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  • Title: Ultrastructural analysis of neuronal and non-neuronal lysosomal storage in mucolipidosis type II knock-in mice.
    Author: Schweizer M, Markmann S, Braulke T, Kollmann K.
    Journal: Ultrastruct Pathol; 2013 Oct; 37(5):366-72. PubMed ID: 24047352.
    Abstract:
    The GlcNAc-1-phosphotransferase catalyzes the first step in the formation of mannose 6-phosphate (M6P) residues on lysosomal acid hydrolases that is essential for the efficient transport of newly synthesized lysosomal enzymes to lysosomes and the maintenance of lysosomal functions. Mutations in the GlcNAc-1-phosphotransferase cause the lysosomal storage disease mucolipidosis type II (MLII), resulting in mistargeting and hypersecretion of multiple lysosomal hydrolases and subsequent lysosomal accumulation of nondegraded material in several tissues. To describe cell-type specificity, compositional differences, and subcellular distribution of the stored material we performed an in-depth ultrastructural analysis of lysosomal storage in brain and retina of MLII knock-in mice using electron microscopy. Massive vacuoles filled with heterogeneous storage material have been found in the soma, swollen axons, and dendrites of Purkinje, and granular cells in 9-month-old MLII mice. In addition, non-neuronal cells, such as microglial, astroglial, and endothelial cells, exhibit storage material. Fucose-specific lectin histochemistry demonstrated the accumulation of fucose-containing oligosaccharides, indicating that targeting of the lysosomal α-fucosidase is strongly impaired in all cerebellar cell types. The data suggest that the accumulation of storage material might affect neuronal function and survival in a direct cell-autonomous manner, as well as indirectly by disturbed metabolic homeostasis between glial and neuronal cells or by cerebrovascular complications.
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