Abstract
α-synuclein (aSyn) is associated with both sporadic and familial forms of Parkinson’s disease (PD), the second most common neurodegenerative disorder after Alzheimer’s disease. In particular, multiplications and point mutations in the gene encoding for aSyn cause familial forms of PD. Moreover, the accumulation of aSyn in Lewy Bodies and Lewy neurites in disorders such as PD, dementia with Lewy bodies, or multiple system atrophy, suggests aSyn misfolding and aggregation plays an important role in these disorders, collectively known as synucleinopathies. The exact function of aSyn remains unclear, but it is known to be associated with vesicles and membranes, and to have an impact on important cellular functions such as intracellular trafficking and protein degradation systems, leading to cellular pathologies that can be readily studied in cell-based models. Thus, understanding the molecular effects of aSyn point mutations may provide important insight into the molecular mechanisms underlying disease onset.We investigated the effect of the recently identified A53E aSyn mutation. Combining in vitro studies with studies in cell models, we found that this mutation reduces aSyn aggregation and increases proteasome activity, altering normal proteostasis.We observed that, in our experimental paradigms, the A53E mutation affects specific steps of the aggregation process of aSyn and different cellular processes, providing novel ideas about the molecular mechanisms involved in synucleinopathies.Electronic supplementary materialThe online version of this article (doi:10.1186/s40478-016-0402-8) contains supplementary material, which is available to authorized users.
Highlights
Parkinson’s disease (PD) is a highly debilitating and progressive neurodegenerative disorder affecting around seven million people worldwide
A53E mutant forms protofibrils by reducing aSyn fibrilization To understand the effect of the A53E substitution in the aggregation process of aSyn (Fig. 1a), we assembled a pipeline of both in in vitro and cellular studies, in human and yeast cells (Fig. 1b), and conducted a battery of experiments to characterize the behavior of this recently identified aSyn mutant form
The A53E mutation alters the biochemical properties of aSyn inclusions we investigated if the later stages of the aSyn aggregation process were altered by the A53E mutation
Summary
Parkinson’s disease (PD) is a highly debilitating and progressive neurodegenerative disorder affecting around seven million people worldwide. PD is typically known as a movement disorder, due to the characteristic motor manifestations associated with the loss of dopaminergic neurons from the substantia nigra, it affects other areas of the brain. According to the “Braak hypothesis”, PD pathology is thought to start from the periphery (gut or nose), and progress until it reaches the brain [4, 5, 49], spreading in a prion-like manner [20, 29, 36]. This hypothesis is still controversial, and the molecular mechanisms underlying this phenomenon are not fully understood [25]
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