Reversible lupininin inhibitors of cholinesterases of mammalian blood and of optical ganglia of individuals of the commander squid Berryteuthis magister from different zones of species areal

Arylsulfoesters and carbonic lupinin esters are studied for the first time as reversible inhibitors of mammalian blood cholinesterases. Studied in detail is sensitivity of cholinesterases to mono- and bislupinin inhibitors in Commander squid individuals from different habitation zones.     

Comparative-enzymological study of cholinesterase of the Pacific squid <Emphasis Type="Italic">Todarodes pacificus</Emphasis>

Summarized are results of the 40-year studies of the Russian biochemists on the comparative-enzymological characteristics of cholinesterase of optic ganglia of the Pacific squid Todarodes pacificus. The review includes comparative evaluation of the cholinesterase activity of various hydrobiont tissues, the proof of enzymatic homogeneity of tissues of the Pacific squid optic ganglia, data on substrate specificity with study of 18 ester substrates as well as detailed study of inhibitory specificity (61 irreversible inhibitors and 49 reversible onium inhibitors). Peculiarity of properties of this enzyme as compared with vertebrate and invertebrate cholinesterases is shown.     

Sulfonium effectors of cholinesterases of different origin (comparison with ammonium analogs and action specificity)

This review for the first time combines and analyzes in detail the data on comparison of potency of sulfonium and ammonium (and other onium, in some cases) isostructural effectors of cholinesterases (substrates, irreversible organophosphorus inhibitors, and reversible inhibitors). Besides, analysis is performed of specificity of sulfonium ligands of active center towards cholinesterases of animals standing at different stages of evolutionary development.     

Derivatives of lupinin and epilupinin as ligands of various cholinesterases

Literature data are summarized on cholinesterases of some mammals and arthropods with a group of isomer derivatives of alkaloid lupinin and its epimer epilupinin. As substrates of cholinesterases of some mammals there are studied 8 acetates containing in their molecule chinolysidin bicycle with different structure of N-alkyl radical, which showed certain elements of action specificity. For 2 isomer esters that are derivatives of protonated base of lupinin and epilupinin, differences are revealed in their substrate characteristics. Polyenzyme analysis of anticholinesterase efficiency is performed for 30 organophosphorus inhibitors that are dialcoxyphosphorus derivatives of lupinin and epilupinin; as a result, we managed to find out quite a few peculiarities of their action depending on structure. Several tested compounds were revealed to be specific inhibitors of cholinesterases of several mammals and arthropods.     

Derivatives of lupinin and epilupinin as ligands of various cholinesterases

Literature data have been summarized on interaction of cholinesterases of some mammals and arthropods with a group of isomer derivatives of alkaloid lupini and its epimer epilupinin. As substrates of cholinesterases of several mammals there are studied 8 acetates containing in their molecules the chinolysidin bicycle with different structure of N-alkyl radical, which showed certain elements of specificity of action. For 2 isomer esters that are derivatives of the protonated base of the lupinin and epilupinin structures, differences in their substrate characteristics were revealed. The polyenzyme analysis if anticholinesterase efficiency was performed for 30 organophosphorus inhibitors that are dialkoxyphosphorus derivatives of lupinin and epilupinin; as a result, quite a few peculiarities of their action depending on their structure were revealed. Several tested compounds turned out to act as specific inhibitors of cholinesterases of some mammals and arthropods.     

Mechanism of anticholinesterase activities of cardiotoxin, protamine and polylysine.

Cardiotoxin, protamine and polylysine are potent inhibitors of various cholinesterases. CaCl2 and MgCl2 overcome the inhibition. The order of addition of the inhibitor and the protecting agent (MgCl2) influences the final degree of the inhibition observed. These findings suggest that cardiotoxin, protamine and polylysine inhibit cholinesterases by the ionic binding of their basic groups with the anionic sites of cholinesterase molecules.     

