Substrate-assisted activation and selectivity of the bacterial RavD effector deubiquitinylase

Abstract

Deubiquitinylases (DUBs) catalyze the peptide bond cleavage of specific ubiquitin linkages at distinct protein substrates. Pathogens from viruses and bacteria independently developed effector proteins with DUB activity to mimic host DUB functions and circumvent immune responses. The effector protein RavD from Legionella pneumophila cleaves linear ubiquitin chains with an exclusive methionine-1 selectivity. It thus performs as a functional analogue of the human DUB OTULIN, which achieves its selectivity only via a specialized proximal ubiquitin S1' binding site as well as a substrate-assisted activation of the catalytic triad. An analysis of the crystal structures of bacterial RavD in its free and di-ubiquitin-bound forms, in order to rationalize the structural basis for its selectivity and activation mechanism, is not fully conclusive. As these ambiguities might arise from the introduced double mutation of the di-ubiquitin substrate in the RavD-di-ubiquitin complex crystal structure, biomolecular modeling, and molecular dynamics sampling (1-2 μs for each system of RavD and OTULIN) were employed to reconstitute the physiological RavD-di-ubiquitin complex. The simulations show that the distal S1 ubiquitin binding sites of RavD and OTULIN are similar in terms of interface area, composition, and ubiquitin binding affinity. The proximal S1' site of RavD, in contrast, is significantly smaller and ubiquitin binding is weaker and more flexible than in OTULIN. Upon substrate access, the residues of the catalytic triad of RavD show a reduction of flexibility and a conformational transition toward a catalytically active state. Thus, the enzymatic activation of RavD is presumably also substrate-assisted and a clear rationale for the common M1-substrate selectivity.

Keywords: Legionella pneumophila; OTU; deubiquitinylase; molecular dynamics; protein-protein interactions; substrate-assisted catalysis; ubiquitin recognition.