Gut microbiota mediates intermittent-fasting alleviation of diabetes-induced cognitive impairment

Zhigang Liu; Xiaoshuang Dai; Hongbo Zhang; Renjie Shi; Hui Yan; Xin Jin; Wentong Zhang; Luanfeng Wang; Qianxu Wang; Danna Wang; Jia Wang; Xintong Tan; Bo Ren; Xiaoning Liu; Tong Zhao; Jiamin Wang; Junru Pan; Tian Yuan; Chuanqi Chu; Lei Lan; Fei Yin; Enrique Cadenas; Lin Shi; Shancen Zhao; Xuebo Liu

doi:10.1038/s41467-020-14676-4

Gut microbiota mediates intermittent-fasting alleviation of diabetes-induced cognitive impairment

Zhigang Liu(North West Agriculture and Forestry University), Xiaoshuang Dai(BGI Group (China)), Hongbo Zhang(Northwest A&F University), Renjie Shi(Northwest A&F University), Hui Yan(BGI Group (China)), Xin Jin(BGI Group (China)), Wentong Zhang(Northwest A&F University), Luanfeng Wang(Northwest A&F University), Qianxu Wang(Northwest A&F University), Danna Wang(Northwest A&F University), Jia Wang(Northwest A&F University), Xintong Tan(Northwest A&F University), Bo Ren(Northwest A&F University), Xiaoning Liu(North West Agriculture and Forestry University), Tong Zhao(Northwest A&F University), Jiamin Wang(Northwest A&F University), Junru Pan(Northwest A&F University), Tian Yuan(Northwest A&F University), Chuanqi Chu(Northwest A&F University), Lei Lan(BGI Group (China)), Fei Yin(University of Arizona), Enrique Cadenas(University of Southern California), Lin Shi(Chalmers University of Technology), Shancen Zhao(BGI Group (China)), Xuebo Liu(North West Agriculture and Forestry University)

Nature Communications

February 18, 2020

10.1038/s41467-020-14676-4

Cited by 526Open Access

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Abstract

Cognitive decline is one of the complications of type 2 diabetes (T2D). Intermittent fasting (IF) is a promising dietary intervention for alleviating T2D symptoms, but its protective effect on diabetes-driven cognitive dysfunction remains elusive. Here, we find that a 28-day IF regimen for diabetic mice improves behavioral impairment via a microbiota-metabolites-brain axis: IF enhances mitochondrial biogenesis and energy metabolism gene expression in hippocampus, re-structures the gut microbiota, and improves microbial metabolites that are related to cognitive function. Moreover, strong connections are observed between IF affected genes, microbiota and metabolites, as assessed by integrative modelling. Removing gut microbiota with antibiotics partly abolishes the neuroprotective effects of IF. Administration of 3-indolepropionic acid, serotonin, short chain fatty acids or tauroursodeoxycholic acid shows a similar effect to IF in terms of improving cognitive function. Together, our study purports the microbiota-metabolites-brain axis as a mechanism that can enable therapeutic strategies against metabolism-implicated cognitive pathophysiologies.

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