Cognitive deficits associated with a high-fat diet and insulin resistance are potentiated by overexpression of ecto-nucleotide pyrophosphatase phosphodiesterase-1

•Mice exposed to HFD showed reduced performance on Morris Water Maze.•Peripheral insulin resistance exacerbates HFD induced cognitive deficits.•Mechanisms converge on decreased hippocampal signaling, which alters memory. There is growing evidence that over consumption of high-fat foods and insulin r...

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Bibliographic Details
Published in:International journal of developmental neuroscience 2018-02, Vol.64 (1), p.48-53
Main Authors: Kasper, J.M., Milton, A.J., Smith, A.E., Laezza, F., Taglialatela, G., Hommel, J.D., Abate, N.
Format: Article
Language:English
Subjects:
Adipocytes
Adiponectin
Animals
Brain - metabolism
Cognition & reasoning
Cognition Disorders - genetics
Cognition Disorders - metabolism
Cognitive ability
Diet
Diet, High-Fat
Food consumption
High fat diet
Hippocampus
Insulin
Insulin resistance
Insulin Resistance - physiology
Learning
Lipid composition
Memory
Mice
Mice, Transgenic
Oils & fats
Oxidative stress
Oxidative Stress - physiology
Phosphodiesterase
Phosphoric Diester Hydrolases - genetics
Phosphoric Diester Hydrolases - metabolism
Pyrophosphatase
Pyrophosphatases - genetics
Pyrophosphatases - metabolism
Rodents
Signaling
Transgenic mice
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Summary:•Mice exposed to HFD showed reduced performance on Morris Water Maze.•Peripheral insulin resistance exacerbates HFD induced cognitive deficits.•Mechanisms converge on decreased hippocampal signaling, which alters memory. There is growing evidence that over consumption of high-fat foods and insulin resistance may alter hippocampal-dependent cognitive function. To study the individual contributions of diet and peripheral insulin resistance to learning and memory, we used a transgenic mouse line that overexpresses ecto-nucleotide pyrophosphatase phosphodiesterase-1 in adipocytes, which inhibits the insulin receptor. Here, we demonstrate that a model of peripheral insulin resistance exacerbates high-fat diet induced deficits in performance on the Morris Water Maze task. This finding was then reviewed in the context of the greater literature to explore potential mechanisms including triglyceride storage, adiponectin, lipid composition, insulin signaling, oxidative stress, and hippocampal signaling. Together, these findings further our understanding of the complex relationship among peripheral insulin resistance, diet and memory.
ISSN:0736-5748
1873-474X
DOI:10.1016/j.ijdevneu.2017.03.011