Microbiota fasting-related changes ameliorate cognitive decline in obesity and boost ex vivo microglial function through the gut-brain axis

Virginia Mela; Violeta Heras; Monika Iešmantaitė; María Luisa García-Martín; Manuel Bernal; Joel D Posligua-García; Alba Subiri-Verdugo; José Ignacio Martínez-Montoro; Ana María Gómez-Pérez; Borja Banderas; Isabel Moreno Indias; Francisco J Tinahones

doi:10.1136/gutjnl-2025-335353

Title	Microbiota fasting-related changes ameliorate cognitive decline in obesity and boost ex vivo microglial function through the gut-brain axis
Authors	Mela, Virginia ; Heras, Violeta ; Iešmantaitė, Monika ; García-Martín, María Luisa ; Bernal, Manuel ; Posligua-García, Joel D ; Subiri-Verdugo, Alba ; Martínez-Montoro, José Ignacio ; Gómez-Pérez, Ana María ; Banderas, Borja ; Indias, Isabel Moreno ; Tinahones, Francisco J
DOI	10.1136/gutjnl-2025-335353
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Is Part of	Gut.. London : BMJ Publishing Group. 2025, Early Access, p. [1-19].. ISSN 0017-5749. eISSN 1468-3288
Keywords [eng]	diet ; metabolomics ; microbiome ; neurobiology ; obesity
Abstract [eng]	Background Obesity-related cognitive decline is linked to gut microbiota dysbiosis, with emerging evidence suggesting that dietary interventions may ameliorate cognitive impairment via gut-brain axis modulation. The role of microglial cells in this process remains underexplored. Objective To investigate how diet-induced changes in gut microbiota influence cognitive function in individuals with obesity and their microglial activity, and to determine the impact of specific dietary interventions. Design This study included 96 participants with obesity who were randomised into three dietary intervention groups: Mediterranean diet (Med), alternate-day fasting (ADF) and ketogenic diet (Keto). Cognitive performance and microbiota composition were assessed pre-intervention and post-intervention. The effects of microbiota-related changes on microglial function were further evaluated in mice models through faecal transplantation and in vitro model with microbiota exosome treatment. Results Both the Keto and ADF groups demonstrated significant weight loss, but cognitive performance improved most notably in the ADF group, in association with reduced inflammation. Diet-related microbiota composition was correlated with the cognitive outcomes in the human study. Mice models confirmed that the cognitive benefits of ADF were microbiota-dependent and linked to enhanced microglial phagocytic capacity and reduced inflammation, accompanied by changes in microglia morphology. Conclusion Fasting-induced modifications in gut microbiota contribute to cognitive improvement in individuals with obesity, with microglial cells playing a crucial mediatory role. Among the interventions, ADF most effectively enhanced microglial function and cognitive performance, suggesting its potential as a therapeutic strategy for obesity-related cognitive decline. Further studies are required to fully elucidate the underlying mechanisms.
Published	London : BMJ Publishing Group
Type	Journal article
Language	English
Publication date	2025
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„Microbiota fasting-related changes ameliorate cognitive decline in obesity and boost ex vivo microglial function through the gut-brain axis“