Author
Listed:
- Daphne Kolland
(Technical University and Helmholtz Center)
- Miriam Kuhlmann
(Technical University of Munich)
- Gustavo P. Almeida
(Technical University of Munich
Technical University of Munich)
- Amelie Köhler
(Technical University and Helmholtz Center)
- Anela Arifovic
(Technical University and Helmholtz Center)
- Alexandra Strempel
(LMU)
- Mohsen Pourjam
(Technical University of Munich)
- Silvia Bolsega
(Hannover Medical School)
- Christine Wurmser
(Technical University of Munich
Technical University of Munich)
- Katja Steiger
(Technical University Munich)
- Marijana Basic
(Hannover Medical School)
- Klaus Neuhaus
(Technical University of Munich)
- Carsten B. Schmidt-Weber
(Technical University and Helmholtz Center
Partner Site Munich)
- Bärbel Stecher
(LMU
partner site LMU)
- Dietmar Zehn
(Technical University of Munich
Technical University of Munich)
- Caspar Ohnmacht
(Technical University and Helmholtz Center)
Abstract
Anti-viral immunity can vary tremendously from individual to individual but mechanistic understanding is still scarce. Here, we show that a defined, low complex bacterial community (OMM12) but not the general absence of microbes in germ-free mice leads to a more potent immune response compared to the microbiome of specific-pathogen-free (SPF) mice after a systemic viral infection with LCMV Clone-13. Consequently, gnotobiotic mice colonized with OMM12 have more severe LCMV-induced disease pathology but also enhance viral clearance in the intestinal tract. Mechanistically, single-cell RNA sequencing analysis of adoptively transferred virus-specific T helper cells and endogenous T helper cells in the intestinal tract reveal a stronger pro-inflammatory Th1 profile and a more vigorous expansion in OMM12 than SPF mice. Altogether, our work highlights the causative function of the intestinal microbiome for shaping adaptive anti-viral immunity with implications for vaccination strategies and anti-cancer treatment regimens.
Suggested Citation
Daphne Kolland & Miriam Kuhlmann & Gustavo P. Almeida & Amelie Köhler & Anela Arifovic & Alexandra Strempel & Mohsen Pourjam & Silvia Bolsega & Christine Wurmser & Katja Steiger & Marijana Basic & Kla, 2025.
"A specific microbial consortium enhances Th1 immunity, improves LCMV viral clearance but aggravates LCMV disease pathology in mice,"
Nature Communications, Nature, vol. 16(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59073-x
DOI: 10.1038/s41467-025-59073-x
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