Abstract
It has been shown that the Western diet (WD) induces systemic inflammation and cognitive decline. Moreover, probiotic supplementation and antibiotic treatment reduce diet-induced hepatic inflammation. The current study examines whether shaping the gut microbes by Bifidobacterium infantis (B. infantis) supplementation and antibiotic treatment reduce diet-induced brain inflammation and improve neuroplasticity. Furthermore, the significance of bile acid (BA) signaling in regulating brain inflammation was studied. Mice were fed a control diet (CD) or WD for seven months. B. infantis was supplemented to WD-fed mice to study brain inflammation, lipid, metabolomes, and neuroplasticity measured by long-term potentiation (LTP). Broad-spectrum coverage antibiotics and cholestyramine treatments were performed to study the impact of WD-associated gut microbes and BA in brain inflammation. Probiotic B. infantis supplementation inhibited diet-induced brain inflammation by reducing IL6, TNFα, and CD11b levels. B. infantis improved LTP and increased brain PSD95 and BDNF levels, which were reduced due to WD intake. Additionally, B. infantis reduced cecal cholesterol, brain ceramide and enhanced saturated fatty acids. Moreover, antibiotic treatment, as well as cholestyramine, diminished WD-induced brain inflammatory signaling. Our findings support the theory that intestinal microbiota remodeling by B. infantis reduces brain inflammation, activates BA receptor signaling, and improves neuroplasticity.
Highlights
Western Diet (WD) intake leads to systemic inflammation and cognitive dysfunction [1,2]
After 10 min of stable baseline, the recording of Field excitatory postsynaptic potentials (fEPSPs) was evoked every 20 s, long-term potentiation (LTP) was elicited by high-frequency stimulation, consisting of 2 trains of 100 Hz (1 s) stimulation with the same intensity and pulse duration used in the sampling of baseline fEPSPs
We further studied the impact of B. infantis treatment on bile acid (BA) signaling in the brain
Summary
Western Diet (WD) intake leads to systemic inflammation and cognitive dysfunction [1,2]. Our previous study revealed the benefits of B. infantis in reducing hepatic inflammation and preventing cancer-prone nonalcoholic steatohepatitis [20]. B. infantis can prevent diet-induced brain inflammation and provide beneficial effects to prevent cognitive decline. It would be interesting to study whether antibiotics, which are known to reduce diet-induced liver inflammation [2,22], can prevent brain inflammation. Bile acids (BAs) are among the leading mediators explaining how diet via the gut microbiota affects health. The current study examined whether gut microbiota remodeling with probiotic supplementation and antibiotics could reduce diet-induced brain inflammation. WD-induced brain inflammation is attenuated by antibiotic treatment and reducing. Probiotic supplementation can potentially be used to prevent diet-induced cognitive decline
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