Comparative Sensitivity of Cholinesterases of Different Origin to Some Irreversible Inhibitors

The analytical review is presented of literature data obtained with use of different substrates, on sensitivity of more than 90 preparations of cholinesterases from 65 different animals (vertebrate, insects, molluscs) to the most studied 6 irreversible inhibitors (eserine and 5 organophosphorus compounds). The considered data are discussed from the point of view of comparative biochemistry and in the light of current information about structure of active center of cholinesterases.     

Comparative analysis of sensitivity of cholinesterases of different origin to reversible bis-onium inhibitors

Analytical review of literature data has been carried out about kinetic parameters of cholinesterases (ChE) of various animals (vertebrates and squids) with 45 reversible bis-onium inhibitors forming homologous series with regularly changing structure. Values of competitive, non-competitive, and generalized inhibitory constants are compared. Interspecies and intraspecies differences are revealed in sensitivity of ChE to bis-onium inhibitors. Results of conformational analysis of molecules of the studied ligands are presented. Data on population of individual conformations are compared with values of anticholinesterase efficiency. Conclusions are made about mechanisms of action of the studied compounds and the predominant site of their sorption. The presented data are discussed from the point of view of comparative enzymology and in the light of the current information about structure of active center of cholinesterases.     

The specificity of the interaction of the cholinesterases in Far Eastern squid and certain vertebrates with reversible inhibitors

Studies have been made of the effect of three groups of ammonia reversible inhibitors on the activity of erythrocyte acetylcholinesterase, serum butyrylcholinesterase, cholinesterase from frog brain, as well as cholinesterases from the optical ganglia of the Pacific and three populations of the commander squids. Determination of kinetic parameters of the reversible inhibition of these enzymes revealed differences resulting from the specific structure of their catalytic centers. Tetramethylammonium assay confirmed different properties of cholinesterases in individuals of the commander squid from various habitats in the Bering Sea; this finding may be taken as an indication of intraspecific differentiation of these cephalopods. Certain similarity was noted in the inhibitory specificity of cholinesterases from the Pacific and "southern" commander squids with the overlapping habitats.     

Characterization of cholinesterases from the parasitic nematode Trichinella spiralis

1. Trichinella cholinesterases occur in multiple molecular forms which differ in size, kinetics, activity with butyrylthiocholine, and effects of inhibitors.2. The 5.3 and 13S forms identified in Trichinella extracts are also found in C. elegans and other nematodes but the 7S form which occurs in other nematodes was absent from Trichinella detergent extracts. Differences in kinetic and inhibition properties among nematode species were also evident.3. The level of cholinesterases in excretory/secretory products is low.4. Trichinella cholinesterases did not elicit a detectable antibody response in mice.     

Differential binding of phenothiazine urea derivatives to wild-type human cholinesterases and butyrylcholinesterase mutants

A series of N-10 urea derivatives of phenothiazine was synthesized and each compound was evaluated for its ability to inhibit human cholinesterases. Most were specific inhibitors of BuChE. However, the potent inhibitory effects on both cholinesterases of one sub-class, the cationic aminoureas, provide an additional binding mechanism to cholinesterases for these compounds. The comparative effects of aminoureas on wild-type BuChE and several BuChE mutants indicate a binding process involving salt linkage with the aspartate of the cholinesterase peripheral anionic site. The effect of such compounds on cholinesterase activity at high substrate concentration supports ionic interaction of aminoureas at the peripheral anionic site.     

Kinetic properties of butyrylcholinesterases immobilised on pH-sensitive field-effect transistor surface and inhibitory action of steroidal glycoalkaloids on these enzymes

The inhibitory action of steroid glycoalkaloids alpha-solanine, alpha-chaconine and tomatine on horse and human serum butyryl cholinesterases immobilized on the pH-sensitive field-effect transistors has been studied. Using acetyl- and butyryl choline as substrates, the optimal pH and the apparent kinetic parameters (< K(m) >, < V(max) >) of immobilized butyryl cholinesterases have been calculated in the absence of inhibitors. The affinity of each enzyme to glycoalkaloids has been estimated from calculation of apparent inhibition constants < K(i) > and inhibition coefficients i(0.5). Application of the studied cholinesterases for biosensoric determination of glycoalkaloids in the wide range of concentrations (10(-7)-10(-4) M) in different media has been discussed.     

