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. 2025 Dec 23;122(51):e2424988122.
doi: 10.1073/pnas.2424988122. Epub 2025 Dec 17.

Turncoat antibodies unmasked in a model of autoimmune demyelination: From biology to therapy

Reza Taghipour-Mirakmahaleh #  1 Françoise Morin #  1 Yu Zhang  1 Louis Bourhoven  1 Louis-Charles Béland  1 Qun Zhou  2 Julie Jaworski  2 Anna Park  2 Juan Manuel Dominguez  3 Jacques Corbeil  3 Eoin P Flanagan  4   5   6 Romain Marignier  7 Catherine Larochelle  8 Steven M Kerfoot  9 Luc Vallières  1
Affiliations

Turncoat antibodies unmasked in a model of autoimmune demyelination: From biology to therapy

Reza Taghipour-Mirakmahaleh et al. Proc Natl Acad Sci U S A. .

Abstract

Autoantibodies contribute to many autoimmune diseases, yet there is no approved therapy to neutralize them selectively. A popular mouse model, experimental autoimmune encephalomyelitis (EAE), could serve to develop such a therapy, provided we can better understand the nature and importance of the autoantibodies involved. Here, we report the finding of autoantibody-secreting extrafollicular plasmablasts in EAE induced with specific myelin oligodendrocyte glycoprotein (MOG) antigens. Single-cell RNA sequencing reveals that these cells produce nonaffinity-matured IgG antibodies. These include pathogenic antibodies competing for shared binding space on MOG's extracellular domain. Interestingly, the synthetic anti-MOG antibody 8-18C5 can prevent the binding of pathogenic antibodies from either EAE mice or people with MOG antibody disease. Moreover, an 8-18C5 variant carrying the NNAS mutation, which inactivates its effector functions, can reduce EAE severity and promote functional recovery. In brief, this study provides not only a comprehensive characterization of the humoral response in EAE models but also a proof of concept for a therapy to antagonize pathogenic anti-MOG antibodies.

Keywords: MOG antibody disease; antibody-secreting cells; autoantibody; demyelinating autoimmune disease; experimental autoimmune disease.

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Conflict of interest statement

Competing interests statement:Q.Z., J.J., and A.P. are employees of Sanofi and may own stock/stock options in the company.

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