Inter-tissue and inter-species comparison of butyrylcholinesterases

Abstract

Butyrylcholinesterase (BuChE) occurs in a multiple molecular forms whose catalytic activity depends on tissue distribution and species. The hypothesis led us to the study of BuChE catalytic properties focused on the inter-tissue and inter-species level with benzoylcholine and N-alkyl derivates of benzoylcholine (BCHn) as substrates. These compounds are soft disinfectants easily biodegradable to biologically inactive hydrolytic products, substituted choline and benzoic acid. Different sources of BuChE were used: rabbit and rat liver microsomal fraction (membrane-anchored enzyme) and serum (soluble form). Hydrolytic activity of both these BuChE forms was compared to rat recombinant BuChE (rBuChE). Hydrolytic product (benzoic acid) formation was recorded as function of time, and hydrolytic rate was determined. Tissue distribution of BuChE plays an important role in hydrolysis of BCHn. High BuChE activity was observed in a serum of both studied species rat and rabbit and was significantly dependent on a structure of substrates. Activity of soluble serum forms was the same as that for the rBuChE. Significant change of BuChE activity was recorded on the inter-species level in the microsomal fractions. It is because the rabbit microsomal BuChE activity had absolutely different course for all substrates as compared to rat microsomes. Inhibitory studies of BCHn enzymatic hydrolysis of all BuChE forms were performed to determine the level of BuChE participation in BCHn hydrolysis. It can be concluded that short-chain BCHn substrates are exclusively hydrolyzed by BuChE from all studied sources except for the rabbit liver microsomal fraction. Rabbit seems to have different enzymes involved in the hydrolysis of all studied BCHn compounds.