Exogenous ketones exert antiseizure effects and modulate the gut microbiome and mycobiome in a clinically relevant murine model of epilepsy.

Objective: Despite growing interest in the potential use of exogenous ketones for the treatment of epilepsy, their impact on seizures and the gut microbiome and mycobiome remain unclear. Methods: Here, we examined the effects of both oral gavage and subcutaneous (SC) injection of a ketone ester (KE) in spontaneously epileptic Kcna1‐null (KO) mice that model seminal aspects of human temporal lobe epilepsy. Electroencephalographic recordings and biochemical analyses were performed in KE‐treated KO mice. Fecal microbial and fungal communities were profiled to determine whether the antiseizure activity of KE involves changes in the gut microbiome. Results: We found that exogenous KE administration by SC injection was more effective than oral gavage in terms of rendering antiseizure effects while generating similar degrees of ketonemia. However, reductions in mean daily seizure counts were accompanied by overall alterations in the fecal bacterial microbiome. Either oral or SC injection imposed a greater impact on the microbiome in male than female mice. In males, oral KE decreased Bacteroidota phylum and genera of Ligilactobacillus and Muribaculaceae, whereas SC injection decreased Bacteroides, Lactobacillus, and Lachnospiraceae. The fecal mycobiome was affected by KE injection to a greater degree than by oral gavage, and more in females than in males, as reflected by an increase in Ascomycota and Saccharomyces. Correlation analysis between microbiome and seizure counts revealed that in mice receiving KE injection, the seizure count was positively correlated with an amplicon sequencing variant of Lactobacillus (Spearman rho =.64, p =.03) and tended toward a negative correlation with Saccharomyces (Spearman rho = −.57, p =.057). Significance: Our findings demonstrate that exogenous ketone administration alone can induce antiseizure effects equally via different routes of administration, and that they induce differential shifts in both the bacterial microbiome and mycobiome. [ABSTRACT FROM AUTHOR]