(Philadelphia, PA) - A high-fat diet can carry health risks, but for mothers-to-be, it may make all the difference when it comes to Alzheimer's disease prevention for their children. In a report published online August 26 in the journal Molecular Psychiatry, researchers at the Lewis Katz School of Medicine at Temple University show for the first time in animals that high maternal fat consumption during gestation protects offspring against changes in the brain that are characteristic of late-onset Alzheimer's disease.
"In humans, it has been known that individuals whose mothers develop Alzheimer's disease after age 65 are at increased risk of also developing the disease around the same age," said senior investigator Domenico Praticò, MD, Scott Richards North Star Foundation Chair for Alzheimer's Research, Professor in the Departments of Pharmacology and Microbiology, and Director of the Alzheimer's Center at Temple at the Lewis Katz School of Medicine.
Genetic factors transmitted by mothers to their offspring seem like an obvious explanation behind this phenomenon, but so far no genes have been identified that could explain the maternal transmission of Alzheimer's disease. This fact would suggest that environmental factors, such as lifestyle and diet, adopted during the gestation period, a time in which mother and baby are in tight interaction, could significantly influence the offspring's risk of developing the disease later in life.
Diet is of particular interest as a risk factor, especially a diet rich in animal fat and cholesterol. High-fat intake previously has been shown in young/adult mice to directly exacerbate the types of changes in brain function that ultimately may contribute to Alzheimer's disease.
To better understand the unique relationship between maternal Alzheimer's disease and risk in her offspring, Dr. Praticò and colleagues looked at maternal fat intake specifically during the gestation period in mice engineered to develop Alzheimer's disease. Pregnant mice were fed a high-fat diet from the beginning until the end of gestation. The moment offspring were born, mothers were switched to a regular diet, which was maintained during the lactation period. Offspring of these mothers were always kept at the same regular, or standard, diet throughout their life.
At 11 months of age, offspring underwent behavioral tests to assess learning ability and memory. "Surprisingly, we found that animals from mothers fed a high-fat diet during gestation had better learning and memory skills than their counterparts born to mothers fed a regular diet during gestation," Dr. Praticò said.
The observed improvements in memory and learning were associated with the maintenance of good synaptic integrity. In fact, offspring from mothers exposed to a high-fat diet had significant improvement of synapse function when compared with offspring from mothers on a regular diet. Synapses, the places where neurons come together to relay information, play a vital role in learning and memory formation.
In addition, compared to animals born to mothers fed a regular diet, offspring from mothers on a high-fat diet had lower levels of amyloid-beta, an abnormal protein that builds up in neurons, contributing to nerve cell dysfunction and eventually significant impairments in memory and learning.
When the team searched for possible mechanisms responsible for the beneficial effect, they discovered that offspring from mothers fed a high-fat diet exhibited reduced levels of three important genes involved in Alzheimer's disease: beta-secretase, tau, and the pathological tau-regulating gene CDK5. Dr. Praticò's team found that already in the early developmental stages, the three genes were effectively switched off in offspring because the high-fat diet had increased activity of a protein called FOXP2. They demonstrated that the repressive activity of FOXP2 on these genes ultimately protected offspring from later declines in brain function and Alzheimer's disease development.
"Our findings suggest that, to be effective, Alzheimer's disease prevention probably needs to start very early in life, during gestation," Dr. Praticò said. "Diet at this specific life stage can have critical, but underestimated, long-term impacts on brain health."
Dr. Praticò and colleagues plan next to compare the effects of a high-fat diet to those of other diets, including diets high in sugar and protein and diets resembling the Mediterranean diet in humans. "We also want to see whether our findings can be replicated in wild-type animals" Dr. Praticò added.
Other researchers contributing to the study include Antonio Di Meco, Elisabetta Lauretti, and Mary Elizabeth Curtis at the Alzheimer's Center at Temple, Lewis Katz School of Medicine; and Jaroslav Jelinek and Jean-Pierre J. Issa, Fels Institute for Cancer Research and Molecular Biology, Lewis Katz School of Medicine.
The research was funded in part by National Institutes of Health grant AG060711 and by the Scott Richards North Star Charitable Foundation.
About Temple Health
Temple University Health System (TUHS) is a $2.1 billion academic health system dedicated to providing access to quality patient care and supporting excellence in medical education and research. The Health System consists of Temple University Hospital (TUH); TUH-Episcopal Campus; TUH-Northeastern Campus; The Hospital of Fox Chase Cancer Center and Affiliates, an NCI-designated comprehensive cancer center; Jeanes Hospital, a community-based hospital offering medical, surgical and emergency services; Temple Transport Team, a ground and air-ambulance company; Temple Physicians, Inc., a network of community-based specialty and primary-care physician practices; and Temple Faculty Practice Plan, Inc., TUHS's physician practice plan comprised of more than 500 full-time and part-time academic physicians in 20 clinical departments. TUHS is affiliated with the Lewis Katz School of Medicine at Temple University.
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