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  • Title: Bruton's tyrosine kinase inhibition reduces disease severity in a model of secondary progressive autoimmune demyelination.
    Author: Evonuk KS, Wang S, Mattie J, Cracchiolo CJ, Mager R, Ferenčić Ž, Sprague E, Carrier B, Schofield K, Martinez E, Stewart Z, Petrosino T, Johnson GA, Yusuf I, Plaisted W, Naiman Z, Delp T, Carter L, Marušić S.
    Journal: Acta Neuropathol Commun; 2023 Jul 12; 11(1):115. PubMed ID: 37438842.
    Abstract:
    Bruton's tyrosine kinase (BTK) is an emerging target in multiple sclerosis (MS). Alongside its role in B cell receptor signaling and B cell development, BTK regulates myeloid cell activation and inflammatory responses. Here we demonstrate efficacy of BTK inhibition in a model of secondary progressive autoimmune demyelination in Biozzi mice with experimental autoimmune encephalomyelitis (EAE). We show that late in the course of disease, EAE severity could not be reduced with a potent relapse inhibitor, FTY720 (fingolimod), indicating that disease was relapse-independent. During this same phase of disease, treatment with a BTK inhibitor reduced both EAE severity and demyelination compared to vehicle treatment. Compared to vehicle treatment, late therapeutic BTK inhibition resulted in fewer spinal cord-infiltrating myeloid cells, with lower expression of CD86, pro-IL-1β, CD206, and Iba1, and higher expression of Arg1, in both tissue-resident and infiltrating myeloid cells, suggesting a less inflammatory myeloid cell milieu. These changes were accompanied by decreased spinal cord axonal damage. We show similar efficacy with two small molecule inhibitors, including a novel, highly selective, central nervous system-penetrant BTK inhibitor, GB7208. These results suggest that through lymphoid and myeloid cell regulation, BTK inhibition reduced neurodegeneration and disease progression during secondary progressive EAE.
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