How exercise may protect against Alzheimer’s
NEW YORK, NY (Feb. 8, 2019)–Athletes know a vigorous workout can release a flood of endorphins: “feel-good” hormones that boost mood. Now there’s evidence that exercise produces another hormone that may improve memory and protect against Alzheimer’s disease, according to a study co-led by Ottavio Arancio, MD, PhD, a researcher at Columbia University’s Vagelos College of Physicians and Surgeons and Taub Institute for Research on Alzheimer’s Disease and the Aging Brain.
The study was published in Nature Medicine.
Physical activity is known to improve memory, and studies suggest it may also reduce the risk of Alzheimer’s disease. But researchers don’t understand why.
A few years ago, exercise researchers discovered a hormone called irisin that is released into the circulation during physical activity. Initial studies suggested that irisin mainly played a role in energy metabolism. But newer research found that the hormone may also promote neuronal growth in the brain’s hippocampus, a region critical for learning and memory.
“This raised the possibility that irisin may help explain why physical activity improves memory and seems to play a protective role in brain disorders such as Alzheimer’s disease” says Arancio, who is a professor of pathology and cell biology and of medicine at Columbia University Vagelos College of Physicians and Surgeons.
Irisin is reduced in brains of people with Alzheimer’s
In the new study, Arancio and his colleagues at the Federal University of Rio de Janeiro in Brazil and Queens University in Canada first looked for a link between irisin and Alzheimer’s in people. Using tissue samples from brain banks, they found that irisin is present in the human hippocampus and that hippocampal levels of the hormone are reduced in individuals with Alzheimer’s.
To explore what irisin does in the brain, the team turned to mice. These experiments show that irisin, in mice, protects the brain’s synapses and the animals’ memory: When irisin was disabled in the hippocampus of healthy mice, synapses and memory weakened. Similarly, boosting brain levels of irisin improved both measures of brain health.
Swimming boosts irisin, protects memory in mice
The researchers then looked at the effect of exercise on irisin and the brain. In the study’s most compelling experiments, the researchers found that mice who swam nearly every day for five weeks did not develop memory impairment despite getting infusions of beta amyloid — the neuron-clogging, memory-robbing protein implicated in Alzheimer’s.
Blocking irisin with a drug completely eliminated the benefits of swimming, the researchers also found. Mice who swam and were treated with irisin-blocking substances performed no better on memory tests than sedentary animals after infusions with beta amyloid.
Together the findings suggest that irisin could be exploited to find a novel therapy for preventing or treating dementia in humans, Arancio says. His team is now searching for pharmaceutical compounds that can increase brain levels of the hormone or can mimic its action.
“In the meantime, I would certainly encourage everyone to exercise, to promote brain function and overall health,” he said. “But that’s not possible for many people, especially those with age-related conditions like heart disease, arthritis, or dementia. For those individuals, there’s a particular need for drugs that can mimic the effects of irisin and protect synapses and prevent cognitive decline.”
The study is titled, “Exercise-linked FNDC5/irisin rescues synaptic plasticity and memory defects in Alzheimer’s models.” The other contributors are: Mychael V. Lourenco (Federal University of Rio de Janeiro, Rio de Janeiro, Brazil, and CUIMC); Rudimar L. Frozza (Federal University of Rio de Janeiro and Oswaldo Cruz Institute, Oswaldo Cruz Foundation, FIOCRUZ, Rio de Janeiro); Guilherme B. de Freita (Federal University of Rio de Janeiro and Queen’s University, Kingston, Ontario, Canada); Hong Zhang (CUIMC); Grasielle C. Kincheski (Federal University of Rio de Janeiro); Felipe C. Ribeiro (Federal University of Rio de Janeiro); Rafaella A. Gonçalves (Queen’s University, Kingston, Ontario, Canada); Julia R. Clarke (Federal University of Rio de Janeiro); Danielle Beckman (Federal University of Rio de Janeiro); Agnieszka Staniszewski (CUIMC); Hanna Berman (CUIMC); Lorena A. Guerra (Federal University of Rio de Janeiro); Letícia Forny-Germano (Federal University of Rio de Janeiro); Shelby Meier (University of Kentucky, Lexington, KY); Donna M. Wilcock (University of Kentucky); Jorge M. de Souza (Federal University of Rio de Janeiro); Soniza Alves-Leon (Federal University of Rio de Janeiro); Vania F. Prado (University of Western Ontario, London, Ontario, Canada); Marco A. M. Prado (University of Western Ontario); Jose F. Abisambra (University of Kentucky); Fernanda Tovar-Moll (D’Or Institute for Research and Education, Rio de Janeiro, Brazil, and Federal University of Rio de Janeiro); Paulo Mattos (D’Or Institute for Research and Education and Federal University of Rio de Janeiro); Sergio T. Ferreira (Federal University of Rio de Janeiro); and Fernanda G. De Felice (Federal University of Rio de Janeiro and Queen’s University).
This work was supported by grants from Alzheimer Society of Canada, the Weston Brain Institute (to F.G.D.F.), National Institute for Translational Neuroscience (INNT/Brazil), Human Frontier Science Program, International Society for Neurochemistry, National Institutes of Health (R01NS049442), Canadian Institutes of Health Research, and from the Brazilian funding agencies Conselho Nacional de Desenvolvimento Científico e Tecnológico and Fundação Carlos Chagas Filho de Amparo à Pesquisa do Estado do Rio de Janeiro.
The authors declare no financial or other conflicts of interest.
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