High-fat diet postpones brain aging in mice

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Coconut oil and fresh coconut (stock image). The researchers see a particular positive effect when the mice are given the so-called medium chain fatty acids — e.g., from coconut oil.
Credit: © Picture Partners / Fotolia

New Danish-led research suggests that signs of brain aging can be postponed in mice if placed on a high-fat diet. In the long term, this opens the possibility of treatment of children suffering from premature aging and patients with Alzheimer’s and Parkinson’s disease. The research project is headed by the Center for Healthy Aging, University of Copenhagen and the National Institute of Health.

When we get older, defects begin to develop in our nervous system, our brain loses some of its intellectual capacity, and the risk of developing diseases such as Parkinson’s and Alzheimer’s increases. Alzheimer’s disease is currently the fastest-growing age-related disease.

Throughout our lives, it is important that our cells — to the extent possible — keep our DNA undamaged, and, therefore, the cells have a system that repairs the damage that occurs all the time. Humans age when the repair system ceases to function. In diseases such as Alzheimer’s, the researchers also see damage to the DNA

A new research project headed by the Center for Healthy Aging, University of Copenhagen and the National Institute of Health has studied mice having a defect in their DNA repair system. In humans, this defect causes the disorder Cockayne syndrome, where patients prematurely age as children and die at an age of 10-12 years. The study shows that placing a mouse model of Cockayne syndrome on a high-fat diet will postpone aging processes such as impaired hearing and weight loss.

Fat putting a stop to premature aging

“The study is good news for children with Cockayne syndrome, because we do not currently have an effective treatment. Our study suggests that a high-fat diet can postpone aging processes. A diet high in fat also seems to postpone the aging of the brain. The findings therefore potentially imply that patients with Alzheimer’s and Parkinson’s disease in the long term may benefit from the new knowledge,” says Professor Vilhelm Bohr from the Center for Healthy Aging, University of Copenhagen and the National Institute of Health, who has headed the study.

Our brain has a constant need for fuel in the form of either sugar or so-called ketones. Ketones are the brain’s fuel reserve, and, in particular, play an important role in periods of low blood sugar levels, e.g. if you are fasting. This is because the body breaks down fat if it needs sugar, and during this process it produces ketones. The researchers see a particular positive effect when the mice are given the so-called medium chain fatty acids — e.g. from coconut oil.

Brain cells need extra fuel

“In cells from children with Cockayne syndrome, we have previously demonstrated that aging is a result of the cell repair mechanism being constantly active. It eats into the resources and causes the cell to age very quickly. We therefore hope that a diet with a high content of coconut oil or similar fats will have a beneficial effect, because the brain cells are given extra fuel and thus the strength to repair the damage,” says postdoc Morten Scheibye-Knudsen from the National Institute of Health.

The study has just been published in the scientific journal Cell Metabolism.


Story Source:

The above story is based on materials provided by University of Copenhagen – The Faculty of Health and Medical Sciences. Note: Materials may be edited for content and length.


Journal Reference:

  1. Morten Scheibye-Knudsen, Sarah J. Mitchell, Evandro F. Fang, Teruaki Iyama, Theresa Ward, James Wang, Christopher A. Dunn, Nagendra Singh, Sebastian Veith, Md Mahdi Hasan-Olive, Aswin Mangerich, Mark A. Wilson, Mark P. Mattson, Linda H. Bergersen, Victoria C. Cogger, Alessandra Warren, David G. Le Couteur, Ruin Moaddel, David M. Wilson, Deborah L. Croteau, Rafael de Cabo, Vilhelm A. Bohr. A High-Fat Diet and NAD Activate Sirt1 to Rescue Premature Aging in Cockayne Syndrome. Cell Metabolism, 2014; 20 (5): 840 DOI: 10.1016/j.cmet.2014.10.005