Host interleukin 6 production regulates inflammation but not tryptophan metabolism in the brain during murine GVHD
Ludovic Belle, Vivian Zhou, Kara L. Stuhr, Margaret Beatka, Emily M. Siebers, Jennifer M. Knight, Michael W. Lawlor, Casey Weaver, Misato Hashizume, Cecilia J. Hillard, William R. Drobyski
Ludovic Belle, Vivian Zhou, Kara L. Stuhr, Margaret Beatka, Emily M. Siebers, Jennifer M. Knight, Michael W. Lawlor, Casey Weaver, Misato Hashizume, Cecilia J. Hillard, William R. Drobyski
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Research Article Immunology

Host interleukin 6 production regulates inflammation but not tryptophan metabolism in the brain during murine GVHD

Abstract

Graft-versus-host disease (GVHD) induces pathological damage in peripheral target organs leading to well-characterized, organ-specific clinical manifestations. Patients with GVHD, however, can also have behavioral alterations that affect overall cognitive function, but the extent to which GVHD alters inflammatory and biochemical pathways in the brain remain poorly understood. In the current study, we employed complementary murine GVHD models to demonstrate that alloreactive donor T cells accumulate in the brain and affect a proinflammatory cytokine milieu that is associated with specific behavioral abnormalities. Host IL-6 was identified as a pivotal cytokine mediator, as was host indoleamine 2,3-dioxygenase (IDO-1), which was upregulated in GVHD in an IL-6–dependent manner in microglial cells and was accompanied by dysregulated tryptophan metabolism in the dorsal raphe nucleus and prefrontal cortex. Blockade of the IL-6 signaling pathway significantly reduced donor T cell accumulation, inflammatory cytokine gene expression, and host microglial cell expansion, but did not reverse GVHD-induced tryptophan metabolite dysregulation. Thus, these results indicate that inhibition of IL-6 signaling attenuates neuroinflammation, but does not reverse all of the metabolic abnormalities in the brain during GVHD, which may also have implications for the treatment of neurotoxicity occurring after other T cell–based immune therapies with IL-6–directed approaches.

Authors

Ludovic Belle, Vivian Zhou, Kara L. Stuhr, Margaret Beatka, Emily M. Siebers, Jennifer M. Knight, Michael W. Lawlor, Casey Weaver, Misato Hashizume, Cecilia J. Hillard, William R. Drobyski

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Figure 4

Donor IL-6 production is not required for neuroinflammation during graft-versus-host disease.

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Donor IL-6 production is not required for neuroinflammation during graft...
(A) BALB/c mice were transplanted with B6 Foxp3EGFP bone marrow (BM) alone (●, n = 6), B6 Foxp3EGFP BM plus B6 Foxp3EGFP spleen cells (■, n = 10), or IL-6–/– Foxp3EGFP BM and IL-6–/– Foxp3EGFP spleen cells (▲, n = 10). The absolute number of donor-derived TCRβ+, CD4+, and CD8+ T cells in the brain 14 days after transplantation is depicted. (B) BALB/c mice were transplanted with B6 BM alone (●, n = 6), BM and spleen cells from Foxp3EGFP mice (■, n = 9), or B6 BM and spleen cells from IL-6–/– Foxp3EGFP animals (▲, n = 9-10). The frequency and absolute number of CD4+ and CD8+ Foxp3+ T cells is shown. (C) IFN-γ, IL-10, and TNF-α mRNA expression in the brains of BALB/c mice transplanted with B6 BM alone (●, n = 6), B6 Foxp3EGFP BM and spleen cells (■, n = 9), or IL-6–/– Foxp3EGFP BM and spleen cells (▲, n = 9) 14 days after transplantation. Statistically significant differences were calculated using the 2-tailed Mann-Whitney U test and the 2-way ANOVA followed by Student’s t test.