Metformin may reduce dementia risk through neuroprotection not mitigation of diabetes

Abstract:

ABSTRACT Dementia is a largely untreatable syndrome that is epidemiologically associated with metabolic diseases such as type 2 diabetes (T2D) and obesity. Drugs used to treat T2D such as metformin are inexpensive, safely given to millions of people, and have also been reported to slow neurodegeneration. We hypothesised that the neuroprotective benefits of metformin might extend to metabolically healthy individuals and tested this hypothesis in a mouse prion model that recapitulates key features of human neurodegenerative disease, including synaptic loss and motor impairment. These features and the time course of this model (24 weeks) allows the effects of metabolic risk factors and metformin to be tested and potentially generalised to other forms of neurodegenerative disease. Mice fed a high fat diet (HFD) developed high adiposity with impaired glucose and insulin homeostasis, similar to the effects of chronic obesity seen in humans whereas mice on matched control diet (CD) remain metabolically healthy. Chronic treatment with metformin in HFD-fed mice significantly increased survival and health span relative to vehicle-treated mice. Mice fed a HFD also had a modestly extended health span relative to mice fed CD, as measured by development of motor signs of prion disease. Metformin also significantly extended health span in metabolically healthy CD-fed mice. Using targeted mass spectrometry, we found that metformin reached deep brain structures at functional concentrations, driving a reduction in pPERK and changing the activity of microglia in vivo . Metformin was able to alter ER stress pathways at the same concentrations in healthy animals and using human iPSC-derived microglia and mouse organotypic slices we show that the action of metformin at these concentrations does not require a systemic mechanism, necessary for the treatment of diabetes, and is likely a result of direct secondary pharmacology in the brain. Together, these data broadly support the premise of repurposing metformin for neuroprotection, even in metabolically healthy individuals.