Montreal, QC – High-fat feeding can cause impairments in the functioning of the mesolimbic dopamine system, says Stephanie Fulton of the University of Montreal and the CHUM Research Centre (CRCHUM). This system is a critical brain pathway controlling motivation.
Fulton’s findings, published July 14 in an online preview in Neuropsychopharmacology, may have great health implications. “Our research shows that independent of weight gain and obesity, saturated high-fat feeding can cause impairments in the functioning of the brain circuitry profoundly implicated in mood disorders, drug addiction, and overeating – several states and pathologies that impinge on motivation and hedonia,” said Fulton. Hedonia relates to a mental state of wellbeing.
“Another key finding is that the effects of prolonged high-fat feeding to dampen the sensitivity of this brain reward system are specific to saturated fats – palm oil used in this study – but not monounsaturated fat such as the olive oil used in this study,” she added.
The research team obtained these findings by working with three groups of rats. The first group of rats was the control group: they were given a low-fat diet containing roughly equal amounts of monounsaturated and saturated fatty acids. The second group was given a monounsaturated high fat diet, of which 50% of the calories were from fat derived from olive oil. The third group was given a saturated high fat diet – again, 50% of the calories were from fat, but this time derived from palm oil. The high-fat diets were all the same in terms of sugars, proteins, fat content and caloric density, and the animals were free to eat as much or as little as they liked. After eight weeks, all of the rats still had comparable body weights and levels of insulin, leptin (which are major metabolic hormones) and relative glycemia.
At this time, the rats underwent a series of behavioural and biochemical tests known to be indicative of the functioning of rats’ dopamine system.
“We established that the rats on the palm diet had a significantly blunted dopamine function,” said Cecile Hryhorczuk, the first author of the study. “Our research group and others hypothesize that this leads the brain to try to compensate by heightening reward-seeking behaviour, much like the phenomenon of drug tolerance where one has to increase the drug dose over time to get the same high. So, a person consuming too much saturated fat may then compensate a reduced reward experience by seeking out and consuming more high-fat and high-sugar foods to get the same level of pleasure or reward.”
Fulton’s study shows that, regardless of weight changes, unrestrained intake of saturated fats can have negative effects on the controls of motivation by the brain. “As we were able to control for changes in body weight, hormones and glucose levels, we think that the fats may be affecting the dopamine system by a direct action in the brain,” said Fulton. “We in fact have separate evidence that brain inflammation could be involved in this process, as it is evoked by saturated high-fat feeding, which will be presented in a future publication.”
Stephanie Fulton, PhD, is a professor at the University of Montreal’s Department of Nutrition while Cecile Hryhorczuk, MSc, is affiliated with the university’s Department of Physiology. Both are researchers at the Montreal Diabetes Centre and the CHUM Research Centre (CRCHUM.)
This research was supported by funding from the Canadian Institutes for Health Research (MOP123280, MOP115042, MOP9575), the Fonds de Recherche Quebec-Santé, the National Science and Engineering Research Council (249848-2007 RGPIN), the Montreal Diabetes Research Center/Université de Montréal and CMDO/Novo Nordisk.