Drought-induced guard cell signal transduction involves sphingosine-1-phosphate

Abstract

Stomata form pores on leaf surfaces that regulate the uptake of CO₂ for photosynthesis and the loss of water vapour during transpiration¹. An increase in the cytosolic concentration of free calcium ions ([Ca²⁺]_cyt) is a common intermediate in many of the pathways leading to either opening or closure of the stomatal pore^2,3. This observation has prompted investigations into how specificity is controlled in calcium-based signalling systems in plants. One possible explanation is that each stimulus generates a unique increase in [Ca²⁺]_cyt, or ‘calcium signature’, that dictates the outcome of the final response⁴. It has been suggested that the key to generating a calcium signature, and hence to understanding how specificity is controlled, is the ability to access differentially the cellular machinery controlling calcium influx and release from internal stores^2,3,4,5 . Here we report that sphingosine-1-phosphate is a new calcium-mobilizing molecule in plants. We show that after drought treatment sphingosine-1-phosphate levels increase, and we present evidence that this molecule is involved in the signal-transduction pathway linking the perception of abscisic acid to reductions in guard cell turgor.