New Thiocholine Ester Substrates for the Assay of Human Serum Cholinesterase

Abstract

Abstract Background: Several thiocholine alkanoyl esters were newly synthesized and explored as substrates for the assay of human serum cholinesterase after being subjected to the Ellman reaction (Arch Biochem Biophys 1958;74:443–50 and Arch Biochem Biophys 1959;82:70–7). Methods: We synthesized thiocholine ester iodides by the method of Renshow et al. (J Am Chem Soc 1938;60:1765–70). We examined solubility in H2O, substrate specificity serum for cholinesterase, (spontaneous) self-hydrolysis, storage stability, and reaction conditions for measurement of the activity of the enzyme. Results: Isobutyryl and cyclohexane-carboxyl esters showed the best efficiency for the specific and stable assay of human serum cholinesterase. Aqueous solubility of each was >10 mmol/L, and the reactivity with acetylcholinesterase was negligible. For isobutyryl and cyclohexane-carboxyl esters, respectively, spontaneous hydrolysis in the aqueous phase was ∼1/25 and ∼1/175 slower than the enzymatic hydrolysis, and assays with these substrates were linear to 1800 and 3000 U/L, respectively. The Km values of these acylthiocholines with human cholinesterase were almost equivalent (6.9 × 10−3 mmol/L). The substrates were stable in aqueous solution and in the solid state as the iodides for at least 5 years at 5 °C. Conclusions: The isobutyrate and cyclohexane-carboxylate of thiocholine are suitable for the specific assay of human serum cholinesterase.