Profiling of microglia nodules in multiple sclerosis reveals propensity for lesion formation

Aletta M. R. van den Bosch; Marlijn van der Poel; Nina L. Fransen; Maria C. J. Vincenten; Anneleen M. Bobeldijk; Aldo Jongejan; Hendrik J. Engelenburg; Perry D. Moerland; Joost Smolders; Inge Huitinga; Jörg Hamann

doi:10.1038/s41467-024-46068-3

Nature Communications (Feb 2024)

Profiling of microglia nodules in multiple sclerosis reveals propensity for lesion formation

Aletta M. R. van den Bosch,
Marlijn van der Poel,
Nina L. Fransen,
Maria C. J. Vincenten,
Anneleen M. Bobeldijk,
Aldo Jongejan,
Hendrik J. Engelenburg,
Perry D. Moerland,
Joost Smolders,
Inge Huitinga,
Jörg Hamann

Affiliations

Aletta M. R. van den Bosch: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Marlijn van der Poel: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Nina L. Fransen: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Maria C. J. Vincenten: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Anneleen M. Bobeldijk: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Aldo Jongejan: Department of Epidemiology and Data Science, Amsterdam Public Health Research Institute, Amsterdam University Medical Center
Hendrik J. Engelenburg: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Perry D. Moerland: Department of Epidemiology and Data Science, Amsterdam Public Health Research Institute, Amsterdam University Medical Center
Joost Smolders: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Inge Huitinga: Neuroimmunology Research Group, Netherlands Institute for Neuroscience
Jörg Hamann: Neuroimmunology Research Group, Netherlands Institute for Neuroscience

DOI: https://doi.org/10.1038/s41467-024-46068-3
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Microglia nodules (HLA-DR+ cell clusters) are associated with brain pathology. In this post-mortem study, we investigated whether they represent the first stage of multiple sclerosis (MS) lesion formation. We show that microglia nodules are associated with more severe MS pathology. Compared to microglia nodules in stroke, those in MS show enhanced expression of genes previously found upregulated in MS lesions. Furthermore, genes associated with lipid metabolism, presence of T and B cells, production of immunoglobulins and cytokines, activation of the complement cascade, and metabolic stress are upregulated in microglia nodules in MS. Compared to stroke, they more frequently phagocytose oxidized phospholipids and possess a more tubular mitochondrial network. Strikingly, in MS, some microglia nodules encapsulate partially demyelinated axons. Taken together, we propose that activation of microglia nodules in MS by cytokines and immunoglobulins, together with phagocytosis of oxidized phospholipids, may lead to a microglia phenotype prone to MS lesion formation.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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