Spatial Cognition in Adult and Aged Mice Exposed to High-Fat Diet

James P Kesby,Deborah M Kado,Jane J Kim,Miriam Scadeng,Dilip V Jeste,Cristian L Achim,Gina Woods,Jerrold M Olefsky,Svetlana Semenova,Brenton G Cooper

doi:10.1371/journal.pone.0140034

James P Kesby, Deborah M Kado + Show 8 more

Open Access

https://doi.org/10.1371/journal.pone.0140034

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Journal: PLOS ONE	Publication Date: Oct 8, 2015
Citations: 58	License type: CC BY 4.0

Affiliation: University of California, San Diego, Institute on Aging

Abstract

Aging is associated with a decline in multiple aspects of cognitive function, with spatial cognition being particularly sensitive to age-related decline. Environmental stressors, such as high-fat diet (HFD) exposure, that produce a diabetic phenotype and metabolic dysfunction may indirectly lead to exacerbated brain aging and promote the development of cognitive deficits. The present work investigated whether exposure to HFD exacerbates age-related cognitive deficits in adult versus aged mice. Adult (5 months old) and aged (15 months old) mice were exposed to control diet or HFD for three months prior to, and throughout, behavioral testing. Anxiety-like behavior in the light-dark box test, discrimination learning and memory in the novel object/place recognition tests, and spatial learning and memory in the Barnes maze test were assessed. HFD resulted in significant gains in body weight and fat mass content with adult mice gaining significantly more weight and adipose tissue due to HFD than aged mice. Weight gain was attributed to food calories sourced from fat, but not total calorie intake. HFD increased fasting insulin levels in all mice, but adult mice showed a greater increase relative to aged mice. Behaviorally, HFD increased anxiety-like behavior in adult but not aged mice without significantly affecting spatial cognition. In contrast, aged mice fed either control or HFD diet displayed deficits in novel place discrimination and spatial learning. Our results suggest that adult mice are more susceptible to the physiological and anxiety-like effects of HFD consumption than aged mice, while aged mice displayed deficits in spatial cognition regardless of dietary influence. We conclude that although HFD induces systemic metabolic dysfunction in both adult and aged mice, overall cognitive function was not adversely affected under the current experimental conditions.

Highlights

A common, but not inevitable consequence of aging is a gradual decline in cognitive capabilities
To determine the systemic effects of high-fat diet (HFD) exposure we examined food consumption, fat mass content and fasting insulin/glucose levels
The results of the present study showed that exposure to the HFD resulted in metabolic dysfunction as reflected by significant weight gain, fat mass gain, increased fasting insulin levels and insulin resistance

Summary

Introduction

A common, but not inevitable consequence of aging is a gradual decline in cognitive capabilities. Age-related cognitive deficits depend on specific cognitive domains, with some declining while others remain stable [1]. Given that not all older adults experience cognitive deficits, determining which factors can best facilitate maintaining cognitive abilities with age is of interest and considered among the most important aspects of successful aging [2,3]. Exposure to environmental stressors may be a driving factor in the differential susceptibility to age-related cognitive decline [7]. The escalating prevalence of obesity may exacerbate age-related cognitive decline. The association between obesity in late life and cognitive abilities remains inconclusive [8]. Studies using rodent models indicate that the age of the animals when exposed to high-fat diet (HFD) is important for the development of cognitive impairment. Juvenile mice [9,10] and aged mice [11,12] appear more susceptible to HFD-induced impairments in learning and memory compared with adult mice

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