TNFR2 limits proinflammatory astrocyte functions during EAE induced by pathogenic DR2b-restricted T cells
Itay Raphael, Francisco Gomez-Rivera, Rebecca A. Raphael, Rachel R. Robinson, Saisha Nalawade, Thomas G. Forsthuber
Itay Raphael, Francisco Gomez-Rivera, Rebecca A. Raphael, Rachel R. Robinson, Saisha Nalawade, Thomas G. Forsthuber
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Research Article Immunology

TNFR2 limits proinflammatory astrocyte functions during EAE induced by pathogenic DR2b-restricted T cells

Abstract

Multiple sclerosis (MS) is an autoimmune neuroinflammatory disease where the underlying mechanisms driving disease progression have remained unresolved. HLA-DR2b (DRB1*15:01) is the most common genetic risk factor for MS. Additionally, TNF and its receptors TNFR1 and TNFR2 play key roles in MS and its preclinical animal model, experimental autoimmune encephalomyelitis (EAE). TNFR2 is believed to ameliorate CNS pathology by promoting remyelination and Treg function. Here, we show that transgenic mice expressing the human MHC class II (MHC-II) allele HLA-DR2b and lacking mouse MHC-II and TNFR2 molecules, herein called DR2bΔR2, developed progressive EAE, while disease was not progressive in DR2b littermates. Mechanistically, expression of the HLA-DR2b favored Th17 cell development, whereas T cell–independent TNFR2 expression was critical for restraining of an astrogliosis-induced proinflammatory milieu and Th17 cell responses, while promoting remyelination. Our data suggest the TNFR2 signaling pathway as a potentially novel mechanism for curtailing astrogliosis and promoting remyelination, thus providing new insights into mechanisms limiting progressive MS.

Authors

Itay Raphael, Francisco Gomez-Rivera, Rebecca A. Raphael, Rachel R. Robinson, Saisha Nalawade, Thomas G. Forsthuber

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Figure 2

TNFR2 signaling modulates CD4+ T cell immunity and Treg cells in DR2b mice.

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TNFR2 signaling modulates CD4+ T cell immunity and Treg cells in DR2b mi...
(A) Percentage of CD4+ T cells in splenocytes from naive DR2b and DR2bΔR2 mice. Pooled data of 3 independent experiments, n = 10 mice per group. (B) Ki-67 and (C) Annexin V expression in CD4+ T cells from spleen of naive DR2b and DR2bΔR2 mice. Representative results from 3 (B) and 4 (C) independent experiments with n = 3–5 per group. (D–F) Frequencies of MOG35-55–specific (D) IFN-γ–, (E) IL-17–, and (F) GM-CSF–producing T cells in spleens of DR2b and DR2b DR2bΔR2 mice immunized for EAE at day 10 (onset), day 15 (acute), and day 24 (progression) after immunization measured by cytokine ELISPOT assay. Representative results from 5 independent experiments, n = 10 mice per group. Expression of (G) Ki-67 and (H and I) Foxp3 by CD4+ T cells isolated from spleens at indicated time points during EAE. Representative results from 3 independent experiments, n = 4–5 mice per group. (J) Serum concentration of IL-10, IL-17, GM-CSF, and TNF during the progression phase of EAE in DR2b and DR2bΔR2 mice. Pooled data from 2 independent experiments with n = 9 for DR2b mice and n = 11 for DR2bΔR2 mice. Statistical significance was determined by Student’s 2-tailed t test with Holm-Šídák (D–F, G) or Welch’s (A–C and G–I) correction. NS, not significant; **P ≤ 0.01; and ***P ≤ 0.001. Shown are means. Error bars indicate SD.