Curcumin Mitigates the High-Fat High-Sugar Diet-Induced Impairment of Spatial Memory, Hepatic Metabolism, and the Alteration of the Gut Microbiome in Alzheimer's Disease-Induced (3xTg-AD) Mice.
Gopal LamichhaneJing LiuSu-Jeong LeeDa-Yeon LeeGuolong ZhangYoo KimPublished in: Nutrients (2024)
The escalating prevalence of metabolic diseases and an aging demographic has been correlated with a concerning rise in Alzheimer's disease (AD) incidence. This study aimed to access the protective effects of curcumin, a bioactive flavonoid from turmeric, on spatial memory, metabolic functions, and the regulation of the gut microbiome in AD-induced (3xTg-AD) mice fed with either a normal chow diet (NCD) or a high-fat high-sugar diet (HFHSD). Our findings revealed an augmented susceptibility of the HFHSD-fed 3xTg-AD mice for weight gain and memory impairment, while curcumin supplementation demonstrated a protective effect against these changes. This was evidenced by significantly reduced body weight gain and improved behavioral and cognitive function in the curcumin-treated group. These improvements were substantiated by diminished fatty acid synthesis, altered cholesterol metabolism, and suppressed adipogenesis-related pathways in the liver, along with modified synaptic plasticity-related pathways in the brain. Moreover, curcumin enriched beneficial gut microbiota, including Oscillospiraceae and Rikenellaceae at the family level, and Oscillibacter , Alistipes , Pseudoflavonifractor , Duncaniella , and Flintibacter at the genus level. The observed alteration in these gut microbiota profiles suggests a potential crosswalk in the liver and brain for regulating metabolic and cognitive functions, particularly in the context of obesity-associated cognitive disfunction, notably AD.
Keyphrases
- weight gain
- high fat diet induced
- weight loss
- body mass index
- birth weight
- working memory
- insulin resistance
- risk factors
- high glucose
- physical activity
- fatty acid
- type diabetes
- cognitive decline
- white matter
- resting state
- drug induced
- metabolic syndrome
- single cell
- radiation therapy
- oxidative stress
- skeletal muscle
- cerebral ischemia
- endothelial cells
- stress induced
- mild cognitive impairment
- human health