Rhomboid protease RHBDL4 promotes retrotranslocation of aggregation-prone proteins for degradation

Abstract

AbstractProtein degradation is fundamentally important to ensure cell homeostasis. In the endoplasmic reticulum (ER), the ER-associated degradation (ERAD) pathway targets incorrectly folded and unassembled proteins into the cytoplasm for turnover by the proteasome. In contrast, lysosomal degradation serves as a failsafe mechanism for removing proteins that resist ERAD by forming aggregates. Previously, we showed that the ER- resident rhomboid protease RHBDL4, together with p97, mediates membrane protein degradation. However, whether RHBDL4 acts in concert with additional ERAD components is unclear, and its full substrate spectrum remains to be defined. Here, we show that besides membrane proteins, RHBDL4 cleaves aggregation-prone luminal ERAD substrates. Because RHBDL4 with mutations in the rhomboid domain leads to stabilization of substrates at the cytoplasmic side, we hypothesize that analogue to the homologue ERAD factor derlin, RHBDL4 is directly involved in substrate retrotranslocation. RHBDL4’s interaction with the erlin ERAD complex and reciprocal interaction of rhomboid substrates with erlins suggest that RHBDL4 and erlins form a complex that clips substrates and thereby rescues aggregation-prone peptides in the ER lumen from terminal aggregation.