Structural basis for translation inhibition by the glycosylated antimicrobial peptide Drosocin fromDrosophila melanogaster

Abstract

AbstractThe proline-rich antimicrobial peptide (PrAMP) drosocin is produced byDrosophilaspecies to combat bacterial infection. Unlike many PrAMPs, drosocin is O-glycosylated at threonine 11, a post-translation modification that enhances its antimicrobial activity. Here we demonstrate that the O-glycosylation influences not only cellular uptake of the peptide, but also interacts with its intracellular target, the ribosome. Cryo-electron microscopy structures of glycosylated drosocin on the ribosome at 2.1-2.8 Å resolution reveal that the peptide interferes with translation termination by binding within the polypeptide exit tunnel and trapping RF1 on the ribosome, reminiscent of that reported for the PrAMP apidaecin. The glycosylation of drosocin enables multiple interactions with U2609 of the 23S rRNA, leading to conformational changes that break the canonical base-pair with A752. Collectively, our study provides novel molecular insights into the interaction of O-glycosylated drosocin with the ribosome, which provides a structural basis for future development of this class of antimicrobials.