Abstract
The p97-UFD1L-NPLOC4 ATPase unfolds numerous proteins for proteasomal degradation, but whether it suffices to pull proteins out of lipid bilayer remains unclear. Here, we identify a conserved ubiquitin-binding helix (UBH) in many UBX-containing p97 adapters, including FAF2, across yeast, plants, and metazoans. The UBH-UBX substantially facilitates the engagement of ubiquitinated substrates with p97-UFD1L-NPLOC4, and enhances p97 motor's working ATPase and unfolding activities by approximately twofold. Using purified p97-UFD1L-NPLOC4-FAF2(UBH-UBX), we reconstitute membrane protein extraction from the ER and mitochondria, establishing p97-UFD1L-NPLOC4-FAF2 (p97-UNF) as a power-enhanced unfoldase. Deleting UBH or disrupting UBH-ubiquitin interaction impairs substrate targeting, reduces p97-UNF's working ATPase and unfolding activities, and abolishes membrane protein extraction and degradation. We propose that UBH-UBX module amplifies p97's mechanical output power, enabling the removal of challenging substrates from large assemblies and ensuring rapid responses to protein misfolding or regulatory signals in diverse physiological processes.