The NF-κB regulator MALT1 determines the encephalitogenic potential of Th17 cells
Anne Brüstle, … , Pamela S. Ohashi, Tak W. Mak
Anne Brüstle, … , Pamela S. Ohashi, Tak W. Mak
Published November 1, 2012
Citation Information: J Clin Invest. 2012;122(12):4698-4709. https://doi.org/10.1172/JCI63528.
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Research Article Immunology

The NF-κB regulator MALT1 determines the encephalitogenic potential of Th17 cells

Abstract

Effector functions of inflammatory IL-17–producing Th (Th17) cells have been linked to autoimmune diseases such as experimental autoimmune encephalomyelitis (EAE), a mouse model of multiple sclerosis (MS). However, what determines Th17 cell encephalitogenicity is still unresolved. Here, we show that after EAE induction, mice deficient for the NF-κB regulator MALT1 (Malt1–/– mice) exhibit strong lymphocytic infiltration in the CNS, but do not develop any clinical signs of EAE. Loss of Malt1 interfered with expression of the Th17 effector cytokines IL-17 and GM-CSF both in vitro and in vivo. In line with their impaired GM-CSF secretion, Malt1–/– Th cells failed to recruit myeloid cells to the CNS to sustain neuroinflammation, whereas autoreactive WT Th cells successfully induced EAE in Malt1–/– hosts. In contrast, Malt1 deficiency did not affect Th1 cells. Despite their significantly decreased secretion of Th17 effector cytokines, Malt1–/– Th17 cells showed normal expression of lineage-specific transcription factors. Malt1–/– Th cells failed to cleave RelB, a suppressor of canonical NF-κB, and exhibited altered cellular localization of this protein. Our results indicate that MALT1 is a central, cell-intrinsic factor that determines the encephalitogenic potential of inflammatory Th17 cells in vivo.

Authors

Anne Brüstle, Dirk Brenner, Christiane B. Knobbe, Philipp A. Lang, Carl Virtanen, Brian M. Hershenfield, Colin Reardon, Sonja M. Lacher, Jürgen Ruland, Pamela S. Ohashi, Tak W. Mak

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Figure 3

Malt1–/– Th cells do not produce GM-CSF in vitro or recruit macrophages.

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Malt1–/– Th cells do not produce GM-CSF in vitro or recruit macrophages...
(A) Left: CNS-infiltrating CD4+ T cells from brains of Malt1–/– and WT mice were isolated by gradient centrifugation on day 20 after EAE induction and quantitated. Middle: Expression levels of IL-17A and GM-CSF were analyzed by intracellular staining and flow cytometry. Data shown are gated on live CD4+ T cells. Right: Quantitation of percent of CNS-infiltrating CD4+ T cells producing IL-17A or GM-CSF. Data are mean ± SEM (n = 4). (B) Representative histopathological analyses of brain cross-sections from mice in Figure 1A at 30 days after MOG injection. Brain sections were stained with H&E or to detect Mac3 (macrophages) or GFAP (reactive astrocytes; white arrows). Scale bars: 100 μm. Data are from 1 mouse per group and are representative of 2 independent experiments.