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Variations in the α-synuclein-encoding SNCA gene represent the greatest genetic risk factor for Parkinson's disease (PD), and duplications/triplications of SNCA cause autosomal dominant familial PD. These facts closely link brain levels of α-synuclein with the risk of PD, and make lowering α-synuclein levels a therapeutic strategy for the treatment of PD and related synucleinopathies. In this paper, we corroborate previous findings on the ability of overexpressed Polo-like kinase 2 (PLK-2) to decrease cellular α-synuclein, but demonstrate that the process is independent of PLK-2 phosphorylating S129 in α-synuclein because a similar reduction is achieved with the non-phosphorable S129A mutant α-synuclein. Using a specific PLK-2 inhibitor (compound 37), we demonstrate that endogenous PLK-2 phosphorylates S129 only in some cells, but increases α-synuclein protein levels in all tested cell cultures and brain slices. PLK-2 is found to regulate the transcription of α-synuclein mRNA from both the endogenous mouse SNCA gene and transgenic vectors that only contain the open reading frame. Moreover, we are the first to show that regulation of α-synuclein by PLK-2 is of physiological importance since 10days' inhibition of endogenous PLK-2 in wt C57BL/6 mice increases endogenous α-synuclein protein levels. Our findings collectively demonstrate that PLK-2 regulates α-synuclein levels by a previously undescribed transcription-based mechanism. This mechanism is active in cells and brain tissue, opening up for alternative strategies for modulating α-synuclein levels and thereby for the possibility of modifying disease progression in synucleinopaties.
Parkinson's disease (PD) is a currently incurable disease and the number of patients is expected to increase due to the extended human lifespan. α-Synuclein is a pathological hallmark of PD and variations and triplications of the gene encoding α-synuclein are strongly correlated with the risk of developing PD. Decreasing α-synuclein is therefore a promising therapeutic strategy for the treatment of PD. We have previously demonstrated that Polo-like kinase 2 (PLK-2) regulates α-synuclein protein levels by modulating the expression of α-synuclein mRNA. In this study, we further expand the knowledge on this pathway and show that it depends on down-stream modulation of Glycogen-synthase kinase 3 β (GSK-3β). We show that PLK-2 inhibition only increases α-synuclein levels in the presence of active GSK-3β in both cell lines and primary neuronal cultures. Furthermore, direct inhibition of GSK-3β decreases α-synuclein protein and mRNA levels in our cell model and overexpression of Leucine-rich repeat kinase 2, known to activate GSK-3β, increases α-synuclein levels. Finally, we show an increase in endogenous α-synuclein in primary neurons when increasing GSK-3β activity. Our findings demonstrate a not previously described role of endogenous GSK-3β activity in the PLK-2 mediated regulation of α-synuclein levels. This finding opens up the possibility of GSK-3β as a novel target for decreasing α-synuclein levels by the use of small molecule compounds, hereby serving as a disease modulating strategy.
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