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Astrocyte-specific expression of interleukin 23 leads to an aggravated phenotype and enhanced inflammatory response with B cell accumulation in the EAE model

Authors
  • Nitsch, Louisa1
  • Petzinna, Simon1
  • Zimmermann, Julian1
  • Schneider, Linda1, 1
  • Krauthausen, Marius1
  • Heneka, Michael T.1
  • Getts, Daniel R.2
  • Becker, Albert1
  • Müller, Marcus1, 3
  • 1 University Clinic Bonn, Campus Venusberg 1, Bonn, D-53127, Germany , Bonn (Germany)
  • 2 Northwestern University Feinberg School of Medicine, Chicago, USA , Chicago (United States)
  • 3 University of Sydney, Sydney, Australia , Sydney (Australia)
Type
Published Article
Journal
Journal of Neuroinflammation
Publisher
Springer (Biomed Central Ltd.)
Publication Date
Apr 27, 2021
Volume
18
Issue
1
Identifiers
DOI: 10.1186/s12974-021-02140-z
Source
Springer Nature
Keywords
License
Green

Abstract

BackgroundInterleukin 23 is a critical cytokine in the pathogenesis of multiple sclerosis. But the local impact of interleukin 23 on the course of neuroinflammation is still not well defined. To further characterize the effect of interleukin 23 on CNS inflammation, we recently described a transgenic mouse model with astrocyte-specific expression of interleukin 23 (GF-IL23 mice). The GF-IL23 mice spontaneously develop a progressive ataxic phenotype with cerebellar tissue destruction and inflammatory infiltrates with high amounts of B cells most prominent in the subarachnoid and perivascular space.MethodsTo further elucidate the local impact of the CNS-specific interleukin 23 synthesis in autoimmune neuroinflammation, we induced a MOG35-55 experimental autoimmune encephalomyelitis (EAE) in GF-IL23 mice and WT mice and analyzed the mice by histology, flow cytometry, and transcriptome analysis.ResultsWe were able to demonstrate that local interleukin 23 production in the CNS leads to aggravation and chronification of the EAE course with a severe paraparesis and an ataxic phenotype. Moreover, enhanced multilocular neuroinflammation was present not only in the spinal cord, but also in the forebrain, brainstem, and predominantly in the cerebellum accompanied by persisting demyelination. Thereby, interleukin 23 creates a pronounced proinflammatory response with accumulation of leukocytes, in particular B cells, CD4+ cells, but also γδ T cells and activated microglia/macrophages. Furthermore, transcriptome analysis revealed an enhanced proinflammatory cytokine milieu with upregulation of lymphocyte activation markers, co-stimulatory markers, chemokines, and components of the complement system.ConclusionTaken together, the GF-IL23 model allowed a further breakdown of the different mechanisms how IL-23 drives neuroinflammation in the EAE model and proved to be a useful tool to further dissect the impact of interleukin 23 on neuroinflammatory models.

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