Hypothalamus amyloid levels are associated with early sex-dependent alterations in energy homeostasis in TgF344-AD rats

We reported previously that diet-induced obesity exacerbates early-stage Alzheimers disease (AD)-like pathology in TgF344-AD rats. Our findings also suggested that TgF344-AD rats may be prone to weight gain during early AD development, which we assessed here. Energy intake, body composition, and the impact of glucose administration on blood glucose were also assessed. Body temperature, intrascapular brown adipose tissue (iBAT) mass, and iBAT uncoupling protein-1 (UCP1) expression were used as indicators of thermogenic function. Soluble amyloid {beta}40 (A{beta}40) and A{beta}42 were quantified in hypothalamus. Male TgF344-AD rats began to outweigh wildtype (WT) littermates by 5 weeks of age; this increase emerged later in female TgF344-AD rats (~5 months). Female TgF344-AD rats ingested more energy from chow and a high fat, high sugar (HFHS) diet, gained more weight on the HFHS diet, and had lower UCP1 than WT rats, effects not observed in male TgF344-AD rats. Surprisingly, male and female TgF344-AD rats had increased body temperatures. This was restricted to the dark phase in females, which is when they ingest excess calories. Finally, the HFHS diet disrupted glucose regulation in male but not female TgF344-AD rats. These findings suggest that increases in energy intake and decreases in UCP1 may contribute to the additional weight gain in female TgF344-AD rats. The causes for these increases in males remain unclear. Hypothalamic A{beta}42 correlated with glucose dysregulation in male TgF344-AD rats and BAT mass in female TgF344-AD rats, raising the possibility that increases in A{beta}42 in hypothalamus produce sex-specific disruptions in energy homeostasis.