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. 2025 Jul;26(7):1087-1098.
doi: 10.1038/s41590-025-02174-y. Epub 2025 Jun 13.

Physiological microbial exposure normalizes memory T cell surveillance of the brain and modifies host seizure outcomes

Madison R Mix  1   2   3 Benjamin L Kreitlow  2   4   5   6 Roger R Berton  1   3 Julie Xu  7 Cori E Fain  1 Stephanie van de Wall  1 Lecia L Pewe  1 Lisa S Hancox  1 Mariah A Hassert  1 Shravan Kumar Kannan  1   3 Sahaana A Arumugam  1   2   3 Cassie M Sievers  1 Gordon F Buchanan  2   4   5   6 Thomas S Griffith  7   8   9   10 Vladimir P Badovinac  1   2   3   11 John T Harty  12   13   14   15
Affiliations

Physiological microbial exposure normalizes memory T cell surveillance of the brain and modifies host seizure outcomes

Madison R Mix et al. Nat Immunol. 2025 Jul.

Abstract

Recent studies have highlighted the presence of memory T cells in human brains, some of which are specific for peripheral infections. To address their potential origins, we used two models of polymicrobial exposure to 'normalize' the immune systems of specific pathogen-free mice and queried the impact on brain T cell biology. Here, we show that cohousing and sequential infection induce marked enhancement of memory T cells in the brain tissue of mice. These resident and circulating memory T cells localized to diverse brain regions where dynamic interactions with myeloid cells occurred. Following an induced seizure, brain-localized memory T cells were functionally altered in microbe-experienced mice. Microbial exposure also induced T cell-dependent changes in seizure duration. These data not only suggest a potential origin for memory T cells in human brains but also reveal the ability of these cells to modulate brain biology, prompting the future utilization of microbe-experienced mice in studies of neurological health and disease.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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