Nonselective Block by La 3+ of Arabidopsis Ion Channels Involved in Signal Transduction

Abstract

Lanthanide ions such as La³⁺ are frequently used as blockers to test the involvement of calcium channels in plant and animal signal transduction pathways. For example, the large rise in cytoplasmic Ca²⁺ concentration triggered by cold shock in Arabidopsis seedlings is effectively blocked by 10 mm La³⁺ and we show here that the simultaneous large membrane depolarization is similarly blocked. However, a pharmacological tool is only as useful as it is selective and the specificity of La³⁺ for calcium channels was brought into question by our finding that it also blocked a blue light (BL)-induced depolarization that results from anion channel activation and believed not to involve calcium channels. This unexpected inhibitory effect of La³⁺ on the BL-induced depolarization is explained by our finding that 10 mm La³⁺ directly and completely blocked the BL-activated anion channel when applied to excised patches. We have investigated the ability of La³⁺ to block noncalcium channels in Arabidopsis. In addition to the BL-activated anion channel, 10 mm La³⁺ blocked a cation channel and a stretch-activated channel in patches of plasma membrane excised from hypocotyl cells. In root cells, 10 mm La³⁺ inhibited the activity of an outward-rectifying potassium channel at the whole cell and single-channel level by 47% and 58%, respectively. We conclude that La³⁺ is a nonspecific blocker of multiple ionic conductances in Arabidopsis and may disrupt signal transduction processes independently of any effect on Ca²⁺ channels.