Graft-versus-host disease of the CNS is mediated by TNF upregulation in microglia
Nimitha R. Mathew, … , Marco Prinz, Robert Zeiser
Nimitha R. Mathew, … , Marco Prinz, Robert Zeiser
Published December 17, 2019
Citation Information: J Clin Invest. 2020;130(3):1315-1329. https://doi.org/10.1172/JCI130272.
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Graft-versus-host disease of the CNS is mediated by TNF upregulation in microglia

Abstract

Acute graft-versus-host disease (GVHD) can affect the central nervous system (CNS). The role of microglia in CNS-GVHD remains undefined. In agreement with microglia activation, we found that profound morphological changes and MHC-II and CD80 upregulation occurred upon GVHD induction. RNA sequencing–based analysis of purified microglia obtained from mice with CNS-GVHD revealed TNF upregulation. Selective TNF gene deletion in microglia of Cx3cr1creER Tnffl/– mice reduced MHC-II expression and decreased CNS T cell infiltrates and VCAM-1+ endothelial cells. GVHD increased microglia TGF-β–activated kinase-1 (TAK1) activation and NF-κB/p38 MAPK signaling. Selective Tak1 deletion in microglia using Cx3cr1creER Tak1fl/fl mice resulted in reduced TNF production and microglial MHC-II and improved neurocognitive activity. Pharmacological TAK1 inhibition reduced TNF production and MHC-II expression by microglia, Th1 and Th17 T cell infiltrates, and VCAM-1+ endothelial cells and improved neurocognitive activity, without blocking graft-versus-leukemia effects. Consistent with these findings in mice, we observed increased activation and TNF production of microglia in the CNS of GVHD patients. In summary, we prove a role for microglia in CNS-GVHD, identify the TAK1/TNF/MHC-II axis as a mediator of CNS-GVHD, and provide a TAK1 inhibitor–based approach against GVHD-induced neurotoxicity.

Authors

Nimitha R. Mathew, Janaki M. Vinnakota, Petya Apostolova, Daniel Erny, Shaimaa Hamarsheh, Geoffroy Andrieux, Jung-Seok Kim, Kathrin Hanke, Tobias Goldmann, Louise Chappell-Maor, Nadia El-Khawanky, Gabriele Ihorst, Dominik Schmidt, Justus Duyster, Jürgen Finke, Thomas Blank, Melanie Boerries, Bruce R. Blazar, Steffen Jung, Marco Prinz, Robert Zeiser

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Figure 1

Microglia display activated morphology and T cells infiltrate the CNS during GVHD.

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Microglia display activated morphology and T cells infiltrate the CNS du...
(AD) Histology of brain samples immunostained for CD3+ T cells (brown) from untreated BALB/c mice (n = 10) or BALB/c mice on day 14 after syn-HCT (n = 9) or after allo-HCT (n = 11) as indicated. (A and C) A representative image from each group is shown. Scale bars: 50 μm. (B and D) The scatter plots show the number of CD3+ T cells (per mm2) in cerebral meninges and cortex. The experiment was repeated 2 times, and the results (mean ± SEM) were pooled. P values were calculated using 1-way ANOVA. (E and F) Flow cytometry for CD45hi cells among CD11b+ cells in the CNS of untreated BALB/c mice (n = 10) or BALB/c mice on day 14 after syn-HCT (n = 10) or after allo-HCT (n = 11) as indicated. (E) A representative flow cytometry plot from each group is shown. (F) The scatter plot shows the quantification of CD45hi cells among CD11b+ cells from different groups as indicated. The experiment was repeated 3 times, and results (mean ± SEM) were pooled. P values were calculated using 1-way ANOVA. (G) Representative images showing Imaris-based (Bitplane) 3D reconstruction of Iba-1+ microglia cells from untreated BALB/c mice or BALB/c mice on day 14 after syn-HCT or allo-HCT as indicated. Scale bar: 10 μm. (HK) Scatter plots showing Imaris-based automated quantification of microglial morphology from microglia cells of untreated BALB/c mice (n = 6) or BALB/c mice on day 14 after syn-HCT (n = 6) or allo-HCT (n = 6) as indicated. The experiment was repeated 2 times, and results (mean ± SEM) were pooled. P values were calculated using 1-way ANOVA.