Abnormalities in microbiota/butyrate/FFAR3 signaling in aging gut impair brain function
Sidharth P. Mishra, … , Sushil G. Rane, Hariom Yadav
Sidharth P. Mishra, … , Sushil G. Rane, Hariom Yadav
Published February 8, 2024
Citation Information: JCI Insight. 2024;9(3):e168443. https://doi.org/10.1172/jci.insight.168443.
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Research Article Aging Microbiology

Abnormalities in microbiota/butyrate/FFAR3 signaling in aging gut impair brain function

Abstract

Aging-related abnormalities in gut microbiota are associated with cognitive decline, depression, and anxiety, but underlying mechanisms remain unstudied. Here, our study demonstrated that transplanting old gut microbiota to young mice induced inflammation in the gut and brain coupled with cognitive decline, depression, and anxiety. We observed diminished mucin formation and increased gut permeability (“leaky gut”) with a reduction in beneficial metabolites like butyrate because of decline in butyrate-producing bacteria in the aged gut microbiota. This led to suppressed expression of butyrate receptors, free fatty acid receptors 2 and 3 (FFAR2/3). Administering butyrate alleviated inflammation, restored mucin expression and gut barriers, and corrected brain dysfunction. Furthermore, young mice with intestine-specific loss of FFAR2/3 exhibited gut and brain abnormalities akin to those in older mice. Our results demonstrate that reduced butyrate-producing bacteria in aged gut microbiota result in low butyrate levels and reduced FFAR2/3 signaling, leading to suppressed mucin formation that increases gut permeability, inflammation, and brain abnormalities. These findings underscore the significance of butyrate-FFAR2/3 agonism as a potential strategy to mitigate aged gut microbiota–induced detrimental effects on gut and brain health in older adults.

Authors

Sidharth P. Mishra, Shalini Jain, Bo Wang, Shaohua Wang, Brandi C. Miller, Jea Y. Lee, Cesar V. Borlongan, Lin Jiang, Julie Pollak, Subhash Taraphder, Brian T. Layden, Sushil G. Rane, Hariom Yadav

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Figure 4

Deficiency of butyrate-producing bacteria lowers butyrate levels in older gut.

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Deficiency of butyrate-producing bacteria lowers butyrate levels in olde...
(A) Principal component analysis (PCA) shows a significantly distinct metabolomics signature in the feces of old mice compared with that of sex-, diet-, and genotype-matched young mice. (B and C) Volcano plot (B) and random forest analyses (C) of differential abundance show that butyrate was the most significantly reduced metabolite in the old feces. Red dots represent metabolites more than +1 or –1 log2 fold-change whereas blue represents statistical significance but log2 fold-change is less than –1 or +1. (D and E) Compared to young feces, old feces showed significantly less expression of the butyrate-producing bacteria abundance markers butyrate kinase (buk) (D) and butyryl-CoA:acetate CoA transferase (but) (E) genes. (F) FMT transferred the reduced butyrate phenotype from old gut. (G and H) Reduced expression of buk (G) and but (H) was also transferred by old FMT. All the values represent the mean of 5–10 samples in each group. Statistical significance was determined using t test, and P values *P < 0.05 and ***P < 0.001 are statistically significant.