Author Report for: Basova NE

The review presents data on comparative reactivity of 68 cholinesterase preparation from various organs and tissues in a number of vertebrates and invertebrates based on sensitivity to two highly specific and most studied organophosphorus inhibitors--diisopropyl fluorophosphates (DFP) and (2-ethoxymethyl phosphoryl thioethyl) ethyl (methyl) sulphonium sulphomethylat (GD-42). Analysis of these data suggests a great diversity in enzymologic characteristics of cholinesterase preparation in representatives of vertebrates and invertebrates, this variety observed even for closely related enzymes in animals of almost the same level of development.

Research on cholinesterases and effects of their inhibition in the USSR and Russia since 1930-1940s till present is exposed in historical aspects. The first physiological and toxicological effects of cholinesterase inhibition were reported by Alexander Ginetsinsky during World War II, when academic institutions were evacuated from Leningrad to Kazan. The main scientific schools that initiated research on chemistry, enzymology and physiology of cholinesterases and their inhibitors were leaded by Alexandr and Boris Arbuzovs, Victor Rozengart, Viktor Yakovlev, Michael Michelson, Martin Kabachnik, Mikhail Voronkov, Ivan Knunyants, Alexandr Bretskin and others. They investigated the main physiological effects of cholinesterase inhibitors, and analyzed the catalytic mechanisms of cholinesterases and related enzymes. Their contributions are landmarks in the history of cholinesterase research. At the present time revival of research on cholinesterases in different universities and institutes is vivid, in particular at the Moscow State University, research institutes of Russian Academy of Sciences and Kazan Scientific Center.

Quaternary phosphonium compounds were found to be reversible inhibitors of cholinesterases of various animals and showed species-specificity of action depending on the inhibitor structure. It became possible to reveal difference in inhibitory specificity of various preparations of acetylcholinesterases. A difference has been shown in inhibitory parameters of the series of phosphonium toward cholinesterase of visual ganglia of individuals of the squid Berryteuthis magister from different zones of the habitat areal. For the first time, when comparing phosphonium and ammonium isologues - tetrabutyl- and tributylhe-xyl derivatives, it has been shown that they are agents practically similar by the character of anticholinesterase action.

Kinetic analysis of the activating effect of substrate on the cholinesterase catalysis is performed. There are determined values of coefficient of activation A in the pH zone 5.0-7.5 for the process of hydrolysis of acetylcholine, indophenylacetate (IPA), and 2,6-dichlorophenolindophenylacetate (DIPA) by cholinesterase (ChE) of horse blood serum, as well as of IPA and DIPA by ChE of optical ganglia of the Pacific squid Todarodes pacificus. The phenomenon of activation has not been revealed at hydrolysis of phenylacetate by the horse blood serum ChE. The conclusion is made that the cause of the activating effect of substrate on the process of enzymatic hydrolysis by ChEs of different origin is the presence of the onium grouping in the structure of substrates.

Review of the own and literature data on substrate specificity with use of thiosubstrates for cholinesterases of various species. Dependence of cholinesteratic hydrolysis parameters on various elements of their structure is considered: the acyl part, alkyl "bridge" between ester atom and onion group, and ammonium grouping of molecule of 44 thioesters. A comparative enzymological analysis of the substrate specificity is performed with use of thiocholine esters of acetic, propionic, and butyric acids for 40 cholinesterase preparations of mammals, insects, molluscs, and plants.

An analysis of influence of indophenol substrate structure on rate of their enzymatic hydrolysis under action of cholinesterases (ChE) of different animals is carried out for the first time. Study of indophenylacetate (IPhA) and a group of isomeric dichloroderivatives as substrates of erythrocyte acetylcholinesterase, serum butyrylcholinesterase, and ChE from optical ganglia of the Pacific squid Todarodes pacificus allowed us to reveal a role of steric and inductive effects of the substrates molecule in enzymatic catalysis, as well as differences in substrate specificity of the studied ChE. This comparative enzymologic aspect of the work was evident to a greater degree at studying hydrolysis of choline (acetylcholine, acetylthiocholine) and indophenol (IPhA, 2,6-dichloroindophenylacetate, 2,6-dichloro-3'-methyl indophenylacetate) esters under action of mammalian blood ChEs, ChE from hemolymph of the gastropod mollusc Neptunea, and also of ChE from the nervous tissue of different species of Pacific squids and of the cabbage root fly. Differences in values of the kinetic parameters characterizing sorption and catalytic stages of the hydrolysis process are revealed. Comparison of substrate properties of choline and indophenol esters enabled us to compare enzymes in terms of hydrophobic-hydrophilic interactions.

It is the first time when the substrate specificity is considered as a complex phenomenon, taking into account an influence of substrate structure on the rate of enzymatic hydrolysis and interaction of cholinesterases with reversible and irreversible inhibitors. Kinetic parameters of hydrolysis of 18 esters, including choline, ammonium and indophenol derivates, are presented, as affected by cholinesterase from optical ganglia of pacific squid Todarodes pacificus, by acetylcholinesterase from human erythrocytes and by butyrylcholinesterase from horse serum. Some peculiarities of the squid cholinesterase are revealed, which are as follows: a low specificity at a rather high hydrolytic efficiency, the sensitivity towards inhibitory effects of several substrates at high concentrations. Reversible inhibition of the squid enzyme by ammonium inhibitors was dependent on the nature of substrates to a greater extent than that of the other enzymes. The substrate structure also conditioned various aspects of "the protective effect" in the course of irreversible inhibition of the squid cholinesterase by organophosphorous inhibitors.