Synaptic pathology in the cerebellar dentate nucleus in chronic multiple sclerosis

In multiple sclerosis, cerebellar symptoms are associated with clinical impairment and an increased likelihood of progressive course. Cortical atrophy and synaptic dysfunction play a prominent role in cerebellar pathology and although the dentate nucleus is a predilection site for lesion development...

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Bibliographic Details
Published in:Brain pathology (Zurich, Switzerland) Switzerland), 2017-11, Vol.27 (6), p.737-747
Main Authors: Albert, Monika, Barrantes‐Freer, Alonso, Lohrberg, Melanie, Antel, Jack P., Prineas, John W., Palkovits, Miklós, Wolff, Joachim R., Brück, Wolfgang, Stadelmann, Christine
Format: Article
Language:English
Subjects:
Adult
Aged
Appendages
Atrophy
autophagy
Autopsy
Axons
Axons - ultrastructure
Case-Control Studies
Cerebellar Diseases - pathology
Cerebellar Nuclei - pathology
Cerebellum
Cortex
Degradation
Degradation products
Demyelination
Dendrites
Dentate nucleus
Electron microscopy
Female
Glia
Humans
Male
Microscopy, Electron
Middle Aged
Multiple sclerosis
Multiple Sclerosis - physiopathology
Neuroglia
Neurons
Nuclei
Pathology
Phagosomes
Pontine nuclei
Sensory neurons
Synapses
Synapses - pathology
Synapses - ultrastructure
Synaptic vesicles
Synaptogenesis
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Summary:In multiple sclerosis, cerebellar symptoms are associated with clinical impairment and an increased likelihood of progressive course. Cortical atrophy and synaptic dysfunction play a prominent role in cerebellar pathology and although the dentate nucleus is a predilection site for lesion development, structural synaptic changes in this region remain largely unexplored. Moreover, the mechanisms leading to synaptic dysfunction have not yet been investigated at an ultrastructural level in multiple sclerosis. Here, we report on synaptic changes of dentate nuclei in post‐mortem cerebella of 16 multiple sclerosis patients and eight controls at the histological level as well as an electron microscopy evaluation of afferent synapses of the cerebellar dentate and pontine nuclei of one multiple sclerosis patient and one control. We found a significant reduction of afferent dentate synapses in multiple sclerosis, irrespective of the presence of demyelination, and a close relationship between glial processes and dentate synapses. Ultrastructurally, we show autophagosomes containing degradation products of synaptic vesicles within dendrites, residual bodies within intact‐appearing axons and free postsynaptic densities opposed to astrocytic appendages. Our study demonstrates loss of dentate afferent synapses and provides, for the first time, ultrastructural evidence pointing towards neuron‐autonomous and neuroglia‐mediated mechanisms of synaptic degradation in chronic multiple sclerosis.
ISSN:1015-6305
1750-3639
DOI:10.1111/bpa.12450