Abstract

AbstractBackgroundFragmentation of the daily sleep‐wake rhythm is a risk factor for Alzheimer’s disease (AD) (Li et al, Lancet Healthy Longev 1:e96‐e105 [2020]). While women have a higher AD incidence than men, whether women are more sensitive to sleep fragmentation (SF) is not known. Studies in female 3xTg‐AD mice (8‐11 months old) show that chronic SF for four weeks alters the daily sleep‐wake rhythm and stimulates AD‐like neuropathology (Duncan et al, Neuroscience 481:111‐122 [2022]).MethodTo investigate possible sex differences in the effects of sleep fragmentation, we studied two AD mouse models and matching wild‐type controls, APPxPS1‐knock‐in mice (6.2‐11 months old; N = 127) and 5XFAD mice (2.3‐3.3 months old; N = 52). All mice were exposed to 3‐4 weeks of SF or undisturbed sleep while individually housed in cages interfaced for piezo electric sleep recording for monitoring of daily sleep‐wake rhythms. SF consisted of four daily sessions (1 hour each) of enforced wakefulness (induced with toys and paintbrush stimulation) that were evenly distributed during the light phase, for 5 days/week. Immediately after the last SF session, mice in both groups were euthanized and cortical and hippocampal tissue was dissected and frozen. Amyloid‐beta levels were determined in soluble fractions using ELISA.ResultsSF redistributed sleep from the light phase (loss) to the dark phase (gain) in APPxPS1‐ki (p<0.0001) and 5XFAD (p<0.05) mice and WT controls. Overall, females slept less than males (p<0.001) and were more affected by SF. Dark phase “rebound” sleep after SF was greater in APPxPS1‐ki females (∼70% of undisturbed controls) than in APPxPS1 males or WT mice of either sex (∼20% of undisturbed controls) (p<0.001). Cortical amyloid‐beta levels were higher in female than male AD mice, but surprisingly, neither cortical nor hippocampal amyloid‐beta levels were affected by SF in either strain.ConclusionThese findings suggest an interaction between sex, AD mutations, and neuropathology on dark phase rebound sleep after chronic SF. To elucidate this interaction, on‐going studies are investigating the role of amyloid‐beta in sex‐differences in SF‐induced rebound sleep and potential sex differences in SF effects on gene expression in brain regions regulating sleep or circadian rhythms.

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