Sieve Element Ca2+ Channels as Relay Stations between Remote Stimuli and Sieve Tube Occlusion in Vicia faba

Damage induces remote occlusion of sieve tubes in Vicia faba by forisome dispersion, triggered during the passage of an electropotential wave (EPW). This study addresses the role of Ca²⁺ channels and cytosolic Ca²⁺ elevation as a link between EPWs and forisome dispersion. Ca²⁺ channel antagonists affect the initial phase of the EPW as well as the prolonged plateau phase. Resting levels of sieve tube Ca²⁺ of ∼50 nM were independently estimated using Ca²⁺-selective electrodes and a Ca²⁺-sensitive dye. Transient changes in cytosolic Ca²⁺ were observed in phloem tissue in response to remote stimuli and showed profiles similar to those of EPWs. The measured elevation of Ca²⁺ in sieve tubes was below the threshold necessary for forisome dispersion. Therefore, forisomes need to be associated with Ca²⁺ release sites. We found an association between forisomes and endoplasmic reticulum (ER) at sieve plates and pore-plasmodesma units where high-affinity binding of a fluorescent Ca²⁺ channel blocker mapped an increased density of Ca²⁺ channels. In conclusion, propagation of EPWs in response to remote stimuli is linked to forisome dispersion through transiently high levels of parietal Ca²⁺, release of which depends on both plasma membrane and ER Ca²⁺ channels.