Extracellular S100β Disrupts Bergman Glia Morphology and Synaptic Transmission in Cerebellar Purkinje Cells

Extracellular S100β Disrupts Bergman Glia Morphology and Synaptic Transmission in Cerebellar Purkinje Cells

Astrogliosis is a pathological process that affects the density, morphology, and function of astrocytes. It is a common feature of brain trauma, autoimmune diseases, and neurodegeneration including spinocerebellar ataxia type 1 (SCA1), a poorly understood neurodegenerative disease. S100β is a Ca bin...

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Bibliographic Details
Published in:Brain sciences Vol. 9; no. 4; p. 80
Main Authors: Belozor, Olga S, Yakovleva, Dariya A, Potapenko, Ilya V, Shuvaev, Andrey N, Smolnikova, Marina V, Vasilev, Alex, Pozhilenkova, Elena A, Shuvaev, Anton N
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 12-04-2019
MDPI
Subjects:
Animals
Antibodies
Apoptosis
Astrocytes
Ataxin
Autoimmune diseases
Ca2+ signaling
Calcium-binding protein
Cerebellum
Cloning
Cytokines
Cytology
Dendritic plasticity
Depolarization
Experiments
Gliosis
Inflammation
Laboratories
Morphology
Neurodegeneration
Neurodegenerative diseases
Proteins
Purkinje cells
S100β
short-term plasticity
Spinocerebellar ataxia
Synaptic plasticity
Synaptic transmission
Traumatic brain injury
United Kingdom > UK
Japan
astrocytes
Ca2+ signaling
S100β
Purkinje cells
short-term plasticity
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Summary:Astrogliosis is a pathological process that affects the density, morphology, and function of astrocytes. It is a common feature of brain trauma, autoimmune diseases, and neurodegeneration including spinocerebellar ataxia type 1 (SCA1), a poorly understood neurodegenerative disease. S100β is a Ca binding protein. In SCA1, excessive excretion of S100β by reactive astrocytes and its uptake by Purkinje cells has been demonstrated previously. Under pathological conditions, excessive extracellular concentration of S100β stimulates the production of proinflammatory cytokines and induces apoptosis. We modeled astrogliosis by S100β injections into cerebellar cortex in mice. Injections of S100β led to significant changes in Bergmann glia (BG) cortical organization and affected their processes. S100β also changed morphology of the Purkinje cells (PCs), causing a significant reduction in the dendritic length. Moreover, the short-term synaptic plasticity and depolarization-induced suppression of synaptic transmission were disrupted after S100β injections. We speculate that these effects are the result of Ca -chelating properties of S100β protein. In summary, exogenous S100β induced astrogliosis in cerebellum could lead to neuronal dysfunction, which resembles a natural neurodegenerative process. We suggest that astrocytes play an essential role in SCA1 pathology, and that astrocytic S100β is an important contributor to this process.
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ISSN:2076-3425
2076-3425
DOI:10.3390/brainsci9040080