Organosilicon reversible inhibitors of cholinesterases of different animals

The review presents data on cholinesterase effects of 28 specially synthesized organosilicon compounds (monoonium, organoelement, and bisonium derivatives) studied as reversible inhibitors of acetylcholinesterase (acetyl-ChE) of human erythrocytes, butyryl-ChE of horse blood serum, ChE of brain of common frog Rana temporaria, ChE of the optical ganglia tissue of Pacific squid Todarodes pacificus and of individuals of Commandor squid Berryteuthis magister from various habitats in the Northwestern aquatoria of the Pacific ocean. Among the tested compounds, there are revealed highly specific inhibitors of mammalian ChE as well as of ChE of the B. magister individuals from various habitats.     

Comparison between biochemical and histochemical assessments of peroxidase activity in rat mammary tumours

Summary The endogenous peroxidase content of 26 hormone-dependent and 16 hormone-independent rat mammary tumours was assessed by means of a biochemical (guaiacol) assay on tumour extracts and by means of a histochemical (diaminobenzidine) technique on frozen sections of the same tumours. By guaiacol assay the hormone-dependent tumours had significantly higher peroxidase levels than the hormone-independent tumours. In contrast, by diaminobenzidine staining of the same tumours, peroxidase was detectable in 94% of hormone-independent tumours but in only 54% of hormone-dependent tumours. Moreover, there was no direct correlation between the results of biochemical and histochemical methods. At least in these rat mammary tumours, therefore, histochemical estimates of peroxidase activity based on the diaminobenzidine reaction do not seem to reflect the same tissue properties as biochemical estimates based on the guaiacol reaction after tissue disruption.     

Changes of acetylcholinesterase activity in different rat brain areas following intoxication with nerve agents: biochemical and histochemical study

Acetylcholinesterase activity in defined brain regions was determined using biochemical and histochemical methods 30 min after treating rats with sarin, soman or VX (0.5 x LD(50)). Enzyme inhibition was high in the pontomedullar area and frontal cortex, but was low in the basal ganglia. Histochemical and biochemical results correlated well. Determination of the activity in defined brain structures was a more sensitive parameter than determination in whole brain homogenate where the activity was a "mean" of the activities in different structures. The pontomedullar area controls respiration, so that the special sensitivity of acetylcholinesterase to inhibition by nerve agents in this area is important for understanding the mechanism of death caused by nerve agents. Thus, acetylcholinesterase activity is the main parameter investigated in studies searching for target sites following nerve agent poisoning.     

Effect of reversible inhibitors on the thermal denaturation of cholinesterases]

The capacity of reversible inhibitors--galanthamine and tacrine--to protect the cholinesterase of rat and mouse brain from the thermal denaturation with the action of the temperature of 56 and 58 degrees C was revealed. The protective action was also noted when the reversible inhibitors decreased the activity of the enzyme. It appeared that with galanthamine the cholinesterase resistance to the thermal action was greater than with the action of tacrine.     

Quaternary phosphonium reversible inhibitors of cholinesterases of different animals

The quaternary phosphonium compounds were found to be reversible inhibitors of cholinesterases of different animals and showed species-specificity of action depending on their inhibitor structure. We have revealed difference in the inhibitory specificity of various acetylcholinesterase preparations. A difference has been shown in inhibitory parameters of optic ganglia of individuals of the squid Berryteuthis magister from different habitat areas. For the first time in comparing phosphonium and ammonium isologues-tetrabutyl- and tributylhexyl derivatives, it has been shown that they are agents practically similar by the character of the anticholinesterase action.     

Effect of cetyltrimethylammonium on the human blood cholinesterases activity

The influence of cationic detergent cetyltrimethylammonium on the human blood cholinesterases activity (erythrocyte acetylcholinesterase and plasma butyrylcholinesterase) in reactions of hydrolysis of alpha-thionaphthylacetat and acetylthiocholine is studied. It is shown, that cetyltrimethylammonium is reversible effector for both cholinesterases. This compound competitively inhibited enzymatic hydrolysis of acetylthiocholine by both cholinesterases, and in the reactions of enzymatic hydrolysis alpha-thionaphthylacetat display as the synergistic activator--in experiments with butyrylcholinesterase, and as the reversible inhibitor--in experiments with acetylcholinesterase. Kinetic constants in reaction of acetylcholinesterase inhibition by cetyltrimethylammonium defined by means of different substrates--alpha-thionaphthylacetat and acetylthiocholin. They are close among themselves and amount (2.5 +/- 0.3) x 10(-5) and (2.8 +/- 0.3) x 10(-5) M, accordingly. Butyrylcholinesterase was more sensitive to influence of cetyltrimethylammonium. The kinetic constants defined for this enzyme by the effect of inhibition of acetylthiocholin hydrolysis or activation of alpha-thionaphthylatcetat hydrolysis, are also close among themselves and amount (3.9 +/- 0.4) x 10(-6) and (4.4 +/- 0.4) x 10(-6) M, accordingly.     

Quaternary phosphonium reversibile inhibitors of cholinesterases of different animals

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.     

How various substrates activate the process of enzymatic hydrolysis by different cholinesterases

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 for the process of hydrolysis of acetylcholine, indophenylacetate (IPhA), and 2,6-dichlorophenolindoph enylacetate (DIPhA) by cholinesterase (ChE) of horse blood serum, as well as of IPhA and DIPhA 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.     

How thionphosphonates inhibit activity of different cholinesterases

Analysis of mechanism of reversible inhibition of human erythrocyte acetylcholinesterase (AChE), of horse serum cholinesterase (ChE), and ChE of optical ganglia tissue of individuals of the Commander squid Berryleuthis magister from various habitat zones was studied under effect of thionphosphonates (P=S), derivatives of piperidine, morpholine, perhydroazepine as well as several heterocyclic model compounds. Data of comparative inhibitory specificity have allowed us to suggest that thionphosphonates are sorbed in the area of cholinesterase esterase center through the phosphoryl part of the inhibitor molecule, rather than through its heterocyclic grouping. An advantage in the antienzyme efficiency of thionphosphonates (P=S) over phosphonates (P=O) is revealed. Effect of the ion strength is used for analysis of contribution of the hydrophobic—hydrophilic interaction in the enzyme—inhibitor system.     

How the various substrates activate the process of enzymatic hydrolysis by different cholinesterases

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.