Exercise hormone irisin is a critical regulator of cognitive function

Irisin is shown to mediate beneficial effects on cognitive function associated with exercise and to improve cognitive function in mouse models of Alzheimer's disease, probably through its direct action in the brain. Identifying secreted mediators that drive the cognitive benefits of exercise holds great promise for the treatment of cognitive decline in ageing or Alzheimer's disease (AD). Here, we show that irisin, the cleaved and circulating form of the exercise-induced membrane protein FNDC5, is sufficient to confer the benefits of exercise on cognitive function. Genetic deletion of Fndc5/irisin (global Fndc5 knock-out (KO) mice; F5KO) impairs cognitive function in exercise, ageing and AD. Diminished pattern separation in F5KO mice can be rescued by delivering irisin directly into the dentate gyrus, suggesting that irisin is the active moiety. In F5KO mice, adult-born neurons in the dentate gyrus are morphologically, transcriptionally and functionally abnormal. Importantly, elevation of circulating irisin levels by peripheral delivery of irisin via adeno-associated viral overexpression in the liver results in enrichment of central irisin and is sufficient to improve both the cognitive deficit and neuropathology in AD mouse models. Irisin is a crucial regulator of the cognitive benefits of exercise and is a potential therapeutic agent for treating cognitive disorders including AD.

Automated summary

Irisin, a cleaved and circulating form of the exercise-induced membrane protein FNDC5, has been shown to mediate the beneficial effects of exercise on cognitive function, and improve cognitive function in mouse models of Alzheimer's disease. Irisin plays a crucial role in regulating cognitive benefits of exercise and may be a potential therapeutic agent for treating cognitive disorders, including Alzheimer's disease.