Cytosolic FKBPL and ER-resident CKAP4 co-regulates ER-phagy and protein secretion
Cathena Meiling Li, Jaemin Kang, Jongyeon Baek, Youbin Kim, Heemin Park, Yong‐Keun Jung
Abstract
Endoplasmic reticulum quality control is crucial for maintaining cellular homeostasis and adapting to stress conditions. Although several ER-phagy receptors have been identified, the collaboration between cytosolic and ER-resident factors in ER fragmentation and ER-phagy regulation remains unclear. Here, we perform a phenotype-based gain-of-function screen and identify a cytosolic protein, FKBPL, functioning as an ER-phagy regulator. Overexpression of FKBPL triggers ER fragmentation and ER-phagy. FKBPL has multiple protein binding domains, can self-associate and might act as a scaffold connecting CKAP4 and LC3/GABARAPs. CKAP4 serves as a bridge between FKBPL and ER-phagy cargo. ER-phagy-inducing conditions increase FKBPL-CKAP4 interaction followed by FKBPL oligomerization at the ER, leading to ER-phagy. In addition, FKBPL-CKAP4 deficiency leads to Golgi disassembly and lysosome impairment, and an increase in ER-derived secretory vesicles and enhances cytosolic protein secretion via microvesicle shedding. Taken together, FKBPL with the aid of CKAP4 induces ER fragmentation and ER-phagy, and FKBPL-CKAP4 deficiency facilitates protein secretion. ER quality control is crucial to maintain cellular homeostasis. Here, the authors identify a cytosolic ER-phagy regulator inducing ER fragmentation and ER-phagy that functions with an ER-resident receptor, finding a collaboration between cytosolic and ER-resident proteins in quality control.