Comparative analysis of sensitivity of cholinesterase inhibitors by multidimensional statistical methods

Using the methods of factor and cluster analysis, the statistical treatment is performed of data on interaction of 7 cholinesterases (ChE)--human acetylcholinesterase, horse butyrylcholinesterase, cholinesterases of frog brain and of various squid species (Todarodes pacificus and Berrytheutis magister; in the latter case, individuals from three different habitats are compared)--with 141 reversible inhibitors of various structures. Statistically significant differences between ChE of squids and vertebrates are shown. The previously revealed intraspecies peculiarities of ChE in the Commander squid B. magister are statistically confirmed.     

On Establishment of Individuality of the Cholinesterase Enzyme in the Studied Preparation

Theoretical analysis is carried out and a reliable kinetic method for establishment of individuality of cholinesterases in studied preparation is proposed. For reliable conclusion about the presence of single cholinesterase or a mixture of cholinesterases in the biosample, it is necessary to determine values of the experimental kinetic constant of irreversible inhibition by several (three or more) inhibitors, using for evaluation of the catalytic activity of the biomaterial not less than three different substrates consecutively, for example, acetyl--methylcholine (substrate selective to typical acetylcholinesterase), butyrylcholine (substrate selective to typical butyrylcholinesterase), and acetylcholine (substrate hydrolyzed easily by cholinesterases of different types).     

Biochemical and physiological studies of soluble esterases fromDrosophila melanogaster

Twenty-two soluble esterases have been identified inD. melanogaster by combining the techniques of native polyacrylamide gel electrophoresis and isoelectric focusing. The sensitivity of each isozyme to three types of inhibitors (organophosphates, eserine sulfate, and sulfydryl reagents) identified 10 as carboxylesterases, 6 as cholinesterases, and 3 as acetylesterases. Three isozymes could not be classified and no arylesterases were identified. The carboxyl- and cholinesterases could each be further divided into two subclasses on the basis of inhibition by organophosphates and sulfhydryl reagents, respectively. Cholineand acetylesterases have characteristic substrate preferences but both subclasses of carboxylesterases are heterogeneous in substrate utilization. Subclass 2 carboxylesterases exhibit diverse temporal expression patterns, with subclass 1 carboxylesterases generally found in larvae and subclass 1 cholinesterases and acetylesterases more characteristic of pupae and adults. Tissues showing the greatest number of isozymes are larval body wall (eight) and digestive tract (six in larvae, six in adults). Carboxylesterases are distributed across a wide range of tissues, but subclass 1 cholinesterases are generally associated with neural or neurosecretory tissues and subclass 2 cholinesterases with digestive tissues.This study was funded in part by the Rural Credits Development Fund.     

Stereochemical aspects of cholinesterase catalysis

Proceeding from the sterochemical regularities of the nucleophilic substitution reaction at the carbonyl group and the assumption that the spatial structure of the active center of cholinesterases is complementary to the molecule of the ester substrates for these enzymes, some general features of the stereoselectivity phenomena in the reactions of acetylcholinesterase (EC 3.1.1.7) and butyrylcholinesterase (EC 3.1.1.8) with organophosphorus inhibitors are discussed. For these enzymes the models of the active center are proposed in terms of different binding sites and the catalytic center. On the basis of this model, the stereochemical pecularities and the physicochemical background of the stereoselectivity effects on enzyme inhibition, reactivation, and “aging” reactions can be understood. Knowledge of the absolute configuration of several chiral organophosphorus inhibitors also makes it possible to determine the absolute spatial arrangement of the hydrophobic binding sites on the active surface of cholinesterases.     

