Selective disposal of a wide range of cellular entities by macroautophagy/autophagy is achieved through a special class of proteins called autophagy receptors, which link corresponding cargo to the membrane-bound autophagosomal protein Atg8/LC3. In pursuit of novel autophagy receptors and their cargo, we uncovered a previously undescribed autophagy pathway for removal of aberrant clathrin-mediated endocytosis (CME) protein condensates in S. cerevisiae. Of these CME proteins, Ede1 functions as an autophagy receptor, harboring distinct Atg8-binding domains and driving phase separation into condensates. The aberrant CME condensates at the plasma membrane (PM) exhibit a drop-like structure surrounded by a fenestrated ER, which are engulfed in pieces in an Ede1-dependent manner by autophagy. Thus, our work suggests that aberrant CME is a target for autophagic degradation, with the scaffold protein Ede1 serving as a built-in autophagy receptor that monitors the assembly status of the CME machinery.
Keywords: Atg11; Cathrin-mediated endocytosis; Ede1; budding yeast; intrinsic receptor; phase separation; selective autophagy.