Acidosis-induced activation of anion channel SLAH3 in the flooding-related stress response of Arabidopsis

Lehmann, Julian; Jorgensen, Morten E.; Fratz, Stefanie; Mueller, Heike M.; Kusch, Jana; Scherzer, Sonke; Navarro-Retamal, Carlos; Mayer, Dominik; Boehm, Jennifer; Konrad, Kai R.; Terpitz, Ulrich; Dreyer, Ingo; Mueller, Thomas D.; Sauer, Markus; Hedrich, Rainer; et. al.

Abstract

Plants, as sessile organisms, gained the ability to sense and respond to biotic and abiotic stressors to survive severe changes in their environments. The change in our climate comes with extreme dry periods but also episodes of flooding. The latter stress condition causes anaerobiosis-triggered cytosolic acidosis and impairs plant function. The molecular mechanism that enables plant cells to sense acidity and convey this signal via membrane depolarization was previously unknown. Here, we show that acidosis-induced anion efflux from Arabidopsis (Arabidopsis thaliana) roots is dependent on the S-type anion channel AtSLAH3. Heterologous expression of SLAH3 in Xenopus oocytes revealed that the anion channel is directly activated by a small, physiological drop in cytosolic pH. Acidosis-triggered activation of SLAH3 is mediated by protonation of histidine 330 and 454. Super-resolution microscopy analysis showed that the increase in cellular proton concentration switches SLAH3 from an electrically silent channel dimer into its active monomeric form. Our results show that, upon acidification, protons directly switch SLAH3 to its open configuration, bypassing kinase-dependent activation. Moreover, under flooding conditions, the stress response of Arabidopsis wild-type (WT) plants was significantly higher compared to SLAH3 loss-of-function mutants. Our genetic evidence of SLAH3 pH sensor function may guide the development of crop varieties with improved stress tolerance.

Más información

Título según WOS: Acidosis-induced activation of anion channel SLAH3 in the flooding-related stress response of Arabidopsis
Título de la Revista: CURRENT BIOLOGY
Volumen: 31
Número: 16
Editorial: Cell Press
Fecha de publicación: 2021
Página de inicio: 3575
Página final: +
DOI:

10.1016/j.cub.2021.06.018

Notas: ISI