March 24, 2015

Science Daily/University of Kansas Medical Center

A correlation between milk consumption and the levels of a naturally-occurring antioxidant called glutathione in the brain has been discovered in older, healthy adults.

In-Young Choi, Ph.D., an associate professor of neurology at KU Medical Center, and Debra Sullivan, Ph.D., professor and chair of dietetics and nutrition at KU Medical Center, worked together on the project. Their research, which was published in the Feb. 3, 2015 edition of The American Journal of Clinical Nutrition, suggests a new way that drinking milk could benefit the body.

"We have long thought of milk as being very important for your bones and very important for your muscles," Sullivan said. "This study suggests that it could be important for your brain as well."

Choi's team asked the 60 participants in the study about their diets in the days leading up to brain scans, which they used to monitor levels of glutathione -- a powerful antioxidant -- in the brain.

The researchers found that participants who had indicated they had drunk milk recently had higher levels of glutathione in their brains. This is important, the researchers said, because glutathione could help stave off oxidative stress and the resulting damage caused by reactive chemical compounds produced during the normal metabolic process in the brain. Oxidative stress is known to be associated with a number of different diseases and conditions, including Alzheimer's disease, Parkinson's disease and many other conditions, said Dr. Choi.

"You can basically think of this damage like the buildup of rust on your car," Sullivan said. "If left alone for a long time, the buildup increases and it can cause damaging effects.

Few Americans reach the recommended daily intake of three dairy servings per day, Sullivan said. The new study showed that the closer older adults came to those servings, the higher their levels of glutathione were.

"If we can find a way to fight this by instituting lifestyle changes including diet and exercise, it could have major implications for brain health," Choi said.

An editorial in the same edition of The American Journal of Clinical Nutrition said the study presented "a provocative new benefit of the consumption of milk in older individuals," and served as a starting point for further study of the issue.

"Antioxidants are a built-in defense system for our body to fight against this damage, and the levels of antioxidants in our brain can be regulated by various factors such as diseases and lifestyle choices," Choi said.

For the study, researchers used high-tech brain scanning equipment housed at KU Medical Center's Hoglund Brain Imaging Center. "Our equipment enables us to understand complex processes occurring that are related to health and disease," Choi said. "The advanced magnetic resonance technology allowed us to be in a unique position to get the best pictures of what was going on in the brain."

A randomized, controlled trial that seeks to determine the precise effect of milk consumption on the brain is still needed and is a logical next step to this study, the researchers said.

http://www.sciencedaily.com/releases/2015/03/150324101447.htm

July 10, 2017

Science Daily/Salk Institute

The benefits of antioxidant fisetin have been demonstrated in mouse model of premature aging, Alzheimer's disease.

Salk scientists have found further evidence that a natural compound in strawberries reduces cognitive deficits and inflammation associated with aging in mice. The work, which appeared in the Journals of Gerontology Series A in June 2017, builds on the team's previous research into the antioxidant fisetin, finding it could help treat age-related mental decline and conditions like Alzheimer's or stroke.

"Companies have put fisetin into various health products but there hasn't been enough serious testing of the compound," says Pamela Maher, a senior staff scientist in Salk's Cellular Neurobiology Laboratory and senior author of the paper. "Based on our ongoing work, we think fisetin might be helpful as a preventative for many age-associated neurodegenerative diseases, not just Alzheimer's, and we'd like to encourage more rigorous study of it."

Maher, who works in the lab of David Schubert, the head of Salk's Cellular Neurobiology Lab, has been studying fisetin for over a decade. Previous research by the lab found that fisetin reduced memory loss related to Alzheimer's in mice genetically modified to develop the disease. But that study focused on genetic (familial) AD, which accounts for only 1 to 3 percent of cases. By far the bigger risk factor for developing what is termed sporadic AD, as well as other neurodegenerative disorders, is simply age. For the current inquiry, Maher turned to a strain of laboratory mice that age prematurely to better study sporadic AD. By 10 months of age, these mice typically show signs of physical and cognitive decline not seen in normal mice until two years of age.

The Salk team fed the 3-month-old prematurely aging mice a daily dose of fisetin with their food for 7 months. Another group of the prematurely aging mice was fed the same food without fisetin. During the study period, mice took various activity and memory tests. The team also examined levels of specific proteins in the mice related to brain function, responses to stress and inflammation.

"At 10 months, the differences between these two groups were striking," says Maher. Mice not treated with fisetin had difficulties with all the cognitive tests as well as elevated markers of stress and inflammation. Brain cells called astrocytes and microglia, which are normally anti-inflammatory, were now driving rampant inflammation. Mice treated with fisetin, on the other hand, were not noticeably different in behavior, cognitive ability or inflammatory markers at 10 months than a group of untreated 3-month-old mice with the same condition. Additionally, the team found no evidence of acute toxicity in the fisetin-treated mice, even at high doses of the compound.

"Mice are not people, of course," says Maher, "But there are enough similarities that we think fisetin warrants a closer look, not only for potentially treating sporadic AD but also for reducing some of the cognitive effects associated with aging, generally."

Next, Maher hopes to partner with another group or company in order to conduct clinical trials of fisetin with human subjects.

https://www.sciencedaily.com/releases/2017/07/170710160954.htm

February 4, 2015
Science Daily/Texas A&M University
A compound found in common foods such as red grapes and peanuts may help prevent age-related decline in memory, according to new research published by a faculty member in the Texas A&M Health Science Center College of Medicine.

Ashok K. Shetty, Ph.D., a professor in the Department of Molecular and Cellular Medicine and Director of Neurosciences at the Institute for Regenerative Medicine, has been studying the potential benefit of resveratrol, an antioxidant that is found in the skin of red grapes, as well as in red wine, peanuts and some berries.

Resveratrol has been widely touted for its potential to prevent heart disease, but Shetty and a team that includes other researchers from the health science center believe it also has positive effects on the hippocampus, an area of the brain that is critical to functions such as memory, learning and mood.

Because both humans and animals show a decline in cognitive capacity after middle age, the findings may have implications for treating memory loss in the elderly. Resveratrol may even be able to help people afflicted with severe neurodegenerative conditions such as Alzheimer's disease.

In a study published online Jan. 28 in Scientific Reports, Shetty and his research team members reported that treatment with resveratrol had apparent benefits in terms of learning, memory and mood function in aged rats.

"The results of the study were striking," Shetty said. "They indicated that for the control rats who did not receive resveratrol, spatial learning ability was largely maintained but ability to make new spatial memories significantly declined between 22 and 25 months. By contrast, both spatial learning and memory improved in the resveratrol-treated rats."

Shetty said neurogenesis (the growth and development of neurons) approximately doubled in the rats given resveratrol compared to the control rats. The resveratrol-treated rats also had significantly improved microvasculature, indicating improved blood flow, and had a lower level of chronic inflammation in the hippocampus.

"The study provides novel evidence that resveratrol treatment in late middle age can help improve memory and mood function in old age," Shetty said.

This study was funded primarily by the National Center for Complementary and Alternative Medicine (NCCAM) at the National Institutes of Health. Shetty's lab is now examining the molecular mechanisms that underlie the improved cognitive function following resveratrol treatment. He also plans to conduct studies to see whether lower doses of resveratrol in the diet for prolonged periods would offer similar benefits to the aged brain.
Science Daily/SOURCE :http://www.sciencedaily.com/releases/2015/02/150204184230.htm