Skip to main content

Food memory circuits regulate eating and energy balance.

Citation
Pardo-Garcia, T. R., et al. “Food Memory Circuits Regulate Eating And Energy Balance.”. Current Biology : Cb, pp. 215-227.e3.
Center University of Michigan
Author Thibaut R Pardo-Garcia, Kathleen Gu, Riley K R Woerner, Monica Dus
Keywords nutrition, reinforcement learning, sensory plasticity, Taste
Abstract

In mammals, learning circuits play an essential role in energy balance by creating associations between sensory cues and the rewarding qualities of food. This process is altered by diet-induced obesity, but the causes and mechanisms are poorly understood. Here, we exploited the relative simplicity and wealth of knowledge about the D. melanogaster reinforcement learning network, the mushroom body, in order to study the relationship between the dietary environment, dopamine-induced plasticity, and food associations. We show flies that are fed a high-sugar diet cannot make associations between sensory cues and the rewarding properties of sugar. This deficit was caused by diet exposure, not fat accumulation, and specifically by lower dopamine-induced plasticity onto mushroom body output neurons (MBONs) during learning. Importantly, food memories dynamically tune the output of MBONs during eating, which instead remains fixed in sugar-diet animals. Interestingly, manipulating the activity of MBONs influenced eating and fat mass, depending on the diet. Altogether, this work advances our fundamental understanding of the mechanisms, causes, and consequences of the dietary environment on reinforcement learning and ingestive behavior.

Year of Publication
2023
Journal
Current biology : CB
Volume
33
Issue
2
Number of Pages
215-227.e3
Date Published
01/2023
ISSN Number
1879-0445
DOI
10.1016/j.cub.2022.11.039
Alternate Journal
Curr Biol
PMID
36528025
PMCID
PMC9877168
Download citation