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Memory systems in the brain drive food cravings that could influence body weight

Can memory influence what and how much we eat? A groundbreaking study, that links food memory to overeating, answered that question with a resounding "Yes."

Can memory influence what and how much we eat? A groundbreaking Monell Chemical Senses Center study, which links food memory to overeating, answered that question with a resounding “Yes.” Led by Monell Associate Member Guillaume de Lartigue, PhD, the research team identified, for the first time, the brain’s food-specific memory system and its direct role in overeating and diet-induced obesity.

Published in Nature Metabolism, they describe a specific population of neurons in the mouse brain that encode memories for sugar and fat, profoundly impacting food intake and body weight. “In today’s world, we are constantly bombarded with advertisements and environmental triggers designed to remind us of pleasurable food experiences,” said Dr. de Lartigue. “What’s surprising is that we’ve pinpointed a specific population of neurons in the hippocampus that not only forms these food-related memories but also drives our eating behavior. This connection could have significant implications for body weight and metabolic health.”

These neurons in the brain encode memories of the spatial location of nutrient-rich foods, acting as a “memory trace,” particularly for sugar and fat. Silencing these neurons impairs an animal’s ability to recall sugar-related memories, reduces sugar consumption, and prevents weight gain, even when animals are exposed to diets that contribute to excessive weight gain. Conversely, reactivating these neurons enhances memory for food, increasing consumption and demonstrating how food memories influence dietary behavior.

These findings introduce two new concepts: first, evidence that specific neurons in the brain store food-related memories, and second, that these memories directly impact food intake. “While it’s no surprise that we remember pleasurable food experiences, it was long assumed that these memories had little to no impact on eating behavior,” said Dr. de Lartigue. “What’s most surprising is that inhibition of these neurons prevents weight gain, even in response to diets rich in fat and sugar.”

Memory’s Underappreciated Role

Memory is often overlooked as a key driver of food intake, but this study demonstrates a direct link between memory and metabolism. What sets this discovery apart from other studies related to memory is its implications for understanding metabolic health. Deleting sugar-responsive neurons in the hippocampus of the animals not only disrupts memory but also reduces sugar intake and protects against weight gain, even when animals are exposed to high-sugar diets. This highlights a direct link between certain brain circuits involved in memory and metabolic health, which has been largely overlooked in the field of obesity research.

“Memory systems in the hippocampus evolved to help animals locate and remember food sources critical for survival,” said first author Mingxin Yang, a University of Pennsylvania doctoral student in the de Lartigue lab. “In modern environments, where food is abundant and cues are everywhere, these memory circuits may drive overeating, contributing to obesity.”

Specific, Yet Independent Circuits

Another key discovery is that food-related memories are highly specific. Sugar-responsive neurons encode and influence only sugar-related memories and intake, while fat-responsive neurons in the brain impact only fat intake. These neurons do not affect other types of memory, such as spatial memory for non-food-related tasks.

“The specificity of these circuits is fascinating,” said de Lartigue. “It underscores how finely tuned the brain is for linking food to behavior, ensuring animals can differentiate between various nutrient sources in their environment.” We have separate types of neurons that encode memory for foods rich in fat versus memory for foods rich in sugar. These separate systems presumably evolved because foods in nature rarely contain both fat and sugar, surmise the authors.

Implications for Treating Obesity

The study’s findings open new possibilities for addressing overeating and obesity. By targeting hippocampal memory circuits, it may be possible to disrupt the memory triggers that drive the consumption of unhealthy, calorie-dense foods.

“These neurons are critical for linking sensory cues to food intake,” said Dr. de Lartigue. “Their ability to influence both memory and metabolism makes them promising targets for treating obesity in today’s food-rich world.”

Accompanying video: https://www.youtube.com/shorts/6FOTw5jimBc


As with anything you read on the internet, this article should not be construed as medical advice; please talk to your doctor or primary care provider before changing your wellness routine. WHN does not agree or disagree with any of the materials posted. This article is not intended to provide a medical diagnosis, recommendation, treatment, or endorsement. Additionally, it is not intended to malign any religion, ethnic group, club, organization, company, individual, or anyone or anything. These statements have not been evaluated by the Food and Drug Administration. 

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References/Sources/Materials provided by:

This article was written by Karen Kreeger at the Monell Center 

https://monell.org/memory-systems-in-the-brain-drive-food-cravings-that-could-influence-body-weight/

https://monell.org/

http://dx.doi.org/10.1038/s42255-024-01194-6

Posted by the WHN News Desk
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