Oxidative modification of ferritin induced by methylglyoxal

Methylglyoxal (MG) was identified as an intermediate innon-enzymatic glycation and increased levels were reported inpatients with diabetes. In this study, we evaluated the effects ofMG on the modification of ferritin. When ferritin wasincubated with MG, covalent crosslinking of the proteinincreased in a time- and MG dose-dependent manner.Reactive oxygen species (ROS) scavengers, N-acetyl-L-cysteineand thiourea suppressed the MG-mediated ferritinmodification. The formation of dityrosine was observed inMG-mediated ferritin aggregates and ROS scavengers inhibitedthe formation of dityrosine. During the reaction betweenferritin and MG, the generation of ROS was increased as afunction of incubation time. These results suggest that ROSmay play a role in the modification of ferritin by MG. Thereaction between ferritin and MG led to the release of ironions from the protein. Ferritin exposure to MG resulted in aloss of arginine, histidine and lysine residues. It was assumedthat oxidative damage to ferritin caused by MG may induce anincrease in the iron content in cells, which is deleterious tocells. This mechanism, in part, may provide an explanation orthe deterioration of organs under diabetic conditions. [BMBreports 2012; 45(3): 147-152]