Bacterial deamidases modulate ubiquitin structure and dynamics to dysregulate ubiquitin signaling

Abstract

AbstractThe deamidases secreted byBurkholderia pseudomalleiandEnteropathogenic Ecolimodify the residue 40 in ubiquitin from a Glutamine (Q) to Glutamate (E), triggering several downstream processes to cause cell cycle arrest and activate immune responses. Deamidation hampers the activity of ubiquitin and its interaction with ubiquitin chain receptors by an unknown mechanism. Here, we study the effect of deamidation on ubiquitin structure and dynamics. We report the crystal structure of the deamidated ubiquitin, supported by NMR and molecular dynamics simulations. The structure reveals a new intra-molecular salt bridge between the deamidated region and the C-terminal tail of ubiquitin. The salt bridge perturbs the dynamics of the ubiquitin tail to reduce affinity for ubiquitin receptors like the p62 ubiquitin-associated domain. The salt bridge disrupts the transition to catalytically active E2~Ub closed conformation. Consequently, RING E3s fail to interact with E2~Ub, reducing ubiquitination activity. Our findings reveal that deamidation-induced intramolecular salt bridges in ubiquitin modulate conformational ensembles to inactivate ubiquitination.