Mechanism of Lys6 poly-ubiquitin specificity by the L. pneumophila deubiquitinase LotA

ABSTRACT

The versatility of ubiquitination to impose control over vast domains of eukaryotic biology is due, in part, to diversification through differently-linked poly-ubiquitin chains. Deciphering the signaling roles for some poly-ubiquitin chain types, including those linked via K6, has been stymied by a lack of stringent linkage specificity among the implicated regulatory proteins. Forged through strong evolutionary pressures, pathogenic bacteria have evolved intricate mechanisms to regulate host ubiquitin, and in some cases even with exquisite specificity for distinct poly-ubiquitin signals. Herein, we identify and characterize a deubiquitinase domain of the secreted effector protein LotA from Legionella pneumophila that specifically regulates K6-linked poly-ubiquitin during infection. We demonstrate the utility of LotA as a tool for studying K6 poly-ubiquitin. By determining apo and diUb-bound structures, we identify the mechanism of LotA activation and K6 poly-ubiquitin specificity, and identify a novel ubiquitin-binding domain utilized among bacterial deubiquitinases.