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Sadler, Rebecca; Cramer, Julia V.; Heindl, Steffanie; Kostidis, Sarantos; Betz, Dene; Zuurbier, Kielen R.; Northoff, Bernd H.; Heijink, Marieke; Goldberg, Mark P.; Plautz, Erik J.; Roth, Stefan; Malik, Rainer; Dichgans, Martin ORCID logoORCID: https://orcid.org/0000-0002-0654-387X; Holdt, Lesca M.; Benakis, Corinne; Giera, Martin; Stowe, Ann M. und Liesz, Arthur (2020): Short-Chain Fatty Acids Improve Poststroke Recovery via Immunological Mechanisms. In: Journal of Neuroscience, Bd. 40, Nr. 5: S. 1162-1173 [PDF, 2MB]

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Abstract

Recovery after stroke is a multicellular process encompassing neurons, resident immune cells, and brain-invading cells. Stroke alters the gut microbiome, which in turn has considerable impact on stroke outcome. However, the mechanisms underlying gut-brain interaction and implications for long-term recovery are largely elusive. Here, we tested the hypothesis that short-chain fatty acids (SCFAs), key bioactive microbial metabolites, are the missing link along the gut- brain axis and might be able to modulate recovery after experimental stroke. SCFA supplementation in the drinking water of male mice significantly improved recovery of affected limb motor function. Using in vivo wide-field calcium imaging, we observed that SCFAs induced altered contralesional cortex connectivity. This was associated with SCFA-dependent changes in spine and synapse densities. RNA sequencing of the forebrain cortex indicated a potential involvement of microglial cells in contributing to the structural and functional remodeling. Further analyses confirmed a substantial impact of SCFAs on microglial activation, which depended on the recruitment of T cells to the infarcted brain. Our findings identified that microbiota-derived SCFAs modulate poststroke recovery via effects on systemic and brain resident immune cells.

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