Annals of Clinical and Translational Neurology (Apr 2024)

Micro‐diffusely abnormal white matter: An early multiple sclerosis lesion phase with intensified myelin blistering

  • Antonio Luchicchi,
  • Gema Muñoz‐Gonzalez,
  • Saar T. Halperin,
  • Eva Strijbis,
  • Laura H. M. vanDijk,
  • Chrisa Foutiadou,
  • Florence Uriac,
  • Piet M. Bouman,
  • Maxime A. N. Schouten,
  • Jason Plemel,
  • Bert A. 't Hart,
  • Jeroen J. G. Geurts,
  • Geert J. Schenk

DOI
https://doi.org/10.1002/acn3.52015
Journal volume & issue
Vol. 11, no. 4
pp. 973 – 988

Abstract

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Abstract Objective Multiple sclerosis (MS) is a chronic central nervous system disease whose white matter lesion origin remains debated. Recently, we reported subtle changes in the MS normal appearing white matter (NAWM), presenting with an increase in myelin blisters and myelin protein citrullination, which may recapitulate some of the prodromal degenerative processes involved in MS pathogenesis. Here, to clarify the relevance of these changes for subsequent MS myelin degeneration we explored their prevalence in WM regions characterized by subtly reduced myelination (dubbed as micro‐diffusely abnormal white matter, mDAWM). Methods We used an in‐depth (immuno)histochemistry approach in 27 MS donors with histological presence of mDAWM and 5 controls. An antibody panel against degenerative markers was combined and the presence of myelin/axonal aberrations was analyzed and compared with the NAWM from the same cases/slices/regions. Results mDAWM‐defined areas exhibit ill‐defined borders, no signs of Wallerian degeneration, and they associate with visible veins. Remarkably, such areas present with augmented myelin blister frequency, enhanced prevalence of polar myelin phospholipids, citrullination, and degradation of myelin basic protein (MBP) when compared with the NAWM. Furthermore, enhanced reactivity of microglia/macrophages against citrullinated MBP was also observed in this tissue. Interpretation We report a new histologically defined early phase in MS lesion formation, namely mDAWM, which lacks signs of Wallerian pathology. These results support the prelesional nature of the mDAWM. We conceptualize that evolution to pathologically evident lesions comprises the previously documented imbalance of axo‐myelinic units (myelin blistering) leading to their degeneration and immune system activation by released myelin components.