Perry disease, a rare autosomal dominant neurodegenerative disorder, is characterized by parkinsonism, depression or apathy, unexpected weight loss, and central hypoventilation. Genetic analyses have revealed a strong association between point mutations in the dynactin I gene (DCTN1) coding p150glued and Perry disease. Although previous reports have suggested a critical role of p150glued aggregation in Perry disease pathology, whether and how p150glued mutations affect protein aggregation is not fully understood. In this study, we comprehensively investigated the intracellular distribution of the p150glued mutants in HEK293T cells. We further assessed the effect of co-overexpression of the wild-type p150glued protein with mutants on the formation of mutant aggregates. Notably, overexpression of p150glued mutants identified in healthy controls, which is also associated with amyotrophic lateral sclerosis, showed a thread-like cytoplasmic distribution, similar to the wild-type p150glued. In contrast, p150glued mutants in Perry disease and motor neuron disease caused aggregation. In addition, the co-overexpression of the wild-type protein with p150glued mutants in Perry disease suppressed aggregate formation. In contrast, the p150glued aggregation of motor neuron disease mutants was less affected by the wild-type p150glued. Further investigation of the mechanism of aggregate formation, contents of the aggregates, and biological mechanisms of Perry disease could help develop novel therapeutics.
Keywords: Perry disease; aggregates; amyotrophic lateral sclerosis; dynactin I gene (DCTN1); p150.