Dimeric architecture and membrane thinning govern substrate recognition by human signal peptide peptidase
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Signal peptide peptidase (SPP) is an intramembrane aspartyl protease that cleaves transmembrane segments of diverse origin, such as remnant signal peptides of secretory proteins or transmembrane helices of tail-anchored proteins. Consistent with its ability to cleave multiple substrates, SPP is essential in mammals, and its activity is linked to a wide range of processes from immune regulation to protein quality control and cancer. Here we determine cryo-EM structures of human SPP in its apo form and bound to a signal peptide substrate. Together with molecular dynamics simulations and functional assays, our data show that SPP forms a constitutive homodimer that locally curves and thins the membrane, placing the conserved active site within the bilayer. Substrate engagement drives major conformational changes, including movement of a “latch” helix that positions the signal peptide for cleavage. The substrate adopts a tilted helix–unwound–β-strand architecture that defines the cleavage register independently of sequence. Steric exclusion by folded luminal domains or additional transmembrane helices explains selective processing of certain protein termini.