Litcius/Paper detail

Spatially and temporally distinct Ca2+ changes in <i>Lotus japonicus</i> roots orient fungal-triggered signalling pathways towards symbiosis or immunity

Filippo Binci, Elisabetta Offer, Andrea Crosino, Ivan Sciascia, Jürgen Kleine‐Vehn, Andrea Genre, Marco Giovannetti, Lorella Navazio

2023Journal of Experimental Botany26 citationsDOIOpen Access PDF

Abstract

Plants activate an immune or symbiotic response depending on the detection of distinct signals from root-interacting microbes. Both signalling cascades involve Ca2+ as a central mediator of early signal transduction. In this study, we combined aequorin- and cameleon-based methods to dissect the changes in cytosolic and nuclear Ca2+ concentration caused by different chitin-derived fungal elicitors in Lotus japonicus roots. Our quantitative analyses highlighted the dual character of the evoked Ca2+ responses taking advantage of the comparison between different genetic backgrounds: an initial Ca2+ influx, dependent on the LysM receptor CERK6 and independent of the common symbiotic signalling pathway (CSSP), is followed by a second CSSP-dependent and CERK6-independent phase, that corresponds to the well-known perinuclear/nuclear Ca2+ spiking. We show that the expression of immunity marker genes correlates with the amplitude of the first Ca2+ change, depends on elicitor concentration, and is controlled by Ca2+ storage in the vacuole. Our findings provide an insight into the Ca2+-mediated signalling mechanisms discriminating plant immunity- and symbiosis-related pathways in the context of their simultaneous activation by single fungal elicitors.

Topics & Concepts

SymbiosisLotus japonicusBiologyCell biologyBotanySignalling pathwaysLotusImmunitySignal transductionImmune systemBacteriaImmunologyGeneticsLegume Nitrogen Fixing SymbiosisPlant-Microbe Interactions and ImmunityMycorrhizal Fungi and Plant Interactions