[TETRAMETHONIUM DERIVATIVES AS REVERSIBLE INHIBITORS OF DIFFERENT CHOLINESTERASES].

To study the influence of onium atom nature on anticholinesterase efficiency of elementorganic derivatives of tetramethylenbisonium compounds as reversible inhibitors of cholinesterase (ChE) - acetyl-ChE from human erythrocytes, butyryl-ChE from horse serum, ChE from the brain of frog Rana temporaria and ChEs from visual ganglia of Pacific squid Todarodes pacificus and individuals of Comman- der squid Berryteuthis magister from different habitats in the northwestern Pacific Ocean were investigated. Bisphosphonium inhibitors were significantly more potent effectors than bisammonium ones, but this may be associated with a significantly increased size and hydrophobicity of onium groups of the former. Bisammonium organosilicon compound and its monoammonium analogue were equally active reversible ChE inhibitors in mammals.

[COMPARATIVE SENSITIVITY OF CHOLINESTERASES IN VERTEBRATES AND INVERTEBRATES TO HIGHLY SPECIFIC ORGANOPHOSPHORUS INHIBITORS DIISOPROPYL FLUOROPHOSPHATE (DFP) AND (2-ETHOXYMETHYL PHOSPHORYL THIOETHYL) ETHYL (METHYL) SULPHONIUM SULPHOMETHYLAT (GD-42)].

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.

[Inhibitory effect of benzimidazole derivatives on cholinesterases of animals in the presence of different substrates].

Specifically synthesized group of benzimidazole derivatives possessing varying degrees of delocalization of the positive charge in the cation group of the molecule has been studied in order to search for potential cholinergically active compounds and to study the role of the Coulomb interaction in cholinesterase catalysis. These compounds were reversible inhibitors of cholinesterase (ChE) of human erythrocytes, horse serum, brain of the frog Rana temporaria and visual ganglia of the Pacific squid Todarodes pacificus in the presence of acetylthiocholine iodide and propionylthiocholine iodide as substrates. The differences in the nature of reversible inhibitory effect were observed.

[Transferase activity of horse blood serum cholinesterase at hydrolysis of 1-methyl-8-acetoxychinolium iodide in the presence of aliphatic alcohols].

To check whether the horse blood serum butyrylcholinesterase expresses transferase activity at the complex ester hydrolysis in the presense of several low-molecular aliphatic alcohols, a study was performed with aid of the chromogenic substrate 1-methyl-8-acetoxychinolium whose phenolic hydrolysis product absorbs intensively at 445 nm, whereas the initial ester in this specter area practically does not absorb. This allowed measuring simultaneously the products of accumulation of both products of enzymatic hydrolysis: of acetic acid by the potentiometric, while of phenol--by the photometric method. Rates of formation of both products of enzymatic hydrolysis are practically equal in experiments with all studied alcohols.

Tl(+) showed negligible interaction with inner membrane sulfhydryl groups of rat liver mitochondria, but formed complexes with matrix proteins.

The effects of Tl(+) on protein sulfhydryl (SH) groups, swelling, and respiration of rat liver mitochondria (RLM) were studied in a medium containing TlNO3 and sucrose, or TlNO3 and KNO3 as well as glutamate plus malate, or succinate plus rotenone. Detected with Ellman's reagent, an increase in the content of the SH groups was found in the inner membrane fraction, and a simultaneous decline was found in the content of the matrix-soluble fraction for RLM, incubated and frozen in 25-75 mM TlNO3 . This increase was greater in the medium containing KNO3 regardless of the presence of Ca(2+) .

[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.

[Isomeric derivatives of lupinine and epilupinine--organophosphorus inhibitors of cholinesterases].

The isomeric-structure analysis data of anticholinesterase action of organophosphorous inhibitors with similar structure help in the search of specific effectors and detection of differences in reactivity of various animals' enzymes. This study compared the data of efficacy in respect of 4 mammal and 5 arthropoda cholinesterase preparations for 26 quinolizidine inhibitors, which molecules contain both the isomeric unbranched and branched alkoxyl radicals in the phosphoryl group, and the epimeric lupinine and epilupinine derivatives in the leaving group. The changes in the alkoxyl radical structure of inhibitor molecules act on their efficacy only with respect to the mammal enzymes ("group" inhibitor specificity).

[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.

Characteristics of the formation of systems activity in the brain and autonomic functions in children in conditions of the European North (discussion paper).

Results obtained from complex medical-physiological investigations performed during 10 scientific expeditions in the Arkhangel'sk Region in 2003-2005 are presented. The effects of climatological-geographic, biogeochemical, and social conditions of the conditions obtaining in the Far North region of Russia on sexual maturation, formation of the structural-functional organization of the brain, autonomic functions, and immunological and biochemical status of schoolchildren were studied using state-of-the-art neurophysiological methods (computerized electroencephalography, computerized rheoencephalography, computerized electric dipole origin tomography, etc.), psychophysiological and psychometric methods (assessment of the state of cognitive and memory functions, Wechsler intellectual scale), along with biochemical assay of monoamine oxidase (MAO, the key enzyme in adrenergic neurotransmitter metabolism) and the liver enzyme butyrylcholinesterase (BuChE) and physicochemical analysis of the levels of macroelements and trace elements in the body.

[Characteristics of the brain system activity and vegetative function formation in children under conditions of the European north (a problem study)].

Results of complex medical-physiological research performed during 10 scientific expeditions in Arkhangelsk region in 2003-2005 are presented. Influence of climatic-geographic, biogeochemical and social conditions of North-West region of Russia on sexual maturation, formation of the brain structural-functional organization, vegetative functions, immunological and biochemical status of schoolchildren was studied with the aid of modern neurophysiologic (computer electroencephalography, computer rheoencephalography, computed electric dipole origin tomography, etc.), psychophysiological and psychometric methods (evaluation of cognitive and mnestic functions, Vechsler 1Q estimation), biochemical assessment of monoamine oxidase and butyrylcholinesterase activity, physical-chemical analysis of macro- and microelements in the organism.

[A comparative study of the cholinesterase and carboxylesterase sensitivities of mammals and arthropods to new phenyl and glycidyl esters of dialkyl thiophosphoric acid].

The antienzymic activities of 14 organophosphorous compounds, the derivatives of dialkyl thiophosphoric acid, towards the acetylcholinesterase (AChE), butyrylcholinesterase (BuChE) and carboxylesterase (CE) from the spring grain aphid and mammals were investigated. The dependence of inhibitory activity of the compounds on their alkyl radical length was shown to be different for the AchE from the aphid and man. Some less pronounced differences in this dependence were revealed between the BuChEs from the aphid and horse as well as between the CEs from the aphid, mouse and red spider mite.

[Acetylenic amines as inhibitors of microsomal monooxygenases].

A new class of compounds: acetylenic amines, possessing structural similarity with the known inhibitor SKF-525A, and their saturated analogues, has been studied for its effect on the microsomal cytochrome P-450-dependent monooxygenases (MM). Significant differences in sensitivity of different substrate oxidation reactions in experiments with the mouse liver MM were observed. It was shown that the acetylenic amines investigated 13-30 times exceeded their saturated analogues as to the ability to inhibit aminopyrine and benzo[a]pyrene oxidation, and differed but slightly from their analogues with respect to p-nitroanisole and paraoxon oxidation.