TIR-domain enzymatic activities at the heart of plant immunity
Federica Locci, Junli Wang, Jane E. Parker
Abstract
Toll/interleukin-1/resistance (TIR) domain proteins contribute to innate immunity in all cellular kingdoms. TIR modules are activated by self-association and in plants, mammals and bacteria, some TIRs have enzymatic functions that are crucial for disease resistance and/or cell death. Many plant TIR-only proteins and pathogen effector-activated TIR-domain NLR receptors are NAD+ hydrolysing enzymes. Biochemical, structural and functional studies established that for both plant TIR-protein types, and certain bacterial TIRs, NADase activity generates bioactive signalling intermediates which promote resistance. A set of plant TIR-catalysed nucleotide isomers was discovered which bind to and activate EDS1 complexes, promoting their interactions with co-functioning helper NLRs. Analysis of TIR enzymes across kingdoms fills an important gap in understanding how pathogen disturbance induces TIR-regulated immune responses.