Diet, inflammation and the gut microbiome: Mechanisms for obesity-associated cognitive impairment

Poor diet and obesity are associated with cognitive impairment throughout adulthood, and increased dementia risk in aging. Here we review the current literature interrogating the mechanisms by which diets high in fat, or fat and sugar lead to cognitive impairment, focusing on changes to gut microbio...

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Veröffentlicht in:Biochimica et biophysica acta. Molecular basis of disease 2020-06, Vol.1866 (6), p.165767-165767, Article 165767
Hauptverfasser: Leigh, Sarah-Jane, Morris, Margaret J.
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Sprache:eng
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Zusammenfassung:Poor diet and obesity are associated with cognitive impairment throughout adulthood, and increased dementia risk in aging. Here we review the current literature interrogating the mechanisms by which diets high in fat, or fat and sugar lead to cognitive impairment, focusing on changes to gut microbiome composition, inflammatory signalling and blood-brain barrier integrity. Preclinical studies indicate weight gain is not necessary for diet-induced cognitive impairment. Rather, gut microbiome composition, and systemic and central inflammatory processes appear to contribute to diet-induced cognitive impairment. While both obese humans and rodents exhibit reduced blood-brain barrier integrity, cognitive impairments precede these changes, suggesting other mechanisms may underly diet-induced cognitive changes. Other potential candidates include hormone, glucoregulatory and cardiovascular changes. Poor diet and obesity act through multiple mechanisms to affect cognitive health and the challenge for future research is to identify key processes that can be reversed to improve cognition and quality of life. •Cognition is impaired by both poor diet and obesity in rodents and humans.•Weight gain is not necessary for cognitive impairment in rodents fed a poor diet.•Systemic inflammation is associated with impaired cognition in humans and rodents.•Extended poor diet exposure can increase blood-brain barrier permeability.•Interventions targeting gut microbiome can alter cognition in rodents.
ISSN:0925-4439
1879-260X
DOI:10.1016/j.bbadis.2020.165767