The decline of cellular proteostasis is a hallmark of aging and key contributor to neurodegenerative diseases. Protein turnover is controlled by the ubiquitin-proteasome and autophagosome-lysosome systems, but how degradation is coordinated when one of these pathways is compromised is not well understood. To study the regulation of proteostasis, we utilized human fibroblasts with targeted knockouts of the cytoskeletal factors WHAMM and JMY, which control multiple steps in autophagy. We found that cells lacking both WHAMM and JMY accumulated numerous intense foci of ubiquitinated proteins when exposed to proteotoxic stress and relied on proteasomes to clear the foci when the stressor was removed. RNA-seq and immunoblotting revealed that WHAMM/JMY knockout cells increased their expression of Synphilin-1, an alpha-synuclein-interacting protein implicated in Parkinsons Disease. In WHAMM/JMY knockout cells that upregulated endogenous Synphilin-1, and in cell lines engineered to overexpress mCherry-Synphilin-1, ubiquitinated proteins were present in structures containing both Synphilin-1 and proteasomes. RNAi-mediated depletion of Synphilin-1 caused a buildup of ubiquitinated proteins and the ubiquitin-binding adaptor protein SQSTM1/p62, while decreasing cell survival in response to proteotoxic stress. These data suggest that Synphilin-1 plays a pro-survival role in cells with impaired autophagy and functions in the distribution of ubiquitinated cargo during proteasomal degradation.
Lebek, N., Campellone, K.
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