PLK2 disrupts autophagic flux to promote SNCA/α-synuclein pathology

The aggregation and transmission of SNCA/α-synuclein (synuclein, alpha) is a hallmark pathology of Parkinson disease (PD). PLK2 (polo like kinase 2) is an evolutionarily conserved serine/threonine kinase that is more abundant in the brains of all family members, is highly expressed in PD, and is linked to SNCA deposition. However, in addition to its role in phosphorylating SNCA, the role of PLK2 in PD and the mechanisms involved in triggering neurodegeneration remain unclear. Here, we found that PLK2 regulated SNCA pathology independently of S129. Overexpression of PLK2 promoted SNCA preformed fibril (PFF)-induced aggregation of wild-type SNCA and mutant SNCA^S129A. Genetic or pharmacological inhibition of PLK2 attenuated SNCA deposition and neurotoxicity. Mechanistically, PLK2 exacerbated the propagation of SNCA pathology by impeding the clearance of SNCA aggregates by blocking macroautophagic/autophagic flux. We further showed that PLK2 phosphorylated S1098 of DCTN1 (dynactin 1), a protein that controls the movement of organelles, leading to impaired autophagosome-lysosome fusion. Furthermore, genetic suppression of PLK2 alleviated SNCA aggregation and motor dysfunction in vivo. Our findings suggest that PLK2 negatively regulates autophagy, promoting SNCA pathology, suggesting a role for PLK2 in PD.