Substrate-induced condensation activates plant TIR domain proteins.
Wen SongLi LiuDongli YuHanna BernardyJan JirschitzkaShijia HuangAolin JiaWictoria JemielniakJulia AckerHenriette LaessleJunli WangQiaochu ShenWeijie ChenPilong LiJane E ParkerZhifu HanPaul Schulze-LefertJijie ChaiPublished in: Nature (2024)
Plant nucleotide-binding leucine-rich repeat (NLR) immune receptors with an N-terminal Toll/interleukin-1 receptor (TIR) domain mediate recognition of strain-specific pathogen effectors, typically via their C-terminal ligand-sensing domains 1 . Effector binding enables TIR-encoded enzymatic activities that are required for TIR-NLR (TNL)-mediated immunity 2,3 . Many truncated TNL proteins lack effector-sensing domains but retain similar enzymatic and immune activities 4,5 . The mechanism underlying the activation of these TIR domain proteins remain unclear. Here we show that binding of the TIR substrates NAD + and ATP induces phase separation of TIR domain proteins in vitro. A similar condensation occurs with a TIR domain protein expressed via its native promoter in response to pathogen inoculation in planta. The formation of TIR condensates is mediated by conserved self-association interfaces and a predicted intrinsically disordered loop region of TIRs. Mutations that disrupt TIR condensates impair the cell death activity of TIR domain proteins. Our data reveal phase separation as a mechanism for the activation of TIR domain proteins and provide insight into substrate-induced autonomous activation of TIR signalling to confer plant immunity.