procainamide and for tetra(monoisopropyl)pyrophosphortetramide as well as higher inhibition with edrophonium chloride and 1,5-bis(4allyldimethylammoniumphenyl)-pentan-3-one dibromide. The enzyme also showed excess-substrate inhibition with acetylthiocholine. No cross-hybridization occurred between the gene(s) encoding acetylcholinesterase in P. equorum and ace-1 from the free-living nematode Caenorhabditis elegans. The expression of a single cholinesterase form in P. equorum, unusual in free-living nematodes, could be due to parasitic life adaptation with resulting reduction of locomotor activity
Purification of S-2-hydroxyacylglutathione hydrolase (Glyoxalase II) from calf brain.
No full textS-2-Hydroxyacylglutathione hydrolase (Glyoxalase II) from calf brain has been purified 8333-times compared to 65,000 g supernatant of brain homogenate. The purification procedure employs Affi-Gel blue and preparative isoelectric focussing and offers a suitable method for the preparation of highly purified enzyme. Calf brain Glyoxalase II is a basic protein with a pl of 7.63 determined by isoelectric focusing. An evaluation of the relative molecular mass by gel filtration gave a value of about 23,000. During the purification procedure a constant Km value of about 0.325 mM was observed. A turnover number of 16,100 min-1 was calculated for the purified enzyme
Solubilization, molecular forms, purification and substrate specificity of two acetylcholinesterases in the medicinal leech (Hirudo medicinalis).
No full textTwo acetylcholinesterases (AChE) differing in substrate and inhibitor specificities have been characterized in the medical leech (Hirudo medicinalis). A 'spontaneously-soluble' portion of AChE activity (SS-AChE) was recovered from haemolymph and from tissues dilacerated in low-salt buffer. A second portion of AChE activity was obtained after extraction of tissues in low-salt buffer alone or containing 1% Triton X-100 [detergent-soluble (DS-) AChE). Both enzymes were purified to homogeneity by affinity chromatography on edrophonium- and concanavalin A-Sepharose columns. Denaturing SDS/PAGE under reducing conditions gave one band at 30 kDa for purified SS-AChE and 66 kDa for DS-AChE. Sephadex G-200 chromatography indicated a molecular mass of 66 kDa for native SS-AChE and of 130 kDa for DS-AChE. SS-AChE showed a single peak sedimenting at 5.0 S in sucrose gradients with or without Triton X-100, suggesting that it was a hydrophylic monomer (G1). DS-AChE sedimented as a single 6.1-6.5 S peak in the presence of Triton X-100 and aggregated in the absence of detergent. A treatment with phosphatidylinositol-specific phospholipase C suppressed aggregation and gave a 7 S peak. DS-AChE was thus an amphiphilic glycolipid-anchored dimer. Substrate specificities were studied using p-nitrophenyl esters (acetate, propionate and butyrate) and corresponding thiocholine esters as substrates. SS-AChE displayed only limited variations in Km values with charged and uncharged substrates, suggesting a reduced influence of electrostatic interactions in the enzyme substrate affinity. By contrast, DS-AChE displayed higher Km values with uncharged than with charged substrates. SS-AChE was more sensitive to eserine and di-isopropyl fluorophosphate (IC50 5 x 10(-8) and 10(-8) M respectively) than DS-AChE (5 x 10(-7) and 5 x 10(-5) M
Acetylcholinesterase and butyrylcholinesterase activity in cerebrospinal fluid of Alzheimer patients before and after 6-months treatment with donepezil. XXXI Congresso Società Italiana di Neurologia
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