Ethylene Regulates the Arabidopsis Microtubule-Associated Protein WAVE-DAMPENED2-LIKE5 in Etiolated Hypocotyl Elongation

The phytohormone ethylene plays crucial roles in the negative regulation of plant etiolated hypocotyl elongation. The microtubule cytoskeleton also participates in hypocotyl cell growth. However, it remains unclear if ethylene signaling-mediated etiolated hypocotyl elongation involves the microtubule cytoskeleton. In this study, we functionally identified the previously uncharacterized microtubule-associated protein WAVE-DAMPENED2-LIKE5 (WDL5) as a microtubule-stabilizing protein that plays a positive role in ethylene-regulated etiolated hypocotyl cell elongation in Arabidopsis (Arabidopsis thaliana). ETHYLENE-INSENSITIVE3, a key transcription factor in the ethylene signaling pathway, directly targets and up-regulatesWDL5. Etiolated hypocotyls from aWDL5loss-of-function mutant (wdl5-1) were more insensitive to 1-aminocyclopropane-1-carboxylic acid treatment than the wild type. DecreasingWDL5expression partially rescued the shorter etiolated hypocotyl phenotype in the ethylene overproduction mutanteto1-1. Reorganization of cortical microtubules in etiolated hypocotyl cells from thewdl5-1mutant was less sensitive to 1-aminocyclopropane-1-carboxylic acid treatment. These findings indicate that WDL5 is an important participant in ethylene signaling inhibition of etiolated hypocotyl growth. This study reveals a mechanism involved in the ethylene regulation of microtubules through WDL5 to inhibit etiolated hypocotyl cell elongation.