Summary: In utero and early life exposure to high-fat diets results in a preference for foods that are higher in salt later in life, a new study reports. Researchers say high-fat diets increase the expression of the AT1 protein in the taste buds. This occurs as early as three weeks of age. AT1 is associated with a preference for salty tastes and researchers suggest AT1 affects salty taste preference by increasing sodium intake in taste bud cells.
Source; Tokyo Medical and Dental University
We are all aware of the importance of eating healthy food, especially during pregnancy. A high-fat diet has dramatic consequences on the metabolism. It can lead to obesity, diabetes, chronic liver disease, and possibly cancer.
Previous works have demonstrated that eating high amounts of fat during pregnancy affects the taste preference and metabolism in offspring. In most households, children and parents eat the same food. In other words, mums eating a high-fat diet will likely feed their children fatty foods.
What are the consequences of maternal and early-life exposure to high amounts of fat on the offspring?
This is what researchers from Tokyo Medical and Dental University (TMDU) have explored in a study published in Scientific Reports.
The researchers used a rat model to investigate the effect on taste preference of a two-generational (i.e., pregnant mother and young newborns) exposure to a high-fat diet. Pregnant and lactating females were fed a high-fat diet, while a control group received a standard diet.
After weaning, the offspring from each group received the same diet – babies from mothers fed a high-fat diet during pregnancy and those fed a standard diet continued receiving a high-fat diet and a standard diet, respectively.
Young rats from the high-fat diet groups gained more weight and consumed more energy than their counterparts from the standard diet groups.
“We wondered if the different diets had affected the taste preferences of the rats,” explains Takashi Ono, senior author.
“It is well established that taste impacts food intake. If something tastes good, the brain reward circuits are activated, and you will likely eat more of it.”
The researchers tested the animal preference for the five basic tastes: bitter, sour, salty, sweet, and umami, using a two-bottle challenge, in which two bottles – one containing water and the other one water with taste – were added to the rat cage.
Offspring exposed to a high-fat diet during gestation and early life preferred salty water. In contrast, they showed no specific preference for the other tastes when compared with the standard-diet group.
What mechanisms underlie this preference? The researchers investigated the levels of proteins involved in perceiving the salty taste.
“The protein and gene expression of AT1 increased in the taste buds of female offspring exposed to a high-fat diet. This happened as early as three weeks after birth,” explains Saranya Serirukchutarungsee, lead author of the study.
“AT1 is known to be associated with a preference for salty taste and evidence suggests that it is likely that AT1 affects the salty taste preference by increasing sodium intake in taste bud cells.”
Better understanding of the programming of offspring’s eating behavior and taste preferences is vital when considering the strong links between poor diet and poor health. These findings provide a crucial first step that can lead to further studies aimed at reducing the risk of developing obesity and diet-linked diseases, such as cardiovascular disease in offspring and subsequent generations.
Author: Ippei Watari
Source: Tokyo Medical and Dental University
Contact: Ippei Watari – Tokyo Medical and Dental University
Image: The image is in the public domain
Original Research: Open access.
“Two-generation exposure to a high-fat diet induces the change of salty taste preference in rats” by Takashi Ono et al. Scientific Reports
Two-generation exposure to a high-fat diet induces the change of salty taste preference in rats
High-fat diet (HFD) leads to multiple complications, including taste alteration. This study observed the effect of a two-generation exposure to an HFD on the peripheral taste system in offspring.
Ten pregnant Wistar rats were assigned a standard diet (SD) (n = 5) or HFD (n = 5) from day 7 of pregnancy through the lactation. Thirty-six male and female 3-week-old offspring were measured for body weight and blood glucose level, and the circumvallate papillae were collected.
The other twenty-four 3-week-old offspring were weaned on the same diet as their mothers and raised individually. The taste preference behaviors were studied using the two-bottle taste preference test and analyzed five basic tastes (sweet, bitter, umami, sour, and salty).
The expressions of epithelial sodium channel alpha subunit (ENaCα) and angiotensin II receptor type 1 (AT1) in the circumvallate papilla were analyzed by immunohistochemical staining and reverse transcription-quantitative polymerase chain reaction (RT-qPCR). We found increased body weight and salty taste preference of offspring from the HFD group in both sexes.
Correspondingly, the AT1 level of the taste bud cells significantly increased in 3-week-old female offspring from the HFD group. An increase in AT1 levels may be a risk factor for changes in salty taste preference.