Sexually Dimorphic Effects of a Western Diet on Brain Mitochondrial Bioenergetics and Neurocognitive Function

A Western diet (WD), high in sugars and saturated fats, impairs learning and memory function and contributes to weight gain. Mitochondria in the brain provide energy for neurocognitive function and may play a role in body weight regulation. We sought to determine whether a WD alters behavior and met...

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Bibliographic Details
Published in:Nutrients 2021-11, Vol.13 (12), p.4222
Main Authors: Lord, Magen N, Heo, Jun-Won, Schifino, Albino G, Hoffman, Jessica R, Donohue, Kristen N, Call, Jarrod A, Noble, Emily E
Format: Article
Language:English
Subjects:
Adipose Tissue - metabolism
Animal cognition
Animals
Anxiety
Behavior
Bioenergetics
Body fat
Body weight
Body weight gain
Brain research
Calories
Carbohydrates
Cognition
Cognition - physiology
Corn syrup
Diet
Diet, Western - adverse effects
Electric power demand
Energy
Energy demand
Energy Metabolism - physiology
Female
Females
Food
Gender differences
Glucose
Glucose Intolerance - etiology
Glucose tolerance
Hippocampus
Hippocampus - metabolism
Hypothalamus
Hypothalamus - metabolism
Male
Males
Membrane potential
Metabolism
Mitochondria
Mitochondria - metabolism
Obesity
Proteins
Rats
Sex
Sex Characteristics
Sexual dimorphism
Sugar
Weight Gain
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Summary:A Western diet (WD), high in sugars and saturated fats, impairs learning and memory function and contributes to weight gain. Mitochondria in the brain provide energy for neurocognitive function and may play a role in body weight regulation. We sought to determine whether a WD alters behavior and metabolic outcomes in male and female rodents through impacting hippocampal and hypothalamic mitochondrial bioenergetics. Results revealed a sexually dimorphic macronutrient preference, where males on the WD consumed a greater percentage of calories from fat/protein and females consumed a greater percentage of calories from a sugar-sweetened beverage. Both males and females on a WD gained body fat and showed impaired glucose tolerance when compared to same-sex controls. Males on a WD demonstrated impaired hippocampal functioning and an elevated tendency toward a high membrane potential in hippocampal mitochondria. Comprehensive bioenergetics analysis of WD effects in the hypothalamus revealed a tissue-specific adaption, where males on the WD oxidized more fat, and females oxidized more fat and carbohydrates at peak energy demand compared to same-sex controls. These results suggest that adult male rats show a susceptibility toward hippocampal dysfunction on a WD, and that hypothalamic mitochondrial bioenergetics are altered by WD in a sex-specific manner.
ISSN:2072-6643
2072-6643
DOI:10.3390/nu13124222