Hyperlipidemic diet causes loss of olfactory sensory neurons, reduces olfactory discrimination, and disrupts odor-reversal learning

Hyperlipidemic diet causes loss of olfactory sensory neurons, reduces olfactory discrimination, and disrupts odor-reversal learning

Currently, 65% of Americans are overweight, which leads to well-supported cardiovascular and cognitive declines. Little, however, is known concerning obesity's impact on sensory systems. Because olfaction is linked with ingestive behavior to guide food choice, its potential dysfunction during o...

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Veröffentlicht in:The Journal of neuroscience 2014-05, Vol.34 (20), p.6970-6984
Hauptverfasser: Thiebaud, Nicolas, Johnson, Melissa C, Butler, Jessica L, Bell, Genevieve A, Ferguson, Kassandra L, Fadool, Andrew R, Fadool, James C, Gale, Alana M, Gale, David S, Fadool, Debra A
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Animals
Blood Glucose
Diet, High-Fat - adverse effects
Discrimination Learning - physiology
Male
Mice
Obesity - etiology
Obesity - physiopathology
Odorants
Olfactory Perception - physiology
Reversal Learning - physiology
Sensory Receptor Cells - physiology
Smell - physiology
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container_end_page 6984
container_issue 20
container_start_page 6970
container_title The Journal of neuroscience
container_volume 34
creator Thiebaud, Nicolas
Johnson, Melissa C
Butler, Jessica L
Bell, Genevieve A
Ferguson, Kassandra L
Fadool, Andrew R
Fadool, James C
Gale, Alana M
Gale, David S
Fadool, Debra A
description Currently, 65% of Americans are overweight, which leads to well-supported cardiovascular and cognitive declines. Little, however, is known concerning obesity's impact on sensory systems. Because olfaction is linked with ingestive behavior to guide food choice, its potential dysfunction during obesity could evoke a positive feedback loop to perpetuate poor ingestive behaviors. To determine the effect of chronic energy imbalance and reveal any structural or functional changes associated with obesity, we induced long-term, diet-induced obesity by challenging mice to high-fat diets: (1) in an obesity-prone (C57BL/6J) and obesity-resistant (Kv1.3(-/-)) line of mice, and compared this with (2) late-onset, genetic-induced obesity in MC4R(-/-) mice in which diabetes secondarily precipitates after disruption of the hypothalamic axis. We report marked loss of olfactory sensory neurons and their axonal projections after exposure to a fatty diet, with a concomitant reduction in electro-olfactogram amplitude. Loss of olfactory neurons and associated circuitry is linked to changes in neuronal proliferation and normal apoptotic cycles. Using a computer-controlled, liquid-based olfactometer, mice maintained on fatty diets learn reward-reinforced behaviors more slowly, have deficits in reversal learning demonstrating behavioral inflexibility, and exhibit reduced olfactory discrimination. When obese mice are removed from their high-fat diet to regain normal body weight and fasting glucose, olfactory dysfunctions are retained. We conclude that chronic energy imbalance therefore presents long-lasting structural and functional changes in the operation of the sensory system designed to encode external and internal chemical information and leads to altered olfactory- and reward-driven behaviors.
doi_str_mv 10.1523/jneurosci.3366-13.2014
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source MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central
subjects Animals
Blood Glucose
Diet, High-Fat - adverse effects
Discrimination Learning - physiology
Male
Mice
Obesity - etiology
Obesity - physiopathology
Odorants
Olfactory Perception - physiology
Reversal Learning - physiology
Sensory Receptor Cells - physiology
Smell - physiology
title Hyperlipidemic diet causes loss of olfactory sensory neurons, reduces olfactory discrimination, and disrupts odor-reversal learning
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