A study in rats shows that exposure to a high-fat diet during pregnancy produces permanent changes in the offspring's brain that lead to overeating and obesity early in life, according to new research by Rockefeller University scientists.
This surprising finding, reported in the November 12 issue of The Journal of Neuroscience, provides a key step toward understanding mechanisms of fetal programming involving the production of new brain cells that may help explain the increased prevalence of childhood obesity during the last 30 years.
"We've shown that short-term exposure to a high-fat diet in utero produces permanent neurons in the fetal brain that later increase the appetite for fat," says senior author Sarah F. Leibowitz, who directs the Laboratory of Behavioral Neurobiology at Rockefeller. "This work provides the first evidence for a fetal program that links high levels of fats circulating in the mother's blood during pregnancy to the overeating and increased weight gain of offspring after weaning."
Research in adult animals by Leibowitz and others has shown that circulating triglycerides stimulate brain chemicals known as orexigenic peptides, which in turn spur the animals to eat more. Scientists also have shown that obese and diabetic mothers produce heavier children and that exposure to fat-rich foods early in life leads to obesity in adulthood. These studies suggested that food intake and body weight may be programmed during fetal development. But little was known about the mechanism underlying this programming.
Leibowitz and her colleagues have identified mechanisms in the brain that explain this programming. They compared the effects of feeding pregnant rats a high-fat diet for two weeks with feeding a balanced diet containing a moderate amount of fat. The researchers found that rat pups born to mothers who consumed the high-fat diet, even after the diet had been removed at birth, ate more, weighed more throughout life and began puberty earlier than those born to mothers who ate a balanced diet for the same two-week period. They also had higher levels of triglycerides in the blood both at birth and as adults and greater production of brain peptides that stimulate eating and weight gain.