Exposure to a high-fat diet compromises gut health, behavior, and HPA axis function, with partial reversal when limited to adolescence

Ott, Alexandra; Gül, Asude Zülal; Löber, Ulrike; Birkner, Till; Popova, Elena; Winter, Christine; Hadar, Ravit

Exposure to a high-fat diet compromises gut health, behavior, and HPA axis function, with partial reversal when limited to adolescence

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Item Type:	Article
Title:	Exposure to a high-fat diet compromises gut health, behavior, and HPA axis function, with partial reversal when limited to adolescence
Creators Name:	Ott, Alexandra, Gül, Asude Zülal, Löber, Ulrike, Birkner, Till, Popova, Elena, Winter, Christine and Hadar, Ravit
Abstract:	High-fat diet (HFD) consumption contributes to obesity, yet its impact on females of (pre)reproductive age and the effects of dietary modification after adolescence remain underexplored. This study examined how continuous HFD exposure or an adolescent switch from HFD to a standard diet (SD) shapes the gut microbiome, behavior, neurochemistry, metabolism, and key components of the hypothalamic-pituitary-adrenal (HPA) axis in female rats. Because HPA-axis alterations can occur across generations after HFD exposure, we examined reproductive-tissue HPA-axis components as potential mechanisms of transmission. Females received SD, HFD, or HFD followed by SD after majority of adolescence (postnatal day 60). HFD exposure impaired HPA-axis regulation and switching to SD during adolescence did not prevent persistent dysfunction into adulthood. However, reproductive HPA-axis components remained unaltered. Diet also strongly influenced the microbiome: while HFD disrupted microbial composition in adolescence, switching to SD partially restored it by adulthood. Behavioral and metabolic effects, including increased adiposity and anxiety-like behavior, emerged only with prolonged HFD exposure. Brain neurotransmitter concentrations remained largely unaffected. Overall, dietary history across adolescence and early adulthood shaped long-term HPA-axis function, microbiome composition, and behavioral outcomes. The absence of reproductive HPA-axis alterations suggests it is not a major mediator of maternal HFD-induced intergenerational effects. Persistent HPA-axis dysfunction despite dietary switching indicates limited reversibility, whereas the microbiome showed the greatest adaptive capacity. In contrast, lasting behavioral and metabolic consequences of HFD require continued exposure to adulthood.
Keywords:	Diet, High-Fat, Adolescent, Intergenerational Relations, Gastrointestinal Microbiome, HPA Axis
Source:	Brain Research Bulletin
ISSN:	0361-9230
Publisher:	Elsevier
Page Range:	111883
Date:	8 April 2026
Official Publication:	https://doi.org/10.1016/j.brainresbull.2026.111883
PubMed:	View item in PubMed

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