Alzheimer’s disease (AD) is regarded as a disease of the brain. Cumulative evidence increasingly supports a full-body view on this disorder, with the liver and kidneys playing an important role in amyloid clearance. The latter is likely potentiated by caloric restriction (CR), whose impact on the metabolism of amyloid-handling tissues is poorly understood. We studied the sex-specific effects of amyloidosis and CR on oxidative and metabolic processes in APPPS1 mice that express amyloidogenic proteins. Wild-type (WT) and APPPS1 mice were either fed ad libitum (AL) or received 70% of their AL caloric intake (CR). Compared to age-matched WT controls, the brain, liver, and kidney of 9-month-old AL APPPS1 mice exhibited higher levels of oxidative stress markers, higher superoxide dismutase, and lower catalase activities. These differences were sex- and tissue-specific, with kidneys showing the largest AD-induced differences between sexes. In addition, APPPS1 mice possessed higher pyruvate kinase activity than WT mice in all organs and higher hexokinase and phosphofructokinase activities in the brain, with stronger effects in males. CR intensified the accumulation of lipid peroxides in the liver and the female brain but decreased it in the female kidney. CR potentiated glycolysis, predominantly in females and modulated glutathione-dependent enzymes, in a sex-dependent manner.
Vatashchuk et al. (Mon,) studied this question.