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Unconventional secretion of misfolded proteins promotes adaptation to proteasome dysfunction in mammalian cells

2016; Nature Portfolio; Volume: 18; Issue: 7 Linguagem: Inglês

10.1038/ncb3372

1476-4679

Jin‐Gu Lee, Shokichi Takahama, Guofeng Zhang, Stanislav I. Tomarev, Yihong Ye,

Ubiquitin and proteasome pathways

To safeguard proteomic integrity, cells rely on the proteasome to degrade aberrant polypeptides, but it is unclear how cells remove defective proteins that have escaped degradation owing to proteasome insufficiency or dysfunction. Here we report a pathway termed misfolding-associated protein secretion, which uses the endoplasmic reticulum (ER)-associated deubiquitylase USP19 to preferentially export aberrant cytosolic proteins. Intriguingly, the catalytic domain of USP19 possesses an unprecedented chaperone activity, allowing recruitment of misfolded proteins to the ER surface for deubiquitylation. Deubiquitylated cargos are encapsulated into ER-associated late endosomes and secreted to the cell exterior. USP19-deficient cells cannot efficiently secrete unwanted proteins, and grow more slowly than wild-type cells following exposure to a proteasome inhibitor. Together, our findings delineate a protein quality control (PQC) pathway that, unlike degradation-based PQC mechanisms, promotes protein homeostasis by exporting misfolded proteins through an unconventional protein secretion process. Lee et al. report that aberrantly folded cytosolic proteins are recruited to the ER by the USP19 deubiquitylase, and are then encapsulated in late endosomes that fuse with the plasma membrane, leading to their secretion.