Differential effects of Parkin and its mutants on protein aggregation, the ubiquitin-proteasome system, and neuronal cell death in human neuroblastoma cells.

Mutations in Parkin, an E3 ligase, which participates in the ubiquitin-proteasome system (UPS), cause juvenile onset Parkinson's disease (PD). Some mutants aggregate upon over-expression, but the effects of such aggregation on the UPS and neuronal survival have not been characterized. We show in this study that transient over-expression of wild type (WT) Parkin or various mutants in human neuroblastoma cells leads to localized accumulation of green fluorescent protein (GFP(u)), an artificial proteasomal substrate, indicative of UPS dysfunction. Parkin mutants, but not WT, aggregated, and GFP(u) and ubiquitin accumulated within such aggregates. Apoptotic death occurred only with mutant Parkin over-expression, and correlated with aggregation, but not GFP(u) accumulation. Enzymatic proteasomal activity was slightly increased with WT Parkin and decreased with mutant Parkin over-expression. This decrease was, at least in part, due to caspase activation. We conclude that mutant forms of Parkin can exert toxic effects on neuronal cells, possibly through their propensity to aggregate. Both WT and mutant forms can induce localized UPS dysfunction, likely through different mechanisms. This raises a note of caution regarding forced over-expression of Parkin as a neuroprotective strategy in PD or other neurodegenerative conditions and suggests a possible toxic gain of function for certain mutant forms of Parkin.