Non-classical actions of cholinesterases: Role in cellular differentiation, tumorigenesis and Alzheimer''s disease

The cholinesterases are members of the serine hydrolase family, which utilizes a serine residue at the active site. Acetylcholinesterase (AChE) is distinguished from butyrylcholinesterase (BChE) by its greater specificity for hydrolysing acetylcholine. The function of AChE at cholinergic synapses is to terminate cholinergic neurotransmission. However, AChE is expressed in tissues that are not directly innervated by cholinergic nerves. AChE and BChE are found in several types of haematopoietic cells. Transient expression of AChE in the brain during embryogenesis suggests that AChE may function in the regulation of neurite outgrowth. Overexpression of cholinesterases has also been correlated with tumorigenesis and abnormal megakaryocytopoiesis. Acetylcholine has been shown to influence cell proliferation and neurite outgrowth through nicotinic and muscarinic receptor-mediated mechanisms and thus, that the expression of AChE and BChE at non-synaptic sites may be associated with a cholinergic function. However, structural homologies between cholinesterases and adhesion proteins indicate that cholinesterases could also function as cell-cell or cell-substrate adhesion molecules. Abnormal expression of AChE and BChE has been detected around the amyloid plaques and neurofibrillary tangles in the brains of patients with Alzheimer's disease. The function of the cholinesterases in these regions of the Alzheimer brain is unknown, but this function is probably unrelated to cholinergic neurotransmission. The presence of abnormal cholinesterase expression in the Alzheimer brain has implications for the pathogenesis of Alzheimer's disease and for therapeutic strategies using cholinesterase inhibitors.     

Comparative analysis of sensitivity of cholinesterases to reversible inhibitors by methods of multidimensional statistics

Using the methods of factor and cluster analysis, the statistical treatment is performed of data on interaction of seven cholinesterases (ChE)—human acetylcholinesterase, horse butyrylcholinesterase, cholinesterases of frog brain and of different squid species (Todarodes pacificus and Berrytheutis magister, in the latter case, individuals from three different habitats are compared)—with 141 reversible inhibitors of various structures. Statistically significant differences between ChE of squids and vertebrates are shown. The previously revealed intraspecies peculiarities of ChE in the Commander squid B. magister are statistically confirmed.     

Comparative analysis of sensitivity of cholinesterases of different origin to bis-onium reversible inhibitors

Analytical review of the literature data on interaction constant of cholinesterases from different animal (vertebrates and squids) with 45 bis-onium reversible inhibitors forming homologous series with regularly varied structure has been carried out. Values of the competitive, uncompetitive and generalized inhibitor constants are compared. Interspecies and intraspecies differences in sensitivity of ChE are revealed. Results of conformational analysis of the investigated ligand molecules are presented. The data on population of individual conformations are compared with the data on anticholinesterase potency. Conclusions are made on the action mechanism of the investigated compounds and predominant place of their sorption. The presented data are considered from the point of view of comparative biochemistry and in the light of current information about the active center structure of cholinesterases.     

Reactivation of phosphorylated cholinesterase immobilized in a gelatin membrane

The soluble and immobilized cholinesterases (acetyl cholinesterase of human blood erythrocytes (EC 3.1.1.7) and butyryl cholinesterase of equine blood serum, (EC 3.1.1.8] were inactivated by such irreversible inhibitors as diisopropyl fluorophosphate (DFP), O,O-dimethyl-O-(2,2)-dichlorovinyl) phosphate (DDVP), paraoxone, armine. The inactivated enzymes were reactivated under the effect of TMB-4 (1,1'-trimethylene-bis)-4-formyl-pyridine bromide (dioxime). The values of the reactivation rate constants proved to be equal both for the soluble and immobilized cholinesterases inactivated by the same irreversible inhibitor. The immobilized enzyme is simpler and more correct to study the reactivating action than the soluble one.