Analysis of cell death induction by the barley NLR immune receptor PBR1

Abstract

ABSTRACTThe barley (Hordeum vulgaresubsp.vulgare) disease resistance proteinAvrPphB Response 1(PBR1) mediates recognition of thePseudomonas syringaeeffector, AvrPphB. PBR1 belongs to the coiled-coil nucleotide-binding leucine-rich repeat (CNL) family. However, little is known about the molecular mechanisms that lead to PBR1-dependent cell death (hypersensitive reaction; HR) in response to AvrPphB. Here, we investigated PBR1 immune signaling afterAgrobacterium-mediated transient expression inNicotiana benthamiana. We found that co-expression of PBR1 with AvrPphB resulted in robust cell death, confirming previous observations that PBR1 is indeed the cognate NLR that recognizes AvrPphB. The N-terminal tagging of PBR1 with super Yellow Fluorescent Protein (sYFP) abolished PBR1-mediated cell death, demonstrating that an N-terminal epitope tag disrupts PBR1-mediated immune signaling. Furthermore, none of the individual protein domains or truncations of PBR1 induced a HR-like cell death response as strong as full-length PBR1 when co-expressed with AvrPphB, indicating that the individual domains and fragments of PBR1 are insufficient to trigger HR. Intriguingly, introducing the typically auto-activating D496V mutation within NB-ARC-containing fragments of PBR1 does not activate immune signaling revealing PBR1-mediated immune signaling requires cooperation of all domainsin cis. Using co-immunoprecipitation and split-luciferase assays, we also show full-length PBR1 self-associates in the absence of AvrPphB and such self-association is not dependent on a functional P-loop/Walker A motif. Collectively, these findings provide valuable insights into PBR1-mediated disease resistance and extends upon our understanding of NLR-mediated immune signaling.