Fructosazine, a Polyhydroxyalkylpyrazine with Antimicrobial Activity: Mechanism of Inhibition against Extremely Heat Resistant Escherichia coli.

Abstract

Fructosazine is a polyhydroxyalkylpyrazine recently reported to have antimicrobial activity against heat-resistant Escherichia coli AW 1.7. This study investigated fructosazine's antimicrobial mechanism of action and compared it to that of riboflavin. Fructosazine-acetic acid was effective in permeabilizing the outer membrane based on an evaluation of bacterial membrane integrity using 1-N-phenyl-1-naphthylamine and propidium iodide. The uptake of fructosazine by E. coli was pH-dependent with a greater uptake at pH 5 compared to pH 7 for all times throughout 16 h, except 2, 3, and 10 h. Fructosazine generates 1O2, which is partially why it damages E. coli. DNA fragmentation was confirmed by fluorescence microscopy, and the fructosazine-acetic acid was the second most intense treatment after riboflavin-acetic acid. Electron microscopy revealed membrane structural damage by fructosazine at pH 5 and 7. This study provides evidence that fructosazine exerts antimicrobial action by permeabilizing the cell membrane, damaging membrane integrity, and fragmenting DNA.