Further Study on the Relation of Polyoxin Structure to Chitin Synthetase Inhibition

Abstract

Abstract As a part of studies on the mechanism of action of antibiotics polyoxins, effects of various N-aminoacyl derivatives of polyoxin C and other polyoxins on chitin-UDP acetylglucosaminyl-transferase (EC 2.4.1.16, chitin synthetase) prepared from phytopathogenic fungus Piricularia oryzae were investigated. It was found that they inhibited the enzyme in competition with the substrate UDP-N-acetylglucosamine, Inhibitor constants, Ki, for these polyoxins were determined and the values of binding affinity, −ΔGbind of the inhibitors to the enzyme were calculated from the Ki values. In addition, by using these −ΔGbind values the values of partial binding affinity, −Δg for the several atoms and atomic groups or the several moieties contained in the polyoxin J molecule were estimated. From the results obtained, it was concluded that the carbamoylpolyoxamic acid moiety of polyoxins helps to stabilize the polyoxin-enzyme complex through the contributions of its oxygen atom at C−1″, amino group at C−2″, hydroxyl groups at C−3″ and C−4″, aliphatic carbon chain and terminal carbamoyloxy group. The results obtained by the kinetic investigation using various nucleotides and nucleotide sugars suggested that there was a specific binding site on the enzyme corresponding to the uridine moiety of UDP-N-acetylglucosamine, and that the pyrimidine nucleoside moiety of polyoxins was also bound to this site.