Role of synucleins in traumatic brain injury — An experimental in vitro and in vivo study in mice

Synucleins are small prone to aggregate proteins associated with several neurodegenerative diseases (NDDs), however their role in traumatic brain injury (TBI) is an emerging area of investigation. Using in vitro scratch injury model and in vivo mouse weight-drop model we have found that the injury c...

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Published in:Molecular and cellular neuroscience 2014-11, Vol.63, p.114-123
Main Authors: Surgucheva, Irina, He, Shuangteng, Rich, Megan C., Sharma, Ram, Ninkina, Natalia N., Stahel, Philip F., Surguchov, Andrei
Format: Article
Language:English
Subjects:
Actin Cytoskeleton - metabolism
Animals
Brain Injuries - metabolism
Cell Nucleus - metabolism
Cofilin-actin rods
Cytoplasm - metabolism
In vitro scratch injury model
Male
Mice
Mice, Inbred C57BL
Neurons - metabolism
Oligodendroglia - metabolism
Oxidation-Reduction
Protein aggregation
Protein Processing, Post-Translational
Protein Transport
Synucleins
Synucleins - genetics
Synucleins - metabolism
Traumatic brain injury
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Summary:Synucleins are small prone to aggregate proteins associated with several neurodegenerative diseases (NDDs), however their role in traumatic brain injury (TBI) is an emerging area of investigation. Using in vitro scratch injury model and in vivo mouse weight-drop model we have found that the injury causes alterations in the expression and localization of synucleins near the damaged area. Before injury, α-synuclein is diffused in the cytoplasm of neurons and γ-synuclein is both in the cytoplasm and nucleus of oligodendrocytes. After the scratch injury of the mixed neuronal and glial culture, α-synuclein forms punctate structures in the cytoplasm of neurons and γ-synuclein is almost completely localized to the nucleus of the oligodendrocytes. Furthermore, the amount of post-translationally modified Met38-oxidized γ-synuclein is increased 3.8 fold 24h after the scratch. α- and γ-synuclein containing cells increased in the initially cell free scratch zone up to 24h after the scratch. Intracellular expression and localization of synucleins are also changed in a mouse model of focal closed head injury, using a standardized weight drop device. γ-Synuclein goes from diffuse to punctate staining in a piriform cortex near the amygdala, which may reflect the first steps in the formation of deposits/inclusions. Surprisingly, oxidized γ-synuclein co-localizes with cofilin-actin rods in the thalamus, which are absent in all other regions of the brain. These structures reach their peak amounts 7days after injury. The changes in γ-synuclein localization are accompanied by injury-induced alterations in the morphology of both astrocytes and neurons. •Traumatic brain injury causes alterations in the expression and localization of synucleins.•α-Synuclein forms punctate structures in the cytoplasm of neurons.•γ-Synuclein is localized to the nucleus of the oligodendrocytes.•Oxidized γ-synuclein co-localizes with cofilin-actin rods.•Association of γ-synuclein with cytoskeleton could reveal new physiological role.
ISSN:1044-7431
1095-9327
DOI:10.1016/j.mcn.2014.10.005