A study of indirect methods of assay for diamine oxidase

Mechanism-based inactivation of porcine kidney diamine oxidase by 1,4-diamino-2-butene

Cis- and trans-1,4-diamino-2-butene are substrates and potent inactivators of porcine kidney diamine oxidase. Evidence from absorption and NMR spectra indicates that both are oxidized to pyrrole. Both substrates are irreversible mechanism-based inactivators of the enzyme, although the trans isomer is more potent and results in complete inactivation in a reaction which follows pseudo-first-order kinetics with an apparent Ki of 0.34 mM and a second-order inactivation constant of 500 M-1 s-1. Under the same conditions, 46% of the activity remains when the enzyme is reacted with cis-1,4-diamino-2-butene. Trans-4-amino-2-butenal, the product of oxidation of the trans diamine, has been synthesized and shown to undergo cyclization to pyrrole in a concentration-dependent manner, approaching second-order at low concentrations. Trans-4-amino-2-butenal is itself a potent irreversible inhibitor with IC50 of 2.5 microM. We propose that the irreversible inactivation by both cis- and trans-1,4-diamino-2-butene involves attack by a protein-based nucleophilic residue on the unsaturated aminoenal products of the enzymatic reactions, resulting in a covalent adduct. Cyclization of the cis-aminoenal to pyrrole is much more rapid than in the trans case, thus it is less available for inhibitory reaction with the protein.

A simple routine method for mono and diamine oxidase estimation in human serum

The advantages and disadvantages of previous methods for the routine estimations of serum mono and diamine oxidase are reviewed. 4-hydroxy-3-methoxy phenyl acetic acid reacts wtih hydrogen peroxide and peroxidase to form an intensely fluorescent substance, and a simple method using this reaction as a basis for the estimation is described. The results are tabulated and discussed.