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. 2025 Aug 21;188(17):4567-4585.e32.
doi: 10.1016/j.cell.2025.05.029. Epub 2025 Jun 17.

The immunoproteasome disturbs neuronal metabolism and drives neurodegeneration in multiple sclerosis

Marcel S Woo  1 Johannes Brand  2 Lukas C Bal  1 Manuela Moritz  3 Mark Walkenhorst  1 Vanessa Vieira  1 Inbal Ipenberg  1 Nicola Rothammer  1 Man Wang  2 Batuhan Dogan  2 Desirée Loreth  2 Christina Mayer  1 Darwin Nagel  1 Ingrid Wagner  4 Lena Kristina Pfeffer  1 Peter Landgraf  5 Marco van Ham  6 Kuno M-J Mattern  1 Ingo Winschel  1 Noah Frantz  7 Jana K Sonner  1 Henrike K Grosshans  1 Albert Miguela  8 Simone Bauer  1 Nina Meurs  1 Anke Müller  5 Lars Binkle-Ladisch  1 Gabriela Salinas  9 Lothar Jänsch  6 Daniela C Dieterich  5 Maria Riedner  10 Elke Krüger  11 Frank L Heppner  12 Markus Glatzel  13 Victor G Puelles  14 Jan Broder Engler  1 Jens Randel Nyengaard  15 Thomas Misgeld  16 Martin Kerschensteiner  17 Doron Merkler  4 Catherine Meyer-Schwesinger  2 Manuel A Friese  18
Affiliations
Free article

The immunoproteasome disturbs neuronal metabolism and drives neurodegeneration in multiple sclerosis

Marcel S Woo et al. Cell. .
Free article

Erratum in

  • The immunoproteasome disturbs neuronal metabolism and drives neurodegeneration in multiple sclerosis.
    Woo MS, Brand J, Bal LC, Moritz M, Walkenhorst M, Vieira V, Ipenberg I, Rothammer N, Wang M, Dogan B, Loreth D, Mayer C, Nagel D, Wagner I, Pfeffer LK, Landgraf P, van Ham M, Mattern KM, Winschel I, Frantz N, Sonner JK, Grosshans HK, Miguela A, Bauer S, Meurs N, Müller A, Binkle-Ladisch L, Salinas G, Jänsch L, Dieterich DC, Riedner M, Krüger E, Heppner FL, Glatzel M, Puelles VG, Engler JB, Nyengaard JR, Misgeld T, Kerschensteiner M, Merkler D, Meyer-Schwesinger C, Friese MA. Woo MS, et al. Cell. 2025 Oct 16;188(21):6097-6103. doi: 10.1016/j.cell.2025.09.019. Epub 2025 Sep 30. Cell. 2025. PMID: 41033312 No abstract available.

Abstract

Inflammation, aberrant proteostasis, and energy depletion are hallmarks of neurodegenerative diseases such as multiple sclerosis (MS). However, the interplay between inflammation, proteasomal dysfunction in neurons, and its consequences for neuronal integrity remains unclear. Using transcriptional, proteomic, and functional analyses of proteasomal subunits in inflamed neurons, we found that interferon-γ-mediated induction of the immunoproteasome subunit, proteasome 20S beta 8 (PSMB8) impairs the proteasomal balance, resulting in reduced proteasome activity. This reduction causes the accumulation of phosphofructo-2-kinase/fructose-2,6-bisphosphatase 3 (PFKFB3), a key metabolic regulator, leading to enhanced neuronal glycolysis, reduced pentose phosphate pathway activity, oxidative injury, and ferroptosis. Neuron-specific genetic and systemic pharmacological targeting of PSMB8 or PFKFB3 protected neurons in vitro and in a mouse model of MS. Our findings provide a unifying explanation for proteasomal dysfunction in MS and possibly other neurodegenerative diseases, linking inflammation to metabolic disruption, and presenting an opportunity for targeted neuroprotective therapies.

Keywords: excitotoxicity; ferroptosis; glycolysis; immunoproteasome; interferon-γ; metabolism; multiple sclerosis; neurodegeneration; neuroinflammation.

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Declaration of interests The authors declare no competing interests.

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