Journal of Neuroinflammation (Nov 2021)

Interleukin-10 improves stroke outcome by controlling the detrimental Interleukin-17A response

  • Marius Piepke,
  • Bettina H. Clausen,
  • Peter Ludewig,
  • Jonas H. Vienhues,
  • Tanja Bedke,
  • Ehsan Javidi,
  • Björn Rissiek,
  • Larissa Jank,
  • Leonie Brockmann,
  • Inga Sandrock,
  • Karoline Degenhardt,
  • Alina Jander,
  • Vanessa Roth,
  • Ines S. Schädlich,
  • Immo Prinz,
  • Richard A. Flavell,
  • Yasushi Kobayashi,
  • Thomas Renné,
  • Christian Gerloff,
  • Samuel Huber,
  • Tim Magnus,
  • Mathias Gelderblom

DOI
https://doi.org/10.1186/s12974-021-02316-7
Journal volume & issue
Vol. 18, no. 1
pp. 1 – 16

Abstract

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Abstract Background Lymphocytes have dichotomous functions in ischemic stroke. Regulatory T cells are protective, while IL-17A from innate lymphocytes promotes the infarct growth. With recent advances of T cell-subtype specific transgenic mouse models it now has become possible to study the complex interplay of T cell subpopulations in ischemic stroke. Methods In a murine model of experimental stroke we analyzed the effects of IL-10 on the functional outcome for up to 14 days post-ischemia and defined the source of IL-10 in ischemic brains based on immunohistochemistry, flow cytometry, and bone-marrow chimeric mice. We used neutralizing IL-17A antibodies, intrathecal IL-10 injections, and transgenic mouse models which harbor a deletion of the IL-10R on distinct T cell subpopulations to further explore the interplay between IL-10 and IL-17A pathways in the ischemic brain. Results We demonstrate that IL-10 deficient mice exhibit significantly increased infarct sizes on days 3 and 7 and enlarged brain atrophy and impaired neurological outcome on day 14 following tMCAO. In ischemic brains IL-10 producing immune cells included regulatory T cells, macrophages, and microglia. Neutralization of IL-17A following stroke reversed the worse outcome in IL-10 deficient mice and intracerebral treatment with recombinant IL-10 revealed that IL-10 controlled IL-17A positive lymphocytes in ischemic brains. Importantly, IL-10 acted differentially on αβ and γδ T cells. IL-17A producing CD4+ αβ T cells were directly controlled via their IL-10-receptor (IL-10R), whereas IL-10 by itself had no direct effect on the IL-17A production in γδ T cells. The control of the IL-17A production in γδ T cells depended on an intact IL10R signaling in regulatory T cells (Tregs). Conclusions Taken together, our data indicate a key function of IL-10 in restricting the detrimental IL-17A-signaling in stroke and further supports that IL-17A is a therapeutic opportunity for stroke treatment.

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