Delineation of the substrate recognition domain of MARCHF6 E3 ubiquitin ligase in the Ac/N-degron pathway and its regulatory role in ferroptosis

Abstract

Nα-terminal acetylation in eukaryotic proteins creates specific degradation signals (Ac/N-degrons) targeted for ubiquitin-mediated proteolysis via the Ac/N-degron pathway. Despite the identification of key components of the Ac/N-degron pathway over the past 15 years, the precise recognition domain (Ac/N domain) remains unclear. Here, we defined the Ac/N domain of the endoplasmic reticulum MARCHF6 E3 ubiquitin ligase through a systematic analysis of its cytosol-facing regions using alanine-stretch mutagenesis, chemical crosslinking-based co-immunoprecipitation–immunoblotting, and split-ubiquitin assays in human and yeast cells. The Ac/N domain of MARCHF6 exhibits preferential binding specificity to Nα-terminally acetylated proteins and peptides over their unacetylated counterparts, mediating the degradation of Ac/N-degron-bearing proteins, such as the G-protein regulator RGS2 and the lipid droplet protein PLIN2. Furthermore, abolishing the recognition of Ac/N-degrons by MARCHF6 stabilized RGS2 and PLIN2, thereby increasing the resistance to ferroptosis, an iron-dependent lipid peroxidation-mediated cell death. These findings provide mechanistic and functional insights into how MARCHF6 serves as a rheostatic modulator of ferroptosis by recognizing Ac/N-degron substrates via its Ac/N domain and non-Ac/N-degron substrates via distinct recognition sites.