Nuclear quality control of non-imported secretory proteins attenuates proteostasis decline in the cytosol

Abstract

ABSTRACTMistargeting of secretory proteins to the cytosol can induce formation of aggregation-prone conformers and subsequent proteostasis decline. We have identified a quality control pathway that redirects non-ER-imported prion protein (PrP) to proteasomal degradation in the nucleus to prevent formation of toxic aggregates in the cytosol. Upon aborted ER import, PrP sequentially interacted with VCP/p97 and importins, which kept PrP soluble and promoted its nuclear import. In the nucleus, RNA buffered aggregation of PrP to facilitate ubiquitin-dependent proteasomal degradation. Notably, the cytosolic interaction of PrP with VCP/p97 and its nuclear import were independent of ubiquitination but required the intrinsically unstructured N-terminal domain of PrP. Transient proteotoxic stress promoted the formation of self-perpetuating PrP aggregates in the cytosol, which disrupted further nuclear targeting of PrP and compromised cellular proteostasis. Our study delineates a VCP/p97-dependent nucleus-based quality control pathway of non-ER-imported secretory proteins and emphasizes the important role of the nuclear milieu for the degradation of aggregation-prone proteins.