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Orally administered probiotics modulate gut microbiota and r | 58430

神経科学および神経薬理学ジャーナル

概要

Orally administered probiotics modulate gut microbiota and restore glucose homeostasis in a mouse model of Alzheimer

L. Bonfili

Cerebral glucose homeostasis deregulation has a role in the pathogenesis and the progression of Alzheimer’s disease (AD). Current therapiesdelay the decline in cognitive abilities and memory losswithout definitively curing AD.
Recent studies have focussed on the role of the gut microbiota in disorders associated with the central nervous system, with special interest in the modulation of the gut-brain axis.
Using 3xTg-AD triple transgenic AD mouse model, we have demonstrated that the oral administration of a formulation of lactic acid bacteria and bifidobacteria(namely SLAB51) counteracts cognitive decline, reduces Aβ aggregates and brain damages and partially restores the impaired neuronal proteolysis. Improvement of cognitive function is supported by enriched gut content of anti-inflammatory short chain fatty acids (SCFAs) and increased plasma concentrations of neuroprotective gut peptide hormones that play a role in modulating neuronal functions like learning and memory. In detail, probiotics oral administration influences energy metabolism and glycolysis-gluconeogenesis in AD mice, enhancing glucagon like peptide-1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP) plasma concentrations. Probiotics oral administration improves glucose uptake in 3xTg-AD mice by restoring the brain expression levels of key glucose transporters (GLUT3, GLUT1) and insulin-like growth factor I receptor β (IGF-IRβ), in accordance with the diminished phosphorylation of AMP-activated protein kinase (AMPK) and protein-kinase B (Akt). In parallel, phosphorylated tau aggregates decrease in treated mice. Probiotics counteract the time-dependent increase of glycated haemoglobin and the accumulation of advanced glycation end-products (AGE) in AD mice, consistently with memory improvement. Collectively, our data elucidate the mechanism through which gut microbiota manipulation ameliorates impaired glucose metabolism in AD, finally delaying the disease progression.

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