Circulating glucose levels modulate neural control of desire for high-calorie foods in humans
Kathleen A. Page, … , Robert S. Sherwin, Rajita Sinha
Kathleen A. Page, … , Robert S. Sherwin, Rajita Sinha
Published September 19, 2011
Citation Information: J Clin Invest. 2011;121(10):4161-4169. https://doi.org/10.1172/JCI57873.
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Circulating glucose levels modulate neural control of desire for high-calorie foods in humans

Abstract

Obesity is a worldwide epidemic resulting in part from the ubiquity of high-calorie foods and food images. Whether obese and nonobese individuals regulate their desire to consume high-calorie foods differently is not clear. We set out to investigate the hypothesis that circulating levels of glucose, the primary fuel source for the brain, influence brain regions that regulate the motivation to consume high-calorie foods. Using functional MRI (fMRI) combined with a stepped hyperinsulinemic euglycemic-hypoglycemic clamp and behavioral measures of interest in food, we have shown here that mild hypoglycemia preferentially activates limbic-striatal brain regions in response to food cues to produce a greater desire for high-calorie foods. In contrast, euglycemia preferentially activated the medial prefrontal cortex and resulted in less interest in food stimuli. Indeed, higher circulating glucose levels predicted greater medial prefrontal cortex activation, and this response was absent in obese subjects. These findings demonstrate that circulating glucose modulates neural stimulatory and inhibitory control over food motivation and suggest that this glucose-linked restraining influence is lost in obesity. Strategies that temper postprandial reductions in glucose levels might reduce the risk of overeating, particularly in environments inundated with visual cues of high-calorie foods.

Authors

Kathleen A. Page, Dongju Seo, Renata Belfort-DeAguiar, Cheryl Lacadie, James Dzuira, Sarita Naik, Suma Amarnath, R. Todd Constable, Robert S. Sherwin, Rajita Sinha

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Figure 4

Condition × task effects.

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Condition × task effects. (A) Axial slices with group averages (n = 14),...
(A) Axial slices with group averages (n = 14), covaried for BMI, showing brain response to food (high-calorie and low-calorie) cues under euglycemia compared with mild hypoglycemia (threshold of P < 0.05, 2-tailed, FWE whole brain corrected). (B) Wanting and liking ratings for food during euglycemia (gray bars) and mild hypoglycemia (black bars). *P = 0.02. (C) Brain response specifically to high-calorie food images under euglycemia compared with mild hypoglycemia (threshold of P < 0.05, 2-tailed, FWE whole brain corrected). (D) Wanting and liking ratings for high-calorie foods during euglycemia (gray bars) and mild hypoglycemia (black bars); **P = 0.006. Red/orange areas show greater activity, and blue areas indicate more suppressed activity during euglycemia relative to hypoglycemia. MNI coordinates were used to define brain regions.