Roles of calcineurin B-like protein-interacting protein kinases in innate immunity in rice

Cytosolic free Ca²⁺ mobilization induced by microbe/pathogen-asssociated molecular patterns (MAMPs/PAMPs) plays key roles in plant innate immunity. However, components involved in Ca²⁺ signaling pathways still remain to be identified and possible involvement of the CBL (calcineurin B-like proteins)-CIPK (CBL-interacting protein kinases) system in biotic defense signaling have yet to be clarified. Recently we identified two CIPKs, OsCIPK14 and OsCIPK15, which are rapidly induced by MAMPs, involved in various MAMP-induced immune responses including defense-related gene expression, phytoalexin biosynthesis and hypersensitive cell death. MAMP-induced production of reactive oxygen species as well as cell browning were also suppressed in OsCIPK14/15-RNAi transgenic cell lines. Possible molecular mechanisms and physiological functions of the CIPKs in plant innate immunity are discussed.Key words: PAMPs/MAMPs, calcium signaling, CBL-CIPK, hypersensitive cell death, reactive oxygen speciesCa²⁺ plays an essential role as an intracellular second messenger in plants as well as in animals. Several families of Ca²⁺ sensor proteins have been identified in higher plants, which decode spatiotemporal patterns of intracellular Ca²⁺ concentration.^1,2 Calcineurin B-Like Proteins (CBLs) comprise a family of Ca²⁺ sensor proteins similar to both the regulatory β-subunit of calcineurin and neuronal Ca²⁺ sensors of animals.^3,4 Unlike calcineurin B that regulates protein phosphatases, CBLs specifically target a family of protein kinases referred to as CIPKs (CBL-Interacting Protein Kinases).⁵ The CBL-CIPK system has been shown to be involved in a wide range of signaling pathways, including abiotic stress responses such as drought and salt, plant hormone responses and K+ channel regulation.^6,7Following the recognition of pathogenic signals, plant cells initiate the activation of a widespread signal transduction network that trigger inducible defense responses, including the production of reactive oxygen species (ROS), biosynthesis of phytoalexins, expression of pathogenesis-related (PR) genes and reorganization of cytoskeletons and the vacuole,⁸ followed by a form of programmed cell death known as hypersensitive response (HR).^9,10 Because complexed spatiotemporal patterns of cytosolic free Ca²⁺ concentration (Ca²⁺]_cyt) have been suggested to play pivotal roles in defense signaling,^1,9 multiple Ca²⁺ sensor proteins and their effectors should function in defense signaling pathways. Although possible involvement of some calmodulin isoforms^11–13 and the calmodulin-domain/calcium-dependent protein kinases (CDPKs)^14–19 has been suggested, other Ca²⁺-regulated signaling components still remain to be identified. No CBLs or CIPKs had so far been implicated as signaling components in innate immunity.