Structural Analysis of Pseudomonas syringae AvrPtoB Bound to Host BAK1 Reveals Two Similar Kinase-Interacting Domains in a Type III Effector

SummaryTo infect plants, Pseudomonas syringae pv. tomato delivers ∼30 type III effector proteins into host cells, many of which interfere with PAMP-triggered immunity (PTI). One effector, AvrPtoB, suppresses PTI using a central domain to bind host BAK1, a kinase that acts with several pattern recognition receptors to activate defense signaling. A second AvrPtoB domain binds and suppresses the PTI-associated kinase Bti9 but is conversely recognized by the protein kinase Pto to activate effector-triggered immunity. We report the crystal structure of the AvrPtoB-BAK1 complex, which revealed structural similarity between these two AvrPtoB domains, suggesting that they arose by intragenic duplication. The BAK1 kinase domain is structurally similar to Pto, and a conserved region within both BAK1 and Pto interacts with AvrPtoB. BAK1 kinase activity is inhibited by AvrPtoB, and mutations at the interaction interface disrupt AvrPtoB virulence activity. These results shed light on a structural mechanism underlying host-pathogen coevolution.

► Structure of the BAK1 kinase complexed with the pathogen effector AvrPtoB was solved ► AvrPtoB has duplicated kinase-binding domains in its N-terminal region ► The BAK1 kinase domain is most similar to the immunity-associated kinases Pto and IRAK4 ► Mutations disrupting the AvrPtoB-BAK1 interaction decrease AvrPtoB virulence activity