Abstract

The p97 protein is a member of the AAA + family of ATPases. This protein is encoded by the VCP gene. It is a mechanoenzyme that uses energy from ATP hydrolysis to promote protein unfolding and segregation actively. The unfolded products are subsequently presented to the 26S proteasome for degradation. p97 substrate recognition is mediated by adaptors, which interact with substrates directly or indirectly through ubiquitin modifications, resulting in substrate funnelling into the central pore of the p97 hexamer and unfolding. Here, we engineered synthetic adaptors to target specific substrates to p97, using the extraordinary intracellular binding capabilities of camelid nanobodies fused to the UBX domain of the p97 adaptor protein Fas-associated factor-1 (FAF1). In such a way, we created a p97-directed proteolysis-targeting chimera (PROTAC), representing a novel and unique E3 ubiquitin ligase-independent strategy to promote specific proteolysis. All functional assays were performed in human cell lines to evaluate the system's efficacy and specificity in a physiologically relevant context.