Citation
- Authors: Fumagalli, F., Noack, J., Bergmann, T. J., Presmanes, E. C., Pisoni, G. B., Fasana, E., Fregno, I., Galli, C., Loi, M., Solda, T., D'Antuono, R., Raimondi, A., Jung, M., Melnyk, A., Schorr, S., Schreiber, A., Simonelli, L., Varani, L., Wilson-Zbinden, C., Zerbe, O., Hofmann, K., Peter, M., Quadroni, M., Zimmermann, R., Molinari, M.
- Year: 2016
- Journal: Nat Cell Biol 18 1173-1184
- Applications: in vitro / DNA / jetPRIME
- Cell types:
- Name: Flp-In T-REx 293
- Name: MEF
Description: Murine embryonic fibroblast cells
Method
CRISPR KO
Abstract
The endoplasmic reticulum (ER) is a site of protein biogenesis in eukaryotic cells. Perturbing ER homeostasis activates stress programs collectively called the unfolded protein response (UPR). The UPR enhances production of ER-resident chaperones and enzymes to reduce the burden of misfolded proteins. On resolution of ER stress, ill-defined, selective autophagic programs remove excess ER components. Here we identify Sec62, a constituent of the translocon complex regulating protein import in the mammalian ER, as an ER-resident autophagy receptor. Sec62 intervenes during recovery from ER stress to selectively deliver ER components to the autolysosomal system for clearance in a series of events that we name recovER-phagy. Sec62 contains a conserved LC3-interacting region in the C-terminal cytosolic domain that is required for its function in recovER-phagy, but is dispensable for its function in the protein translocation machinery. Our results identify Sec62 as a critical molecular component in maintenance and recovery of ER homeostasis.