Zusammenfassung der Projektergebnisse

Pathogens target key signalling hubs to subvert plant immune systems, one of which is EXO70B1, an exocyst subunit needed for vesicle anchoring and tethering to the plasma membrane during exocytosis. Pathogen-induced disappearance of EXO70B1 (or its absence in an exo70B1 null mutant) trigger (auto)immunity responses that are dependent on the atypical NLR protein TN2, as well as the calcium-dependent protein kinase 5 (CPK5). The results of this Sino-German collaborative study suggest that TN2 acts as a guard monitoring the integrity of EXO70B1, while CPK5 is a key executor of this immunity pathway by activating downstream components. This explains why overexpressing CPK5 can phenocopy the exo70B1 mutant, resulting in TN2-dependent autoimmunity and enhanced disease resistance. Mechanistically, upon release from a EXO70B1-TN2 complex, TN2 binds activated CPK5 to enable sustained kinase activity that no longer requires calcium-induced re-activation, thus leading to CPK5-dependent signal propagation, amplification and long-term systemic immune signalling. Since TN2 signalling subsequently engages so-called ADR1 helper NLRs that can assemble into calcium-permeable pores, feed-forward loops into calcium-based, and most likely CPK5-based, immune signalling may be anticipated. The findings of this and ongoing studies will advance the understanding of key EXO70B1 functions and immune regulators such as TN2 and CPK5, so that strategies to protect important crops from infection may be developed in the future.

Projektbezogene Publikationen (Auswahl)

• Protein kinase‐mediated signalling in priming: Immune signal initiation, propagation, and establishment of long‐term pathogen resistance in plants. Plant, Cell & Environment, 42(3), 904-917.
  Hake, Katharina & Romeis, Tina
  
• Calcium‐dependent protein kinase 5 links calcium signaling with N‐hydroxy‐l‐pipecolic acid‐ and SARD1‐dependent immune memory in systemic acquired resistance. New Phytologist, 225(1), 310-325.
  Guerra, Tiziana; Schilling, Silke; Hake, Katharina; Gorzolka, Karin; Sylvester, Fabian‐Philipp; Conrads, Benjamin; Westermann, Bernhard & Romeis, Tina
  
• N-hydroxypipecolic acid: a general and conserved activator of systemic plant immunity. Journal of Experimental Botany, 71(20), 6193-6196.
  Guerra, Tiziana & Romeis, Tina
  
• The Arabidopsis exocyst subunits EXO70B1 and EXO70B2 regulate FLS2 homeostasis at the plasma membrane. New Phytologist, 227(2), 529-544.
  Wang, Wei; Liu, Na; Gao, Chenyang; Cai, Huiren; Romeis, Tina & Tang, Dingzhong
  
• Plant Immune Memory in Systemic Tissue Does Not Involve Changes in Rapid Calcium Signaling. Frontiers in Plant Science, 12.
  Eichstädt, Bernadette; Lederer, Sarah; Trempel, Fabian; Jiang, Xiyuan; Guerra, Tiziana; Waadt, Rainer; Lee, Justin; Liese, Anja & Romeis, Tina