Astrocytes are central in the pathomechanisms of vanishing white matter
Stephanie Dooves, … , Vivi M. Heine, Marjo S. van der Knaap
Stephanie Dooves, … , Vivi M. Heine, Marjo S. van der Knaap
Published March 14, 2016
Citation Information: J Clin Invest. 2016;126(4):1512-1524. https://doi.org/10.1172/JCI83908.
View: Text | PDF
Research Article Neuroscience Article has an altmetric score of 9

Astrocytes are central in the pathomechanisms of vanishing white matter

Abstract

Vanishing white matter (VWM) is a fatal leukodystrophy that is caused by mutations in genes encoding subunits of eukaryotic translation initiation factor 2B (eIF2B). Disease onset and severity are codetermined by genotype. White matter astrocytes and oligodendrocytes are almost exclusively affected; however, the mechanisms of VWM development remain unclear. Here, we used VWM mouse models, patients’ tissue, and cell cultures to investigate whether astrocytes or oligodendrocytes are the primary affected cell type. We generated 2 mouse models with mutations (Eif2b5Arg191His/Arg191His and Eif2b4Arg484Trp/Arg484Trp) that cause severe VWM in humans and then crossed these strains to develop mice with various mutation combinations. Phenotypic severity was highly variable and dependent on genotype, reproducing the clinical spectrum of human VWM. In all mutant strains, impaired maturation of white matter astrocytes preceded onset and paralleled disease severity and progression. Bergmann glia and retinal Müller cells, nonforebrain astrocytes that have not been associated with VWM, were also affected, and involvement of these cells was confirmed in VWM patients. In coculture, VWM astrocytes secreted factors that inhibited oligodendrocyte maturation, whereas WT astrocytes allowed normal maturation of VWM oligodendrocytes. These studies demonstrate that astrocytes are central in VWM pathomechanisms and constitute potential therapeutic targets. Importantly, astrocytes should also be considered in the pathophysiology of other white matter disorders.

Authors

Stephanie Dooves, Marianna Bugiani, Nienke L. Postma, Emiel Polder, Niels Land, Stephen T. Horan, Anne-Lieke F. van Deijk, Aleid van de Kreeke, Gerbren Jacobs, Caroline Vuong, Jan Klooster, Maarten Kamermans, Joke Wortel, Maarten Loos, Lisanne E. Wisse, Gert C. Scheper, Truus E.M. Abbink, Vivi M. Heine, Marjo S. van der Knaap

×

Figure 5

Astrocyte pathology outside the brain white matter.

Options: View larger image (or click on image) Download as PowerPoint
Astrocyte pathology outside the brain white matter. (A) In the cerebellu...
(A) In the cerebellum of 7-month-old 2b5ho and P21 2b42b5ho/ho mice, Bergmann glia overexpressed GFAPδ, with displacement of the cell bodies to the molecular layer and abnormal morphology with short, thick cell processes. (B and C) A similar Bergmann glial pathology was also present in VWM patients as shown in double stainings for GFAP and GFAPδ (B) and S100β (C). (D) Histology of WT retina showed linear organization of the retinal layers. a, ganglion cell; b, inner plexiform; c, inner nuclear; d, outer plexiform; e, outer nuclear; f, photoreceptor. VWM mutant retinae showed increasing laminar disorganization, with ectopic neurons in the plexiform layers and severe displacement of outer nuclear cells in the P21 2b4ho2b5ho animals (bottom). (E) Staining against GFAP showed decreased immunoreactivity in the outer plexiform layer of retinae from 2b5ho mice, whereas the P21 2b4ho2b5ho mouse retinae contained Müller cells with coarse processes spanning across the outer nuclear and photoreceptor layer. (F) Staining against glutamine synthetase (GS) showed markedly reduced immunoreactivity in the Müller glia of the 2b5ho and 2b4ho2b5ho mutants. Scale bars: 50 μm (A, C, E, and F); 20 μm (B); 200 μm (D). Immunostains are representative images of at least 3 experiments.