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  • Auxin transport inhibitors impair vesicle motility and actin cytoskeleton dynamics in diverse eukaryotes.

Auxin transport inhibitors impair vesicle motility and actin cytoskeleton dynamics in diverse eukaryotes.

Proceedings of the National Academy of Sciences of the United States of America (2008-03-14)
Pankaj Dhonukshe, Ilya Grigoriev, Rainer Fischer, Motoki Tominaga, David G Robinson, Jirí Hasek, Tomasz Paciorek, Jan Petrásek, Daniela Seifertová, Ricardo Tejos, Lee A Meisel, Eva Zazímalová, Theodorus W J Gadella, York-Dieter Stierhof, Takashi Ueda, Kazuhiro Oiwa, Anna Akhmanova, Roland Brock, Anne Spang, Jirí Friml
초록

Many aspects of plant development, including patterning and tropisms, are largely dependent on the asymmetric distribution of the plant signaling molecule auxin. Auxin transport inhibitors (ATIs), which interfere with directional auxin transport, have been essential tools in formulating this concept. However, despite the use of ATIs in plant research for many decades, the mechanism of ATI action has remained largely elusive. Using real-time live-cell microscopy, we show here that prominent ATIs such as 2,3,5-triiodobenzoic acid (TIBA) and 2-(1-pyrenoyl) benzoic acid (PBA) inhibit vesicle trafficking in plant, yeast, and mammalian cells. Effects on micropinocytosis, rab5-labeled endosomal motility at the periphery of HeLa cells and on fibroblast mobility indicate that ATIs influence actin cytoskeleton. Visualization of actin cytoskeleton dynamics in plants, yeast, and mammalian cells show that ATIs stabilize actin. Conversely, stabilizing actin by chemical or genetic means interferes with endocytosis, vesicle motility, auxin transport, and plant development, including auxin transport-dependent processes. Our results show that a class of ATIs act as actin stabilizers and advocate that actin-dependent trafficking of auxin transport components participates in the mechanism of auxin transport. These studies also provide an example of how the common eukaryotic process of actin-based vesicle motility can fulfill a plant-specific physiological role.

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Sigma-Aldrich
2,3,5-Triiodobenzoic acid, BioReagent, suitable for plant cell culture, ≥97% (HPLC)