IL-17A and IL-17F do not contribute vitally to autoimmune neuro-inflammation in mice
Stefan Haak, … , Burkhard Becher, Ari Waisman
Stefan Haak, … , Burkhard Becher, Ari Waisman
Published December 15, 2008
Citation Information: J Clin Invest. 2009;119(1):61-69. https://doi.org/10.1172/JCI35997.
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IL-17A and IL-17F do not contribute vitally to autoimmune neuro-inflammation in mice

Abstract

The clear association of Th17 cells with autoimmune pathogenicity implicates Th17 cytokines as critical mediators of chronic autoimmune diseases such as EAE. To study the impact of IL-17A on CNS inflammation, we generated transgenic mice in which high levels of expression of IL-17A could be initiated after Cre-mediated recombination. Although ubiquitous overexpression of IL-17A led to skin inflammation and granulocytosis, T cell–specific IL-17A overexpression did not have a perceptible impact on the development and health of the mice. In the context of EAE, neither the T cell–driven overexpression of IL-17A nor its complete loss had a major impact on the development of clinical disease. Since IL-17F may be able to compensate for the loss of IL-17A, we also generated IL-17F–deficient mice. This strain was fully susceptible to EAE and displayed unaltered emergence and expansion of autoreactive T cells during disease. To eliminate potential compensatory effects of either cytokine, we treated IL-17F–deficient mice with antagonistic monoclonal antibodies specific for IL-17A and found again only a minimal beneficial impact on disease development. We conclude therefore that both IL-17A and IL-17F, while prominently expressed by an encephalitogenic T cell population, may only marginally contribute to the development of autoimmune CNS disease.

Authors

Stefan Haak, Andrew L. Croxford, Katharina Kreymborg, Frank L. Heppner, Sandrine Pouly, Burkhard Becher, Ari Waisman

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Figure 4

IL-17F is not required for the development of EAE.

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IL-17F is not required for the development of EAE. (A) EAE was induced i...
(A) EAE was induced in Il17f–/–, Il17f–/+, and Il17f+/+ mice by immunization with MOG35–55/CFA. The graph shows the development of EAE according to clinical scores in 1 out of 5 independent experiments. Error bars represent mean ± SEM. (B) Spinal cord cross sections, in accordance with clinical EAE scores, displayed similar inflammatory lesions (H&E staining; arrows). Inflammation caused an impairment of myelinated structures (staining for CNPase) and induced a reactive astrogliosis (staining for glial fibrillary acidic protein [GFAP]). All stainings were performed on serial sections. Scale bars: 500 μm (first column); 50 μm (second, third, and fourth columns). Rectangle in first column represents the area shown in second, third, and fourth columns. (C) Detailed analysis of infiltrating lymphocytes into cerebellum and spinal cord was performed by cytofluorometric analysis of surface marker staining. CD45high cells represent the CNS-invading leukocytes, which were gated on for detailed analysis. Error bars represent mean ± SEM.