Abstract
AbstractMultiple system atrophy (MSA) is an adult‐onset, progressive neurodegenerative disease involving parkinsonism, ataxia, and autonomic failure, in any combination. The unifying histopathological hallmark of MSA is the appearance of α‐synuclein (αSYN)‐positive, triangular‐shaped glial cytoplasmic inclusion (GCI) in affected brain regions including striatonigral and/or olivopontocerebellar systems. It is known that GCI follows the regions showing neuronal loss and gliosis, and the incidence of GCI is well correlated with disease severity and duration, suggesting that the oligodendroglial αSYN pathology in MSA would be a prerequisite for the disease rather than a consequence of glio‐neuronal degeneration. The mechanisms underlying the neuronal cell loss followed by oligodendroglial degeneration in MSA still remain elusive; however, recent observations from cultured cells, animal models, neuropathological and genetic studies have highlighted the several etiopathological factors including mitochondrial dysfunction, oxidative stress, aberrant misfolded protein processing and neuroinflammation. In the present review, we summarize a general overview of potential pathogenic processes and discuss the topics for debate especially focusing on the mechanisms by which αSYN accumulation in oligodendrocytes can secondarily lead to neuronal cell death.
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