The NLR protein SUMM2 senses the disruption of an immune signaling MAP kinase cascade via CRCK3.

Zhibin Zhang, Yanan Liu, Hao Huang, Minghui Gao, Di Wu, Qing Kong, Yuelin Zhang

EMBO reports 2017 Feb

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MAP kinase signaling is an integral part of plant immunity. Disruption of the MEKK1-MKK1/2-MPK4 kinase cascade results in constitutive immune responses mediated by the NLR protein SUMM2, but the molecular mechanism is so far poorly characterized. Here, we report that SUMM2 monitors a substrate protein of MPK4, CALMODULIN-BINDING RECEPTOR-LIKE CYTOPLASMIC KINASE 3 (CRCK3). Similar to SUMM2, CRCK3 was isolated from a suppressor screen of mkk1 mkk2 and is required for the autoimmunity phenotypes in mekk1, mkk1 mkk2, and mpk4 mutants. In wild-type plants, CRCK3 is mostly phosphorylated. MPK4 interacts with CRCK3 and can phosphorylate CRCK3 in vitro In mpk4 mutant plants, phosphorylation of CRCK3 is substantially reduced, suggesting that MPK4 phosphorylates CRCK3 in vivo Further, CRCK3 associates with SUMM2 in planta, suggesting SUMM2 senses the disruption of the MEKK1-MKK1/2-MPK4 kinase cascade through CRCK3. Our study suggests that a MAP kinase substrate is used as a guardee or decoy for monitoring the integrity of MAP kinase signaling. © 2016 The Authors.

Citation

Zhibin Zhang, Yanan Liu, Hao Huang, Minghui Gao, Di Wu, Qing Kong, Yuelin Zhang. The NLR protein SUMM2 senses the disruption of an immune signaling MAP kinase cascade via CRCK3. EMBO reports. 2017 Feb;18(2):292-302