Intranasal delivery of a small-molecule ErbB inhibitor promotes recovery from acute and late-stage CNS inflammation
Mathias Linnerbauer, … , Francisco J. Quintana, Veit Rothhammer
Mathias Linnerbauer, … , Francisco J. Quintana, Veit Rothhammer
Published April 8, 2022
Citation Information: JCI Insight. 2022;7(7):e154824. https://doi.org/10.1172/jci.insight.154824.
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Research Article Neuroscience

Intranasal delivery of a small-molecule ErbB inhibitor promotes recovery from acute and late-stage CNS inflammation

Abstract

Multiple sclerosis (MS) is an autoimmune inflammatory disease of the CNS that is characterized by demyelination and axonal degeneration. Although several established treatments reduce relapse burden, effective treatments to halt chronic progression are scarce. Single-cell transcriptomic studies in MS and its animal models have described astrocytes and their spatial and functional heterogeneity as important cellular determinants of chronic disease. We combined CNS single-cell transcriptome data and small-molecule screens in primary mouse and human astrocytes to identify glial interactions, which could be targeted by repurposing FDA-approved small-molecule modulators for the treatment of acute and late-stage CNS inflammation. Using hierarchical in vitro and in vivo validation studies, we demonstrate that among selected pathways, blockade of ErbB by the tyrosine kinase inhibitor afatinib efficiently mitigates proinflammatory astrocyte polarization and promotes tissue-regenerative functions. We found that i.n. delivery of afatinib during acute and late-stage CNS inflammation ameliorates disease severity by reducing monocyte infiltration and axonal degeneration while increasing oligodendrocyte proliferation. We used unbiased screening approaches of astrocyte interactions to identify ErbB signaling and its modulation by afatinib as a potential therapeutic strategy for acute and chronic stages of autoimmune CNS inflammation.

Authors

Mathias Linnerbauer, Lena Lößlein, Oliver Vandrey, Thanos Tsaktanis, Alexander Beer, Ulrike J. Naumann, Franziska Panier, Tobias Beyer, Lucy Nirschl, Joji B. Kuramatsu, Jürgen Winkler, Francisco J. Quintana, Veit Rothhammer

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Figure 5

Therapeutic potential of i.n. afatinib and pemigatinib application in acute EAE.

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Therapeutic potential of i.n. afatinib and pemigatinib application in ac...
(A and B) Clinical course (left) and linear regression analysis (right) of EAE in mice after daily i.n. treatment with vehicle, afatinib (A), or pemigatinib (B) starting from symptom onset. The experiment was repeated twice. Vehicle (PBS), n = 10; afatinib, n = 10; pemigatinib, n = 10. Data are reported as mean ± SEM. (C) Unsupervised clustering t-distributed stochastic neighbor embedding (t-SNE) plot overlaid with cluster and their abundance (D) identified by unsupervised PhenoGraph clustering of high-dimensional flow cytometry data obtained from CNS (brain and spinal cord) tissue at peak of disease from mice treated with afatinib (n = 5) or vehicle (n = 5). (E and F) Quantification (E) and scatter plots (F) of CD45CD11b, CD45intCD11b+, CD45hiCD11b+, and CD45+CD11b cell populations in the CNS of mice treated with afatinib (n = 5) or vehicle (n = 5) at peak of disease. Two-way ANOVA with Šidák’s multiple comparisons test. (G) Significant differences in CNS-resident and -infiltrating cell populations in mice treated with afatinib (n = 5) or vehicle (n = 5) at peak of disease, identified by SAM analysis (29) (FDR cutoff, 0.1). (H and I) Intracellular flow cytometry quantification of iNOS, TNF-α, and GM-CSF in astrocytes (H) and microglia (I) in mice treated with afatinib (n = 5) or vehicle (n = 5) at peak of disease. (J) Relative expression of Ccl2, Ccl3, CCl5, and Cxcl10 in ACSA2+-sorted astrocytes after i.n. treatment with afatinib (n = 5) or vehicle (n = 5). Unpaired t test with Welch’s correction. Data are reported as mean ± SD. *P < 0.05; **P < 0.01.