Cytoplasmic polyamines block the fast-activating vacuolar cation channel

Abstract

The fast-activating vacuolar (FV) channel dominates the electrical characteristics of the tonoplast at physiological free Ca2+ concentrations. Since polyamines are known to increase in plant cells in response to stress, the regulation of FV channels by polyamines was investigated. Patch-clamp measurements were performed on whole barley ( Hordeum vulgare ) mesophyll vacuoles and on excised tonoplast patches. The trivalent polyamine spermidine and the tetravalent polyamine spermine blocked FV channels with Kd≈ 100 μM and Kd≈ 5 μM, respectively. Increasing cytosolic and vacuolar Ca2+ had no effect on putrescine and spermidine binding to FV channels but slightly decreased the affinity for spermine. The inhibition of FV channels by all three polyamines was not voltage-dependent. This points to a different mode of binding compared to inward rectifier K+ channels and Ca2+-permeable glutamate receptor channels from animal cells, which show rectification due to a voltage-dependent block by polyamines. In plant cells, the common polyamines (putrescine, spermidine and spermine) are likely to mediate a salt stress-induced decrease of ion flux across the vacuolar membrane by blocking FV channels.